#     # #######    #    ######  ####### ######  
#     # #         # #   #     # #       #     # 
#     # #        #   #  #     # #       #     # 
####### #####   #     # #     # #####   ######  
#     # #       ####### #     # #       #   #   
#     # #       #     # #     # #       #    #  
#     # ####### #     # ######  ####### #     # 

# CRAI8_AOL1_DIR.txt Consolidated Scalars, Functions, Tables and Payloads {0}
# Though AOL1 was used, it can be tried against other CRAI8 catchcodes.
# NOT FIT FOR ANY PARTICULAR PURPOSE, USE AS YOU SEE FIT AT YOUR OWN RISK.

# 20240522 8065 Mulitibank template
#
#

# 20240726 Consolidate Scalars, Functions, Tables and Payloads from XDF and S6X.
#          SAD V4 series Commands with commented out MATH options for SADV5 testing.
#          Errors in source data will generally be carried through to this DIR.
#          As this DIR is a work in progress, expect errors to have been introduced.
#          Redundant data has been retained for cross reference and testing purposes.
#          ?? indicates inclusion is highly questionable, requiring a _lot_ more work.
#          SADV has processing issues with this DIR, possibly user induced and/or bugs.
#          Inline immediate address mode scalars are commented out due to SAD limitations.
#          The applicable address range has not yet been determined for each parameter.
#          Data Sources; {0} JSA DIR
#                        {2} decipha CRAI8_230620.xdf
#                        {3} SAD806x CRAI8 S6X
#                        {7} boostedeverything
  


 #####                           #####                                                   
#     #   ##   #       ####     #     #  ####  #    # #    #   ##   #    # #####   ####  
#        #  #  #      #    #    #       #    # ##  ## ##  ##  #  #  ##   # #    # #      
#       #    # #      #         #       #    # # ## # # ## # #    # # #  # #    #  ####  
#       ###### #      #         #       #    # #    # #    # ###### #  # # #    #      # 
#     # #    # #      #    #    #     # #    # #    # #    # #    # #   ## #    # #    # 
 #####  #    # ######  ####      #####   ####  #    # #    # #    # #    # #####   ####  
# Add Calc commands here for SAD V5.x



######                                  #####                                                   
#     # #####    ##    ####  ######    #     #  ####  #    # #    #   ##   #    # #####   ####  
#     # #    #  #  #  #      #         #       #    # ##  ## ##  ##  #  #  ##   # #    # #      
######  #####  #    #  ####  #####     #       #    # # ## # # ## # #    # # #  # #    #  ####  
#   #   #    # ######      # #         #       #    # #    # #    # ###### #  # # #    #      # 
#    #  #    # #    # #    # #         #     # #    # #    # #    # #    # #   ## #    # #    # 
#     # #####  #    #  ####  ######     #####   ####  #    # #    # #    # #    # #####   ####  




RBA 24   C00 8A432 8A580              # Temp Rbase Sub 8A41A 
RBA 26   694 8CDC5 8CF91              # TEMP RBASE SUB_8CDC5 SUB_8CE9A
RBA 2E   628 8CDC5 8CF91              # TEMP RBASE SUB_8CDC5 SUB_8CE9A
RBA 36 166CE 8E1C8 8E331              # TEMP RBASE FOR SUB_8E149
RBA 38 11028 0692E 06956              # Temp Rbase Sub 0692E
RBA 38 15DFB 8B043 8B0F8              # TEMP RBASE SUB 8B01A
RBA 46   C00 8A376 8A3A6              # Temp Rbase Sub 8A369  
RBA 46   C00 99FD2 9A110              #??? NOT SURE OF VALUE ??? Temp Rbase Sub 99FD2 ->  
RBA 48   C00 02866 028D5              # Temp Rbase Sub 02866
RBA 48   C00 02AF0 02CDE              # Temp Rbase Sub 02AF0 SUB_02BE4
RBA 48   C00 03943 03987              # Temp Rbase Sub 0393A
RBA 48   C00 8A42D 8A585              # Temp Rbase LOADED TO R24
RBA 52    00 02866 028D5              # Temp Rbase Sub 02866

RBA  CE 195EA                                                     # Loaded L8243B {0}
RBA  d2   280                                                     # {7}
RBA  d4   380                                                     # {7}
RBA  d6   480                                                     # {7}
RBA  d8   680                                                     # {7}
RBA  da   880                                                     # {7}
RBA  dc   980                                                     # {7}
RBA  de   a80                                                     # {7}
RBA  e0  1080                                                     # {7}
RBA  e2  1180                                                     # {7}
RBA  e4  1280                                                     # {7}
RBA  e6  1380                                                     # {7}
RBA  e8  1480                                                     # {7}
RBA  ea  1580                                                     # {7}
RBA  ec  1680                                                     # {7}

RBA  f0 12060                                                     # {7} 
RBA  f2 1242e                                                     # {7}
RBA  f4 12712                                                     # {7}
RBA  f6 139b8                                                     # {7}
RBA  f8 1448c                                                     # {7}
RBA  fa 15748                                                     # {7}
RBA  fc 15d32                                                     # {7}
RBA  fe 1723e                                                     # {7}

RBA 138 18040                                                     # {7} 
RBA 13a 1956c                                                     # {7}                                              



 #####                                          #######                                            
#     # #####  ######  ####  #   ##   #         #       #    # #    #  ####  ##### #  ####  #    # 
#       #    # #      #    # #  #  #  #         #       #    # ##   # #    #   #   # #    # ##   # 
 #####  #    # #####  #      # #    # #         #####   #    # # #  # #        #   # #    # # #  # 
      # #####  #      #      # ###### #         #       #    # #  # # #        #   # #    # #  # # 
#     # #      #      #    # # #    # #         #       #    # #   ## #    #   #   # #    # #   ## 
 #####  #      ######  ####  # #    # ######    #        ####  #    #  ####    #   #  ####  #    # 
                                                                                                   
######  #######  #####  ###  #####  ####### ####### ######   #####  
#     # #       #     #  #  #     #    #    #       #     # #     # 
#     # #       #        #  #          #    #       #     # #       
######  #####   #  ####  #   #####     #    #####   ######   #####  
#   #   #       #     #  #        #    #    #       #   #         # 
#    #  #       #     #  #  #     #    #    #       #    #  #     # 
#     # #######  #####  ###  #####     #    ####### #     #  #####  

# Add SFR's here

SYM     0 "ZERO"                    #[UW]                               # {7}
SYM     0 "EDFM"                    :B0                                 # {7}


SYM     1 04BDA "DISABLE_PATS"      #[ Y]                               # {7}

SYM     2 "LSOUT"                   #[UY]                               # {7}
SYM     2 "LSOUT_0"                 :B0                                 # {7}
SYM     2 "LSOUT_1"                 :B1                                 # {7}
SYM     2 "LSOUT_2"                 :B2                                 # {7}
SYM     2 "LSOUT_3"                 :B3                                 # {7}
SYM     2 "LSOUT_4"                 :B4                                 # {7}
SYM     2 "LSOUT_5"                 :B5                                 # {7}
SYM     2 "LSOUT_6"                 :B6                                 # {7}
SYM     2 "LSOUT_7"                 :B7                                 # {7}
SYM     3 "BIDIR"                   #[UY]                               # {7}
SYM     3 "BIDIR_1"                 :B0                                 # {7}
SYM     3 "BIDIR_2"                 :B1                                 # {7}

#SYM     3 9538A "SAIR_KOEO_FUEL_DONE" #[ Y]                             # {7}


SYM     4 "ATOD_LOW"                #[UY]                               # {7}
SYM     5 "ATOD_HI"                 #[UY]                               # {7}
SYM     6 "CLOCK"                   #[UW]          #HWTIMERTICKS 0-65535#System time base Resolution: 1.0 {7}
SYM     7 "ATOD_TIMED_RESULT"       #[UY]                               # {7}
SYM     8 "IO_INT_MASK"             #[UY]                               # {7}
SYM     8 "HSI_HALF_FULL"           :B0                                 # {7}
SYM     8 "EXT_INT"                 :B1                                 # {7}
SYM     8 "HSI_0_INT"               :B2                                 # {7}
SYM     8 "HSI_DATA_AVAIL"          :B3                                 # {7}
SYM     8 "HSI_1_INT"               :B4                                 # {7}
SYM     8 "IMMED_ATOD_DONE"         :B5                                 # {7}
SYM     8 "TIMED_ATOD_DONE"         :B6                                 # {7}
SYM     8 "ALT_TIMER_OFLOW"         :B7                                 # {7}
SYM     9 "IO_INT_PEND"             #[UY]                               # {7}
SYM     A "IO_STATUS"               #[UY]                               # {7}
SYM     A "FULL"                    :B0                                 # {7}
SYM     A "FIFO"                    :B1                                 # {7}
SYM     A "DATA"                    :B2                                 # {7}
SYM     A "ATOD"                    :B3                                 # {7}
SYM     A "MEM_EX_EN"               :B4                                 # {7}
SYM     A "HSO_TC_READY"            :B5                                 # {7}
SYM     A "TSM_AD_READY"            :B6                                 # {7}
SYM     A "HSO_BUFF_FULL"           :B7                                 # {7}

#SYM     A 0FC83 "5"                 #[ Y]                               # {7}

SYM     B "HSI_PINS"                #[UY]                               # {7}
SYM     B "PIP_LVL"                 :B0                                 # {7}
SYM     B "KNK_LVL"                 :B1                                 # {7}
SYM     B "ALT_LVL"                 :B3                                 # {7}
SYM     B "CID_LVL"                 :B6                                 # {7}
SYM     B "EDM_LVL"                 :B7                                 # {7}
SYM     C "HSI_MASK"                #[UY]                               # {7}
SYM     D "HSI_BUFF"                #[UY]                               # {7}
SYM     D "HSI_0"                   :B0                                 # {7}
SYM     D "HSI_1"                   :B1                                 # {7}
SYM     D "HSI_2"                   :B2                                 # {7}
SYM     D "HSI_3"                   :B3                                 # {7}
SYM     D "HSI_4"                   :B4                                 # {7}
SYM     D "HSI_5"                   :B5                                 # {7}
SYM     D "HSI_6"                   :B6                                 # {7}
SYM     D "HSI_7"                   :B7                                 # {7}
SYM     E "HSI_TIME"                #[UW]                               # {7}

#SYM     E 0FC7E "7"                 #[ Y]                               # {7}


SYM     F "ATOD_TIMED_HI"           #[UY]                               # {7}
SYM    10 "HSO_INT_1_PEND"          #[UW]                               # {7}
SYM    10 "INJ1_INT_PENDING"        :B0                                 # {7}
SYM    10 "INJ2_INT_PENDING"        :B1                                 # {7}
SYM    10 "INJ3_INT_PENDING"        :B2                                 # {7}
SYM    10 "INJ4_INT_PENDING"        :B3                                 # {7}
SYM    10 "INJ5_INT_PENDING"        :B4                                 # {7}
SYM    10 "INJ6_INT_PENDING"        :B5                                 # {7}
SYM    10 "INJ7_INT_PENDING"        :B6                                 # {7}
SYM    10 "INJ8_INT_PENDING"        :B7                                 # {7}
SYM    11 "ROM_BANK_CTL"            #[UY]                               # {7}
SYM    12 "HSO_INT_1_MASK"          #[UW]                               # {7}
SYM    13 "CLOCK_EXTEN"             #[UY]                               # {7}
SYM    14 "HSO_INT_2_PEND"          #[UW]                               # {7}

#SYM    14 0FBDE "10"               #[ Y]                               # {7}



SYM    15 "LSI_EXP_A"               #[UY]                               # {7}
SYM    16 "HSO_INT_2_MASK"          #[UW]                               # {7}
SYM    17 "LSI_EXP_B"               #[UY]                               # {7}
SYM    18 "HSO_PIN_STATE"           #[UW]                               # {7} 
SYM    18 "INJ1_PIN_STATE"          :B0                                 # {7}
SYM    18 "INJ2_PIN_STATE"          :B1                                 # {7}
SYM    18 "INJ3_PIN_STATE"          :B2                                 # {7} 
SYM    18 "INJ4_PIN_STATE"          :B3                                 # {7} 
SYM    18 "INJ5_PIN_STATE"          :B4                                 # {7} 
SYM    18 "INJ6_PIN_STATE"          :B5                                 # {7} 
SYM    18 "INJ7_PIN_STATE"          :B6                                 # {7} 
SYM    18 "INJ8_PIN_STATE"          :B7                                 # {7} 
SYM    19 "LSI_EXP_C"               #[UY]                               # {7}
SYM    1A "HSI_EDGE_MODE"           #[UY]                               # {7}
SYM    1B "CAM_SLOTS_AVBL"          #[UY]                               # {7}
SYM    1B "RESERVE_SLOT"            :B7                                 # {7}
SYM    1C "CAM_SLOT_READ"           #[UW]                               # {7}
SYM    1D "LSI_EXP_D"               #[UY]                               # {7}
SYM    1E "CAM_SLOT_LAST_USED"      #[UY]                               # {7}
SYM    1F "CAM_SLOT_SELECT"         #[UY]                               # {7}
SYM    1F "SLOT_CLEAR"              :B5                                 # {7}
SYM    1F "MANUAL_MODE"             :B6                                 # {7}
SYM    1F "MANUAL_WRITE"            :B7                                 # {7} 


#SYM    1F 953E9 9547D "SAIR_ER_DONE" #[ Y]                              # {7}



SYM    20 "STACK_POINTER"           #[UW]                               # {7} 
SYM    22 "ALT_STACK_POINTER"       #[UW]                               # {7}




######     #    #     # #       #######    #    ######  
#     #   # #    #   #  #       #     #   # #   #     # 
#     #  #   #    # #   #       #     #  #   #  #     # 
######  #     #    #    #       #     # #     # #     # 
#       #######    #    #       #     # ####### #     # 
#       #     #    #    #       #     # #     # #     # 
#       #     #    #    ####### ####### #     # ######  
                                                        
######  #######  #####  ###  #####  ####### ####### ######   #####  
#     # #       #     #  #  #     #    #    #       #     # #     # 
#     # #       #        #  #          #    #       #     # #       
######  #####   #  ####  #   #####     #    #####   ######   #####  
#   #   #       #     #  #        #    #    #       #   #         # 
#    #  #       #     #  #  #     #    #    #       #    #  #     # 
#     # #######  #####  ###  #####     #    ####### #     #  #####  


SYM    24 "TEMP0L"                  #[UY]                               # {7}
SYM    25 "TEMP0H"                  #[UY]                               # {7}



SYM    26 02000 0FFFF "TEMP1L"      #[UY]                               # {7}
SYM    26 12000 1FFFF "TEMP1L"      #[UY]                               # {7}
SYM    26 82000 8FFFF "TEMP1L"      #[UY]                               # {7}
SYM    26 92000 92D3F "TEMP1L"      #[UY]                               # {7}
SYM    26 92D40 92FA2 "osc_allowed_flg_tmp"  #[UY]                      # {7}
SYM    26 92FA3 9FFFF "TEMP1L"      #[UY]                               # {7}
#SYM    26 "TEMP1L"                  #[UY]                               # {7}
#SYM    26 "PPH12_TMP"               :B0                                 # {7}
#SYM    26 "STOP_DS_EX"              :B3                                 # {7}
#SYM    26 "LCL_DS_EGO_OL"           :B6                                 # {7}
SYM    27 "TEMP1H"                  #[UY]                               # {7}
SYM    28 "TEMP2L"                  #[UY]                               # {7}
#SYM    28 "VEGO_RHAVG_N"            :B2                                 # {7}
#SYM    28 "VEGO_LNAVG_N"            :B3                                 # {7}
#SYM    28 "PK_RH_FLG_N"             :B4                                 # {7}
#SYM    28 "PK_LN_FLG_N"             :B5                                 # {7}
#SYM    28 "MIL_STATE"               :B7                                 # {7}
SYM    29 "TEMP2H"                  #[UY]                               # {7}
SYM    2A "TEMP3L"                  #[UY]                               # {7}
#SYM    2A "ECT_TEMP_??"                :B2                                 # Sub_0685B R2A+2 ALSO Sub_06957 R2A+2 = MIL_STATUS {7}
SYM    2B "TEMP3H"                  #[UY]                               # {7}
SYM    2C "TEMP4L"                  #[UY]                               # {7}
#SYM    2C "TMP_442_FLG"             :B0                                 # {7}
#SYM    2C "TMP_457_FLG"             :B1                                 # L_09CC6 B1_R2C=L_0A62C B1_R3C IN RZASA (WEL) {7}
SYM    2D "TEMP4H"                  #[UY]                               # {7}
SYM    2E "TEMP5L"                  #[UY]                               # {7}
SYM    2F "TEMP5H"                  #[UY]                               # {7}
#SYM    2F "EGO_MON_ENTRY"           :B0                                 # {7}
SYM    30 "TEMP6L"                  #[UY]                               # {7}
SYM    31 "TEMP6H"                  #[UY]                               # {7}
SYM    32 "TEMP7L"                  #[UY]                               # {7}
SYM    32 "PC_RESTART_TMP"          :B0                                 # {7}
SYM    33 "TEMP7H"                  #[UY]                               # {7}
SYM    34 "TMP1L"                   #[UY]                               # {7}
SYM    35 "TMP1H"                   #[UY]                               # {7}
SYM    36 02000 0FFFF "TMP2L"       #                                   # {7}
SYM    36 12000 1FFFF "TMP2L"       #                                   # {7}
SYM    36 82000 8FFFF "TMP2L"       #                                   # {7}
SYM    36 92000 94674 "TMP2L"       #                                   # {7}
SYM    36 94675 9489F "Fn_Addr"     #                                   # {7}
#SYM    36 92B26 92C15 "Fn_Addr"     #  ?                                 # {7}
#SYM    36 92C16 92C61 "Fn_Addr"     #  ?                                 # {7}
SYM    36 948A0 9FFFF "TMP2L"       #[UY]                               # {7}
SYM    37 "TMP2H"                   #[UY]                               # {7}
SYM    38 "TMP3L"                   #[UY]                               # {7}
SYM    39 "TMP3H"                   #[UY]                               # {7}
SYM    39 "STORE_KEY_FAIL"          :B7                                 # {7}
SYM    3A 02000 0FFFF "TMP4L"       #[UY]                               # {7}
SYM    3A 12000 1FFFF "TMP4L"       #[UY]                               # {7}
SYM    3A 82000 85C2B "TMP4L"       #[UY]                               # {7}
SYM    3A 85C2C 85C57 "CYL_ID_TMP"  #[UY]                               # {7}
SYM    3A 85C58 8FFFF "TMP4L"       #[UY]                               # {7}
SYM    3A 92000 9FFFF "TMP4L"       #[UY]                               # {7}



SYM    3B "TMP4H"                   #[UY]                               # {7}
SYM    3B "BANK_SEL"                :B3                                 # {7}
#SYM    3C "WIP"                     :B0                                 # {7}
#SYM    3C "WEL"                     :B1                                 # {7}
#SYM    3C "BL0"                     :B2                                 # {7}
#SYM    3C "BL1"                     :B3                                 # {7}
SYM    3C 02000 0FFFF "TMP5L"       #                                   # {7}
SYM    3C 12000 1FFFF "TMP5L"       #                                   # {7}
SYM    3C 82000 8FFFF "TMP5L"       #                                   # {7}
SYM    3C 92000 92DCA "TMP5L"       #                                   # {7}
SYM    3C 92DCB 92DDE "Tb.CV|"      #                                   # {7}
SYM    3C 92DDF 92E32 "TMP5L"       #                                   # {7}
SYM    3C 94964 94989 "Tb_Addr"     #                                   # {7}
SYM    3C 9498A 94992 "Tb.CV|"      #                                   # {7}
SYM    3C 94993 94D4D "Tb_Addr"     #                                   # {7}
SYM    3C 94D4E 9595F "TMP5L"       #                                   # {7}
SYM    3C 95960 9597B "Tb_Addr"     #                                   # {7}
SYM    3C 9597C 9FFFF "TMP5L"       #                                   # {7}
SYM    3D "TMP5H"                   #[UY]                               # {7}

#SYM    3D 88719 "ISC_LO_CHECK"      #[ Y]                               # {7}



SYM    3E 02000 0FFFF "TMP6L"       #                                   # {7}
SYM    3E 12000 1FFFF "TMP6L"       #                                   # {7}
SYM    3E 82000 8FFFF "TMP6L"       #                                   # {7}
SYM    3E 92000 94989 "TMP6L"       #                                   # {7}
SYM    3E 9498A 949F1 "Tb.CV"       #                                   #Table Output, Control Value, Signed when Tblsflg set before {7}
SYM    3E 949F2 959C7 "TMP6L"       #                                   # {7}
SYM    3E 959C8 959CA "Tb.CV"       #                                   #Table Output, Control Value, Signed when Tblsflg set before {7}
SYM    3E 959CB 9FFFF "TMP6L"       #                                   # {7}
SYM    3F "TMP6H"                   #[UY]                               # {7}


SYM    40 089F3 08AB4 "FREE_RUN"    :B0                                 #0=Free Run Timer              1=Flag Controlled Timer {7}
#      40                           #                                   #If =1 Takes Four Additional Bytes from Timer Structure {0}
SYM    40 089F3 08AB4 "WORD_TMR"    :B1                                 #0=Byte Timer                  1=Word Timer {7}
SYM    40 089F3 08AB4 "DECREMENT"   :B2                                 #0=Count Up                    1=Count Down {7}
SYM    40 089F3 08AB4 "INVERSE"     :B3                                 #0=Timer Counts for Logic One  1=Timer Counts for Logic Zero {7}
SYM    40 089F3 08AB4 "BIDIREC"     :B4                                 #0=Count Up or Down Only       1=Count up and Down {7}
#      40                           #                                   #If =1 Takes Four Additional Bytes from Timer Structure {0}
SYM    40 089F3 08AB4 "MILLISECS"   :B5                                 #0=Other Time Increment        1=Milliseconds Timer Increment {7}
SYM    40 089F3 08AB4 "EIGHTHS"     :B6                                 #0=Other Time Increment        1=Eighths Timer Increment {7}
SYM    40 089F3 08AB4 "SECONDS"     :B7                                 #0=Other Time Increment        1=Seconds Timer Increment {7}
#      40                           #   ??                                #This strategy relies on B5=0 & B6=0, as B7 is NOT tested in Update Subroutine, though B7 is set. {0}
SYM    40 02000 0FFFF "TMP7L"       #[UY]                               # {7}
SYM    40 12000 1FFFF "TMP7L"       #[UY]                               # {7}
SYM    40 82000 8CA36 "TMP7L"       #[UY]                               # {7}
SYM    40 8CA37 8CAEF "GRRAT_TMP"   #[  ]                               # {7}
SYM    40 8CAF0 8FFFF "TMP7L"       #[UY]                               # {7}
SYM    40 92000 92B4E "TMP7L"       #[UY]                               # {7}
SYM    40 92B4F 92D3F "osc_ena[channel_number_tmp]" #[UY]               # {7}
SYM    40 92D40 92FA2 "channel_number_tmp"  #[UY]                       # {7}
SYM    40 92FA3 9FFFF "TMP7L"       #[UY]                               # {7}



SYM    41 "TMP7H"                   #[UY]                               # {7}
SYM    42 "TMP8L"                   #[UY]                               # {7}
SYM    43 "TMP8H"                   #[UY]                               # {7}


SYM    44 02000 0FFFF "TMP9L"       #[UY]                               # {7}
SYM    44 12000 1FFFF "TMP9L"       #[UY]                               # {7}
SYM    44 82000 8CA36 "TMP9L"       #[UY]                               # {7}
SYM    44 8CA37 8CAEF "VSGRV_TMP"   #[  ]                               # {7}
SYM    44 8CAF0 8FFFF "TMP7L"       #[UY]                               # {7}
SYM    44 92000 9FFFF "TMP7L"       #[UY]                               # {7}
#SYM    44 "MISFILLVLFLG_TMP"        :B0                                 # {7}
#SYM    44 "MISFCOFLG_TMP"           :B1                                 # {7}

SYM    44 97472 975CB "P030xMALF_SET_TMP" :B5                           # {7} SUB_97472 -


SYM    45 "TMP9H"                   #[UY]                               # {7}
SYM    46 "TMP0L"                   #[UY]                               # {7}
SYM    46 02000 0FFFF "TMP0L"       #[UY]                               # {7}
SYM    46 12000 1FFFF "TMP0L"       #[UY]                               # {7}
SYM    46 82000 8FFFF "TMP0L"       #[UY]                               # {7}
SYM    46 92000 92D3F "TMP7L"       #[UY]                               # {7}
SYM    46 92D40 92FA2 "OSC_VALUE[channel_number_tmp]"  #[UY]                       # {7}
SYM    46 92FA3 9FFFF "TMP0L"       #[UY]                               # {7}

SYM    47 "TMP0H"                   #[UY]                               # {7}
SYM    48 "FGTMP0L"                 #[UY]                               # {7}
SYM    48 "FLG_TR_TMP"              :B0                                 # {7}
SYM    49 "FGTMP0H"                 #[UY]                               # {7}
SYM    4A "FGTMP1L"                 #[UY]                               # {7} 
SYM    4A "DARC_HLOS"               :B0                                 # {7}
SYM    4A "DARC_SIZE"               :B1                                 # {7}
SYM    4A "DARC_COL"                :B2                                 # {7}
SYM    4A "DARC_BSY"                :B3                                 # {7}
SYM    4A "DARC_RSX"                :B4                                 # {7}
SYM    4A "DARC_RS"                 :B6                                 # {7}

SYM    4B "FGTMP1H"                 #[UY]                               # {7} 
SYM    4C "FGTMP2L"                 #[UY]                               # {7}
SYM    4D "FGTMP2H"                 #[UY]                               # {7}
SYM    4E "FGTMP3L"                 #[UY]                               # {7}
SYM    4F "FGTMP3H"                 #[UY]                               # {7}
SYM    50 "FGTMP4L"                 #[UY]                               # {7}
SYM    51 "FGTMP4H"                 #[UY]                               # {7}
SYM    51 "STORE_KEY_FAIL"          :B7                                 # {7}
SYM    52 "FGTMP5L"                 #[UY]                               # {7} 
SYM    53 "FGTMP5H"                 #[UY]                               # {7}
SYM    54 "LOW_IMAGE"               #[UW]                               # {7}
SYM    54 "CRANK_ENB"               :B0                                 # {7}
SYM    54 "LED_OUT"                 :B1                                 # {7}
SYM    54 "DOL_CMD"                 :B3                                 # {7}
SYM    54 "BS0"                     :B4                                 # {7}
SYM    54 "BS3"                     :B7                                 # {7}


SYM    56 "INP_IMAGE_RPA"           #[UY]                               # {7}
SYM    56 "F_PUMP_S_MON"            :B0                                 # {7}
SYM    56 "ITCS"                    :B1                                 # {7}
SYM    56 "ITR1"                    :B2                                 # {7}

SYM    57 "FLAG_R57"                #[UY]                               # {7}
SYM    57 "BOO_LVL"                 :B3                                 # {7}
SYM    57 "ACCS_????"               :B4                                 # {7}

SYM    58 "BYTE_POINTER"            #[UW]                               # {7}
SYM    5A "SAPW"                    #[UW]                               # {7} 
SYM    5C "DATA_TIME_EXT"           #[UY]                               # {7} 
SYM    5D "TARGT_BYT"               #[UY]                               # {7}
#SYM    5D "NEW_TIME_EXT"            #[UY]                               # {7}
SYM    5E "NEW_CMD"                 #[UY]                               # {7}
SYM    5F "REF_DELTA_EXT"           #[UY]                               # {7}
SYM    60 "DATA_IMAGE"              #[UY]                               # {7}
SYM    60 "PIP_HIGH"                :B0                                 # {7}
SYM    60 "KNK_HIGH"                :B1                                 # {7}
#SYM    60 "ALT_HIGH"                :B3                                 # {7}
SYM    60 "CID_HIGH"                :B6                                 # {7}
SYM    60 "EDM_HIGH"                :B7                                 # {7}

SYM    61 "NEW_DATA"                #[UY]                               # {7}
SYM    61 "PIP_INT"                 :B0                                 # {7}
SYM    61 "KNK_INT"                 :B1                                 # {7}
SYM    61 "ALT_INT"                 :B3                                 # {7}
SYM    61 "CID_INT"                 :B6                                 # {7}
SYM    61 "EDM_INT"                 :B7                                 # {7}

SYM    62 "TS_TASK_ID"              #[UY]                               # {7}
SYM    62 "TASK_2MS"                :B0                                 # {7}
SYM    62 "TASK_4MS"                :B1                                 # {7}
SYM    62 "TASK_8MS"                :B2                                 # {7}
SYM    62 "TASK_16MS"               :B3                                 # {7}

SYM    63 "DARC_OUT_IMA"            #[UY]                               # {7}
SYM    63 "EEPROM_ENA"              :B0                                 # {7}
SYM    63 "ROC_ENA"                 :B1                                 # {7}
SYM    63 "ISIG_CSB_FLG"            :B2                                 # {7}
SYM    63 "CHT_SW1R_FL"             :B3                                 # {7}

SYM    64 "DARC_DATA_IMAGE"         #[UY]                               # {7}
SYM    64 "ITR2"                    :B0                                 # {7}
SYM    64 "I4X4L"                   :B2                                 # {7}
SYM    64 "EAMM"                    :B3                                 # {7}
SYM    64 "ITR4"                    :B4                                 # {7}

SYM    65 "SPI_INDEX"               #[UY]                               # {7} 

SYM    68 "ISC_CURRENT"             #[UY]                               # {7}


SYM    69 "GASP1"                   #[UY]                               # {7}
#SYM    69 "EDF_45_??"                  :B2                                 #Commanded EDF output on J1 pin 45 [&}
SYM    69 "CHTIL_CMD"               :B2                                 #CHT indicator light command flag Initial Value: 0 {7}
SYM    69 "MIL"                     :B3                                 # {7}

SYM    6A "FLAG_R6A"                #[UY]                               # {7}
SYM    6A "HEDF"                    :B2                                 #Dual speed fan high speed control Initial Value: 0 {7}
SYM    6A "IMRC_OUT"                :B3                                 #Commanded IMRC output state.  1 = output energized {7}

SYM    6B "GASP4C"                  #[UY]                               # {6}
#SYM    6B "SS1_COM_LST"             :B0                                 #Last verified position of solenoid #1 {7}
#SYM    6B "SS2_COM_LST"             :B1                                 #Last verified position of solenoid #2 {7}
SYM    6B "FLG_SS_1"                :B0                                 #AXODE shift solenoid # 1 (Definition only) {6}
SYM    6B "FLG_SS_2"                :B1                                 #AXODE shift solenoid # 2 (Definition only) {6}
SYM    6B "FLG_RLS"                 :B2                                 #Reverse lock-out solenoid {7}
SYM    6B "EDF_28"                  :B3                                 #Commanded EDF output on J1 pin 28 {7}
SYM    6B "TCIL_STATE_??"              :B4                                 #Current State Of TCIL output: 1 -> light is on; 0 -> light is off {7}


SYM    6C "FLAG_R6C"                #[UY]                               # {7}
SYM    6C "ACR"                     :B2                                 #A/C Output {7}
#SYM    6C "EDF_19_??"                  :B3                                 #Commanded EDF output on J1 pin 19 {7}
SYM    6C "SWC"                     :B3                                 # {7}
SYM    6C "CANVT_CMD"               :B4                                 # {7}
SYM    6C "EAM"                     :B5                                 #Electric Air Management {7}


SYM    6E "HTR11"                   :B0                                 # {7}
SYM    6E "HTR21"                   :B1                                 # {7}
SYM    6E "HTR12"                   :B2                                 # {7}
SYM    6E "HTR22"                   :B3                                 # {7}

SYM    6F "GASP1_ERRORS"            #[UY]                               # {7}
SYM    6F "INJ4_FAULT"              :B0                                 # {7}
SYM    6F "INJ3_FAULT"              :B1                                 # {7}
SYM    6F "IMRC_FAULT"              :B2                                 # {7}
SYM    6F "MIL_FAULT"               :B3                                 # {7}
SYM    6F "INJ2_FAULT"              :B4                                 # {7}
SYM    6F "INJ1_FAULT"              :B5                                 # {7}
SYM    6F "EAMOSM"                  :B6                                 # {7}

SYM    70 "FLAGS_R70"               #[UY]                               # {7}
SYM    70 "INJ8_FAULT"              :B0                                 # {7}
SYM    70 "INJ7_FAULT"              :B1                                 # {7}
SYM    70 "HEDF_STATUS"             :B2                  #ENUM 0-2      #HEDF Smart Output Driver Fault Status Init. Value: 0 Resolution: 1 {7} 
SYM    70 "IMRC_FAULT"              :B3                  #ENUM 0-2      #EEEC output device diagnostic return code; 0->OK, other->not OK. {7}
SYM    70 "INJ6_FAULT"              :B4                                 # {7}
SYM    70 "INJ5_FAULT"              :B5                                 # {7}

SYM    71 "GASP4C_ERRORS"           #[UY]                               # {7}
SYM    71 "SS1_FAULT"               :B0                                 # {7}
SYM    71 "SS2_FAULT"               :B1                                 # {7}
SYM    71 "TCC_FAULT"               :B5                                 # {7}

SYM    72 "GASP4B_ERRORS"           #[UY]                               # {7}
SYM    72 "F_PUMP_ERROR"            :B1                                 # {7}
SYM    72 "ACC_STATUS"              :B2                   #             # {7}
#SYM    72 "CRANK_ENB_FAULT"         :B2                                 # {7}
SYM    72 "SWC_FAULT"               :B3                                 # {7}
SYM    72 "CANP_FAULT(SCP_162F_B2)" :B4                                 #Fault status of canister purge valve (CANP) returned from the driver; 0 -> no fault detected. {7}
SYM    72 "EAM_FAULT"               :B5                                 #1=Secondary Air Injection (AIR) output fault indicated  {7}


SYM    74 "HTRM11"                  :B4                                 # {7}
SYM    74 "HTRM21"                  :B5                                 # {7}
SYM    74 "HTRM12"                  :B6                                 # {7}
SYM    74 "HTRM22"                  :B7                                 # {7}

SYM    75 "GASP1_SCCD_ERRORS"       #[UY]                               # {7}
SYM    75 "IAC_OVER_CUR"            :B2                                 # {7}
SYM    75 "IAC_NO_CUR"              :B3                                 # {7}
SYM    75 "EVR_SHORT"               :B4                                 # {7} #
SYM    75 "EVR_OPEN"                :B5                                 # {7} #

SYM    76 "WATCHDOG_BG"             #[UY]                               # {7}
SYM    77 "ECT"                     #[SY]                               # {7}
SYM    78 "aCT"                     #[??=flo(X*2)]       #°F           #aCT {3}
SYM    79 "PPCTR"                   #[UY]                               # {7}
SYM    7A "ATMR1"                   #[UY]                               # {7}
SYM    7B "ATMR2"                   #[UY]                               # {7}
SYM    7C "DT12SH"                  #[UY]              #HWTIMERTICKS 0-255#High byte of DT12S Resolution: 1.0 {7}

SYM    7D "OBDII_ENA"               #[UY]                               # {7}
SYM    7D "CAT_TST_ENA"             :B0                                 # {7}
SYM    7D "CCM_TST_ENA"             :B1                                 # {7}
SYM    7D "PURG_TST_ENA"            :B2                                 # {7}
SYM    7D "SAIR_TST_ENA"            :B3                                 # {7}
SYM    7D "FUEL_TST_ENA"            :B4                                 # {7}
SYM    7D "EGO_TST_ENA"             :B5                                 # {7}
SYM    7D "EGR_TST_ENA"             :B6                                 # {7}
SYM    7D "MIS_TST_ENA"             :B7                                 # {7}

SYM    7E "SYS_FMEM"                #[UY]                               #36.1.1.1.18  Sys_FMEM Flags {7}
SYM    7E "CAT_FMEM"                :B0                                 # {7}
SYM    7E "CCM_FMEM"                :B1                                 # {7}
SYM    7E "PURG_FMEM"               :B2                                 # {7}
SYM    7E "SAIR_FMEM"               :B3                                 # {7}
SYM    7E "FUEL_FMEM"               :B4                                 # {7}
SYM    7E "EGO_FMEM"                :B5                                 # {7}
SYM    7E "EGR_FMEM"                :B6                                 # {7}
SYM    7E "MIS_FMEM"                :B7                                 # {7}

SYM    7F "FLAGS_R7F"               #[UY]                               # {7}
SYM    7F "EVLOPNFM_FLG"            :B0                                 # {7}
SYM    7F "WRM_IDL_FLG"             :B1                                 # {7}
SYM    7F "AC_EN_TRANS"             :B4                                 # {7}
SYM    7F "CHK_VPLG_FLG"            :B5                                 # {7}

#sym    7F 04BE1 "OK"                #[ Y]                               # {7}

SYM    80 "EGR_MON_FLG2"            #[UY]                               # {7}
SYM    80 "OL_HOLD"                 :B0                                 # {7}
SYM    80 "HEGO_FDBACK"             :B1                                 # {7}
SYM    80 "OL_DRIVE"                :B2                                 # {7}
SYM    80 "OL_FMEM"                 :B3                                 # {7}
SYM    80 "HEGO_FAULT"              :B4                                 # {7}
SYM    80 "OL_DESIRED"              :B6                                 # {7}


SYM    81 "P1450MON"                :B2                                 # {7}
SYM    81 "P0455MON"                :B3                                 # {7}
SYM    81 "P0453MON"                :B4                                 #OBDII MONITOR FLAG FOR FAULT 0453 {7}
SYM    81 "P0452MON"                :B5                                 #OBDII MONITOR FLAG FOR FAULT 0452 {7}

SYM    82 "PGM_FLG_1"               #[UY]                               # {7}
SYM    82 "CANP_OSM_CTL"            :B0                                 # {7}
SYM    82 "PGM_RUN_LST"             :B1                                 # {7}
SYM    82 "CL_TMR_FLG"              :B2                                 #Control flag that actuates CL_TMR, used in the Purge Monitor.  1 -> allow timer to increment. {7}
SYM    82 "PGM_PG_OFF"              :B3                                 #PURGE MONITOR COMMAND TO TURN PCOMP/PURGE OFF {7}
SYM    82 "PGM_PG_ON"               :B4                                 # {7}
SYM    82 "FLOW_RUNNING"            :B5                                 # {7}
SYM    82 "PGM_RUNNING"             :B6                                 # {7}
SYM    82 "PGM_DONE"                :B7                                 # {7}

SYM    83 "PGM_FLG_2"               #[UY]                               # {7}
SYM    83 "PGM_PFS_FM"              :B5                                 #Purge thermistor flow sensor fmem flag {7}
SYM    83 "PGM_CVS_FM"              :B6                                 # {7}
SYM    83 "PGM_TPR_FM"              :B7                                 # {7}

SYM    85 "CCM_FLG_0"               #[UY]                               # {7}
SYM    85 "CCM_EO_ENA"              :B1                                 # {7}
SYM    85 "CCM_ECT_MON"             :B2                                 # {7}
SYM    85 "CCM_IAC_MON"             :B3                                 # {7}
SYM    85 "P0741MON"                :B4                                 # {7}
SYM    85 "P0743MON"                :B5                                 # {7}
SYM    85 "FP_HI_ENABL2"            :B6                                 #Hi fuel-pump speed enable flag due to enough RPM, regardless, 1->enable hi speed {7}
SYM    85 "FP_HI_ENABL1"            :B7                                 #Hi fuel-pump speed enable flag for AM > a func. of VBAT, 1-> enable hi speed {7}

SYM    86 "CCM_FLG_1"               #[UY]                               # {7}
SYM    86 "CCM_INRN_MON"            :B0                                 # {7}
SYM    86 "V_POWS_ON"               :B1                                 # {7}
SYM    86 "V_POWS_OFF"              :B2                                 # {7}
SYM    86 "PARK_ERR"                :B3                                 # {7}
SYM    86 "V_SPDTOZ_FLG"            :B4                                 # {7}

SYM    87 "CCM_FLG_2"               #[UY]                               # {7}
SYM    87 "EBC_HOST_INIT"           :B0                                 # {7}
SYM    87 "P0500MON"                :B1                                 # {7}
SYM    87 "SCPOTM_EXIT"             :B2                                 # {7}
SYM    87 "SCPOTM_START"            :B3                                 # {7}
SYM    87 "SCPER_EXIT"              :B4                                 # {7}
SYM    87 "SCPER_START"             :B5                                 # {7}
SYM    87 "SCPEO_EXIT"              :B6                                 # {7}
SYM    87 "SCPEO_START"             :B7                                 # {7}

SYM    88 "TRIP_MON"                #[UY]                               # {7}
SYM    88 "CAT_MON"                 :B0                                 # {7}
SYM    88 "CCM_MON"                 :B1                                 # {7}
SYM    88 "PURG_MON"                :B2                                 # {7}
SYM    88 "SAIR_MON"                :B3                                 # {7}
SYM    88 "FUEL_MON"                :B4                                 # {7}
SYM    88 "EGO_MON"                 :B5                                 # {7}
SYM    88 "EGR_MON"                 :B6                                 # {7}
SYM    88 "MIS_MON"                 :B7                                 # {7}

SYM    89 "OBDII_RDY"               #[UY]                               # {7}
SYM    89 "CAT_TST_RDY"             :B0                                 # {7}
SYM    89 "CCM_TST_RDY"             :B1                                 # {7}
SYM    89 "PURG_TST_RDY"            :B2                                 # {7}
SYM    89 "SAIR_TST_RDY"            :B3                                 # {7}
SYM    89 "FUEL_TST_RDY"            :B4                                 # {7}
SYM    89 "EGO_TST_RDY"             :B5                                 # {7}
SYM    89 "EGR_TST_RDY"             :B6                                 # {7}
SYM    89 "MIS_TST_RDY"             :B7                                 # {7}


SYM    8A "FLAGS_R8A"               #[UY]                               # {7}
SYM    8A "V_IDM_FLG"               :B2                                 #1 = INCREMENT IDM COUNTER IF VALID SPARK {7}
SYM    8A "V_SPK_FLG"               :B3                                 #1 = IDM OCCURRED SINCE LAST PIP LOW {7}
SYM    8A "VCID_BYPS"               :B6                                 #Flag, when equal to 1 indicates that the cid test background is bypassed {7}
SYM    8A "VPIPFLG"                 :B7                                 # {7}
SYM    8A "VPIPFLGB15_??"                 :B15                                # {7}



SYM    8B "BGS_FLAGS"               #[UY]                               # {7} 
SYM    8B "BGS_SKIPPED"             :B0                                 # {7} 
SYM    8B "BGS_BUSY"                :B1                                 # {7} 

SYM    8C "FMEM_FLAGS"              #[UY]                               # {7}
SYM    8C "EGOFMFLG[BANK1]"         :B0                                 #EGO1 FMEM FLAG, 1= EGO1 SENSOR FAILURE {7}
SYM    8C "EGOFMFLG[BANK2]"         :B1                                 #EGO2 FMEM FLAG, 1= EGO2 SENSOR FAILURE {7}
SYM    8C "BFMFLG"                  :B2                                 # {7}
SYM    8C "MFMFLG"                  :B3                                 # {7}
SYM    8C "TFMFLG"                  :B4                                 # {7}
SYM    8C "AFMFLG"                  :B5                                 # {7}
SYM    8C "EFMFLG"                  :B6                                 # {7}
SYM    8C "CFMFLG"                  :B7                                 # {7}

SYM    8D "FMEM_FLAG2"              #[UY]                               # {7}
SYM    8D "TOT_FM_FLG"              :B0                                 # {7}
SYM    8D "CIDFMFLG"                :B1                                 # {7}
SYM    8D "FFG_OSS"                 :B2                                 # {7}
SYM    8D "FFG_OS"                  :B3                                 # {7}
SYM    8D "OFMFLG"                  :B4                                 # {7}
SYM    8D "OSFMFLG"                 :B5                                 # {7}
SYM    8D "VSFMFLG"                 :B6                                 # {7}
SYM    8D "FAOSC_FMEM"              :B7                                 # {7}

SYM    8E "FLAG_REG1"               #[UY]                               # {7}
SYM    8E "CPP_DISABLE"             :B0                                 # {7}
SYM    8E "FLG_SPK_TQM"             :B1                                 # {7}
SYM    8E "FLG_DB_REG"              :B2                                 # {7}
SYM    8E "CIDHE_OUT_HI"            :B3                                 # {7}
SYM    8E "FLG_TCAPNXT"             :B4                                 # {7}
SYM    8E "FIRST_SYNC"              :B5                                 # {7}
SYM    8E "SYNFLG"                  :B6                                 # {7}
SYM    8E "FUEL_IN_SYNC"            :B7                                 # {7}

SYM    8F "FLAG_REG2"               #[UY]                               # {7}
SYM    8F "FLG_DLY_SOSC"            :B0                                 # {7}
SYM    8F "FLG_NE_DROP"             :B1                                 # {7}
SYM    8F "DUCE_INIT_FLG"           :B2                                 # {7}
SYM    8F "FLG_NE_WAIT"             :B3                                 # {7}
SYM    8F "PTSCR"                   :B4                                 # {7}
SYM    8F "MAF_PIP"                 :B5                                 # {7}
SYM    8F "FIRST_SEQNTL"            :B6                                 # {7}
SYM    8F "ER_EGR_FLG"              :B7                                 # {7}

SYM    90 "FLAG_REG3"               #[UY]                               # {0}
SYM    90 "WOT"                     :B0                                 # {7}
SYM    90 "CTNQ"                    :B1                                 # {7}
SYM    90 "FLG_EPC_RMP"             :B2                                 # {7}
SYM    90 "FLG_OL_VS"               :B3                                 # {7}
SYM    90 "RAMINIT_Flg"             :B4                                 # {7}
SYM    90 "NACTMR_FLG"              :B5                                 # {0}
SYM    90 "ATMR2_FLAG"              :B6                                 # {0}
SYM    90 "TSEGRE_FLG"              :B7                                 # {7}

SYM    91 "FLAG_REG4"               #[UY]                               # {7}
#SYM    91 "FLG_ENG_TV"              :B0                                 # {7}
SYM    91 "WARM_UP"                 :B1                                 # {7}
SYM    91 "HWFLAG"                  :B2                                 # {7}
SYM    91 "RUNUP_FLG"               :B3                                 # {7}
SYM    91 "TRAC_OPTION"             :B4                                 # {7}
SYM    91 "HW_LVL"                  :B5                                 # {7}
SYM    91 "TRS_SUSPECT"             :B6                                 # {7}
SYM    91 "PSPS_LVL"                :B7                                 # {7}

SYM    92 "FLAG_REG5"               #[UY]                               # {7}
SYM    92 "FLG_RMP_OPEN"            :B0                                 # {7}
SYM    92 "AIR_FIL_FLG"             :B1                                 # {7}
SYM    92 "FLG_ECTSTABL"            :B2                                 # {7}
SYM    92 "LONG_PULSE"              :B3                                 # {7}
SYM    92 "SCP_RPKT_FLG"            :B4                                 # {7}
SYM    92 "AICE_KNKINIT"            :B5                                 # {7}
SYM    92 "DNDSUP"                  :B6                                 # {7}
SYM    92 "HCAMFG"                  :B7                                 # {7}

SYM    93 "FLAG_REG6"               #[UY]                               # {7}
SYM    93 "LESTMR11_FLG"            :B0                                 # {7}
SYM    93 "VIDBLOCK_DIS"            :B1                                 # {7}
SYM    93 "TSFMFLG"                 :B2                                 # {7}
SYM    93 "TRAC_OUT_FLG"            :B3                                 # {7}
SYM    93 "TRAC_ACTIVE"             :B4                                 # {7}
SYM    93 "INJD_CO_FLG"             :B5                                 # {7}
SYM    93 "SCP_TX_FLG"              :B6                                 # {7}
SYM    93 "SCP_TX_READY"            :B7                                 # {7}


SYM    94 "FLAG_REG7"               #[UY]                               # {7}
SYM    94 "LESTMR21_FLG"            :B0                                 # {7}
SYM    94 "OL_DES"                  :B1                                 # {7}
SYM    94 "US_TST_OK"               :B2                                 # {7}
SYM    94 "US_SWAPPED_2"            :B3                                 # {7}
SYM    94 "US_SWAPPED_1"            :B4                                 # {7}
SYM    94 "DS_TST_OK"               :B5                                 # {7}
SYM    94 "DS_SWAPPED_2"            :B6                                 # {7}
SYM    94 "DS_SWAPPED_1"            :B7                                 # {7}

SYM    95 "FLAG_REG8"               #[UY]                               # {7}
SYM    95 "FL_OLTMR_338"            :B0                                 # {7}
SYM    95 "FLG_OLTMR_VS"            :B1                                 # {7}
SYM    95 "SWCVS_FLG"               :B2                                 # {7}
SYM    95 "CC_FM_FLG"               :B3                                 # {7}
SYM    95 "GEAR4TH"                 :B4                                 # {7}
SYM    95 "FLG_AC_HLD"              :B5                                 #Indicates that A/C should not change state during a transmission shift {7}
#SYM    95 "FLG_FRST_TQM"            :B5                                 # {7}
SYM    95 "FLG_INF_PT"              :B6                                 # {7}
SYM    95 "EGRFLG"                  :B7                                 # {7}

SYM    96 "FLAG_R96"                #[UY]  REG16#                             # {7}
SYM    96 "DO_OFF_NOW"              :B0                                 # {7}
SYM    96 "MIS_FCO_FLG"             :B1                                 # {7}
SYM    96 "ACTP_FLG"                :B2                                 # {7}
SYM    96 "ACSW"                    :B3                                 # {7}
SYM    96 "ACRQST"                  :B4                                 # {7}
SYM    96 "ACECT_FLG"               :B7                                 #A/C ECT F/F {7}

SYM    97 "EDF_FLAGS_1"             #[UY]                               # {7}
SYM    97 "FLG_DN_TQM"              :B0                                 #DOWNSHIFT TORQUE MODULATION FLAG {7}
SYM    97 "FLG_UP_TQM"              :B1                                 #UPSHIFT TORQUE MODULATION FLAG {7}
SYM    97 "ACPSW"                   :B2                                 #AC Medium Pressure Switch Input: 1 = AC Pressure high Initial Value: 0 {7}
SYM    97 "LSF_RQST"                :B3                                 #Flag indicating requested status of LSF Initial Value: 0 {7}
SYM    97 "LSF_FLG"                 :B4                                 #Low Speed Fan status flag Initial Value: 0 {7}
SYM    97 "LSFECT_FLG"              :B5                                 #LSF ECT F/F flag Initial Value: 0 {7}
SYM    97 "HSF_RQST"                :B6                                 #Flag indicating requested status of HSF Initial Value: 0 {7}
SYM    97 "HSF_FLG"                 :B7                                 #High Speed Fan status flag Initial Value: 0 {7}

SYM    98 "FLAG_R98"                #[UY]                               # {7}
SYM    98 "FP_RTSFLTFLG"            :B0                                 #Fuel rail temperature sensor fault exists {7}
SYM    98 "TP2_BP_DIS"              :B1                                 #Flag to disable inferred BP if series throttle is used and closed; 1->disable inferred BP.  {7}
SYM    98 "TFC_FG_EN"               :B2                                 #Foreground update TFC_FUEL enable flag; 1-> update TFC_FUEL. {7}
SYM    98 "CTFLG"                   :B3                                 #CLOSED THROTTLE FLAG {7}
SYM    98 "FIRST_PIP"               :B4                                 #INDICATES THAT FIRST PIP HAS BEEN RECEIVED {7}
SYM    98 "TIPFLG"                  :B6                                 #TIP-IN FLAG {7}
SYM    98 "TblSflg"                 :B7                                 #Table Output, Conrtrol Value, is signed {7}

SYM    99 "FLAG_R99"                #[UY]                               # {7}
SYM    99 "FIECT3_FF"               :B0                                 # {7}
SYM    99 "SIMULTANEOUS"            :B1                                 # {7}
SYM    99 "GR_LIM_FLG2"             :B2                                 #Mid gear High RPM limiter flipflop {7}
SYM    99 "SYNC_FAIL"               :B3                                 # {7}
SYM    99 "SEPARATE_PULSE"          :B4                                 # {7}
SYM    99 "SLL_UP_FLG"              :B5                                 # {7}
SYM    99 "SLL_DWN_FLG"             :B6                                 # {7}


SYM    9A "FLAG_REG13"              #[UY]                               # {0}
SYM    9A "ADPTMR_FLG"              :B0                                 # {7}
SYM    9A "IDLEQ"                   :B1                                 #IDLE STATE FLAG {7}
SYM    9A "UNDSP"                   :B2                                 # {7}
SYM    9A "REPET_SPK"               :B3                                 #INDICATES WHEN TO USE REPETITIVE SPARK {7}
SYM    9A "FP_MR_ENA"               :B4                                 # {7}
SYM    9A "SIGND_MUL"               :B5                                 # {7}
SYM    9A "CTTMR_FLG"               :B6                                 # {7}
SYM    9A "CRKFLG"                  :B7                                 # {7}

SYM    9B "FLAG_REG14"              #[UY]                               # {7}
SYM    9B "ASP_INPUT"               :B0                                 # {7}
SYM    9B "OLFLG_LST"               :B1                                 # {7}
SYM    9B "IS_RPM_NCLIP"            :B2                                 # {7}
SYM    9B "B3_FLAG_REG14"           :B3                                 # {7} L_96D6B
SYM    9B "OLFLG"                   :B4                                 # {7}
SYM    9B "FP_PU_FLG"               :B5                                 # {7}
SYM    9B "FP_PC_ENA"               :B6                                 # {7}
SYM    9B "KE_SEEN_FLG"             :B7                                 # {7}

SYM    9C "FLAG_REG15"              #[UY]                               # {7}
SYM    9C "AIR_BF_FLG"              :B0                                 #Flag indicating operation in the air meter backflow region  {7}
SYM    9C "CTNTMR_DWN"              :B1                                 #CTNTMR DECREMENT FLAG Initial Value: 0 {7}
SYM    9C "CTNFLG"                  :B2                                 #1=CLOSED THROTTLE NEUTRAL IDLE Initial Value: 0 {7}
SYM    9C "INJ_OSC_FLG"             :B3                                 #Flag indicating  injector(s)  are turned  on via OSC {7}
SYM    9C "SCP_ENA_IMS"             :B4                                 #SCP Initial Message Set enable flag {7}
SYM    9C "CTNTMR_UP"               :B5                                 #CTNTMR INCREMENT FLAG Initial Value: 0 {7}
SYM    9C "FP_DPSFLTFLG"            :B6                                 #Fuel rail pressure sensor fault exists {7}
SYM    9C "FLG_STALL"               :B7                                 #Indicating that a stall has occured; transition. {7}

SYM    9D "FLAG_R9D"                #[UY]                               # {7}
SYM    9D "SFT_FM_FLG"              :B0                                 # {7}
SYM    9D "TCIL_STATE"              :B1                                 # {7}
SYM    9D "AIR_CRK_INT"             :B2                                 #Flag indicating when to initialize the air registers with a load-based air charge calculation;0->initialize air registers,1-> registers have already been initialized {7}
SYM    9D "FLG_OPEN_LST"            :B4                                 # {7}
SYM    9D "FPM_OLD"                 :B5                                 # {7}
SYM    9D "CYCLE_FLG"               :B6                                 # {7}

SYM    9E "FLAG_R9E"                #[UY]                               # {7}
SYM    9E "HCDFLG"                  :B1                                 # {7}
SYM    9E "CHANGE_FUELPW"           :B2                                 # {7}
SYM    9E "FLG_DASCLP4"             :B0                                 # {7}
SYM    9E "A_RATE_ENA"              :B3                                 # {7}
SYM    9E "FLG_MLUS_FM"             :B4                                 # {7}
SYM    9E "MLUS_FM_FLG"             :B5                                 # {7}

SYM    9F "FLAG_REG18"              #[UY]                               # {7}
SYM    9F "NO_FUEL_SCP"             :B1                                 # {7}
SYM    9F "FLG_HS_M1"               :B2                                 # {7}
SYM    9F "IMFMFLG"                 :B3                                 # {7}
SYM    9F "FPUMP_SPEED"             :B4                                 #Flag that selects speed of 2 speed fuel pump. 1->high capacity 0->low capacity {7}
SYM    9F "NDS_FRST_FL"             :B5                                 #Neutral/Drive strategy has already executed at least once {7}
SYM    9F "RESET_DONE"              :B6                                 #OBDII reset occurred last loop {7}
SYM    9F "NDSFLG"                  :B7                                 # {7}

SYM    A0 "FLAG_RA0"                #[UY]                               # {7}
SYM    A0 "PRLD_FF"                 :B0                                 #FLIP FLOP FOR LUG OPEN LOOP Initial Value: 0 {7}
SYM    A0 "LDFLG"                   :B1                                 #LUGGING OPEN LOOP  (=1 -> LUGGING) Initial Value: 0 {7}
SYM    A0 "NDFFLG"                  :B3                                 # {7}
SYM    A0 "FLG_DASMNQ"              :B4                                 # {7}
SYM    A0 "CRK_PIP_INT"             :B5                                 # {7}
SYM    A0 "PTO_ENGAGED"             :B6                                 # {7}
SYM    A0 "CTPTFG"                  :B7                                 # {7}

#SYM    A0 0F4E1 "10.0"              #[ Y]                               # {7}



SYM    A1 "FLAG_RA1"                #[UY]                               # {7}
SYM    A1 "BIFLG"                   :B1                                 # {7}
SYM    A1 "AC_RPM_FLG"              :B2                                 # {7}
SYM    A1 "ACCFLG"                  :B3                                 # {7}
SYM    A1 "FLG_ENG_TV"              :B5                                 # {7}
SYM    A1 "FLG_FRST_TCS"            :B6                                 # {7}


SYM    A2 "FLAG_REG61"              #[UY]                               # {7}
SYM    A2 "ER_CONDTS"               :B0                                 # {7}
SYM    A2 "FLG_STR_LST"             :B4                                 # {7}
SYM    A2 "BIFLG_LST"               :B5                                 # {7}
SYM    A2 "ACCFLG_LAST"             :B7                                 #Last pass value of ACCFLG {7}

SYM    A3 "FLAG_REG23"              #[UY]                               # {7}
SYM    A3 "FLG_OL_338"              :B0                                 # {7}
SYM    A3 "NEUFLG"                  :B1                                 # {7}
SYM    A3 "PSFLAG"                  :B2                                 # {7}
SYM    A3 "OS_FG_NOISE"             :B3                                 # {7}
SYM    A3 "FLG_OL_337"              :B4                                 # {7}
SYM    A3 "VS_FG_NOISE"             :B5                                 # {7}
SYM    A3 "FLG_OL_320A"             :B6                                 # {7}
SYM    A3 "FLG_FRST_TV"             :B7                                 # {7}

SYM    A4 "FLAG_RA4"                #[UY]                               # {7}
SYM    A4 "AICE3_KNK_FLG"           :B0                                 # {7}
SYM    A4 "FIRST_PIP_LO"            :B1                                 # {7}
SYM    A4 "HVQ1"                    :B3                                 #HEAT VALVE FLIP FLOP #1 {7}
SYM    A4 "FLG_FRST_NOV"            :B5                                 # {7}
SYM    A4 "LUGTMR_DWN"              :B6                                 #DECREMENT LUGTMR CONTROL FLAG {7}
SYM    A4 "LUGTMR_UP"               :B7                                 #INCREMENT LUGTMR CONTROL FLAG {7}


SYM    A5 "FLAG_RA5"                #[UY]                               # {7}
SYM    A5 "SCP_OUT_REQ"             :B0                                 #Request for outcode {7}
SYM    A5 "SCP_STRT_TIM"            :B1                                 #Flag indicating ANTI-THEFT should begin security time access {7}
SYM    A5 "FINCTR1_DN"              :B2                                 #Flag, when set, triggers FINCTR1 to decrement Initial Value: 0 {7} 
SYM    A5 "SCP_INCD_ARR"            :B3                                 #Flag used to indicate to ANTI-THEFT logic when SCP has recieved an incode for coded access. {7}
SYM    A5 "SIGNDY"                  :B4                                 #Output, Control Value, Signed when set before Fn Call {7}
SYM    A5 "SIGNDSLP"                :B5                                 #Output, Control Value, Increases by Row in Fn {7}
SYM    A5 "SET_MIL_ONLY"            :B7                                 # {7}

SYM    A6 "FLAG_REG26"              #[UY]                               # {0}
SYM    A6 "CODES_CHECKD"            :B0                                 # {7}
SYM    A6 "WRMEGO"                  :B2                                 # {7}
SYM    A6 "IDLFLG"                  :B3                                 #AT IDLE FLAG {7}
SYM    A6 "FLG_4X4L"                :B4                                 # {7}
SYM    A6 "SCP_UP"                  :B5                                 # {0}
SYM    A6 "PRGFLG"                  :B6                                 #PRGTMR & CPRGTMR CONTROL FLAG {7}
SYM    A6 "VS_PS_RST"               :B7                                 # {7}


SYM    A7 "FLAG_RA7"                #[UY]                               # {7}
SYM    A7 "PGM_PG_OFF"              :B0                                 #PURGE MONITOR COMMAND TO TURN PCOMP/PURGE OFF {7}
SYM    A7 "PGM_KOER_ENA"            :B1                                 # {7}
SYM    A7 "LPCOMP_ENA"              :B2                                 # {7}
SYM    A7 "PG_MULT_INH"             :B3                                 #PURGE MULTIPLIER INHIBIT FLAG; 1 -> INHIBIT MULTIPLIER INCREASE {7}
SYM    A7 "PC_RESET"                :B4                                 #CANISTER OVERRICH CONDITON FLAG; 1 -> OVERRICH, PURGE RESET {7}
SYM    A7 "PCOMP_FST_PS"            :B5                                 # {7}
SYM    A7 "PCOMP_ENA"               :B6                                 # {7}
SYM    A7 "EFFLG1"                  :B7                                 #EQUIL FUEL FLAG; CONTROLS INIT OF AISF {7}



SYM    A8 "FLAG_RA8"                #[UY]                               # {7}
SYM    A8 "AC_PPM_RQST"             :B0                                 # {7}
SYM    A8 "AC_CYCLE_FLG"            :B1                                 # {7}
SYM    A8 "SCP_BROADCAST"           :B3                                 # {7}
SYM    A8 "SS1_MON_OFF_??"             :B4                                 # {7}
SYM    A8 "SS1_DES"                 :B5                                 # {7}
SYM    A8 "VOLTMR_DWN"              :B6                                 # {7}
SYM    A8 "VOLTMR_UP"               :B7                                 # {7}


SYM    A9 "FLAG_RA9"                #[UY]                               # {7}
SYM    A9 "KNOCK_ENABLE"            :B0                                 #KNOCK STRATEGY ENABLED Initial Value: 0 {7}
SYM    A9 "NEW_RPM"                 :B3                                 # {7}
SYM    A9 "KNOCK_DETECT"            :B5                                 # {7}
SYM    A9 "NEW_PIP"                 :B7                                 # {7}


SYM    AA "FLAG_REG32"              #[UY]                               # {7}
SYM    AA "FLG_NEW_NOV"             :B0                                 # {7}
SYM    AA "PRG_OUT_ENA"             :B1                                 # {7}
SYM    AA "FLG_FRST_CM"             :B2                                 # {7}
SYM    AA "FLG_CT_LST"              :B3                                 # {7}
SYM    AA "FLG_NO_TV_UPDATE"        :B6                                 # {7}

SYM    AB "FLAG_RAB"                #[UY]                               # {7}
SYM    AB "MAF_INTP_FLG"            :B0                                 # {7}
SYM    AB "SAPW_HI_FLG"             :B1                                 #Edge to calc main SAPW; 1=PIP up {7}
SYM    AB "FLG_SFT_STRT"            :B2                                 # {7}
SYM    AB "FLG_OPEN"                :B3                                 # {7}
SYM    AB "ETV_TEST"                :B4                                 # {7}
SYM    AB "FLG_UN_SPD"              :B5                                 # {7}
SYM    AB "FFG_CHT"                 :B6                                 # {7}
SYM    AB "FLG_DE_CMGR"             :B7                                 # {7}


SYM    AC "FLAG_REG34"              #[UY]                               # {7}
SYM    AC "FLG_UNLK_DS"             :B0                                 # {7}
SYM    AC "TRAC_ULFLG"              :B1                                 # {7}
SYM    AC "PDL_ERROR"               :B2                                 # {7}
SYM    AC "FLG_CRV_LST_??"             :B3                                 # {7}
SYM    AC "FLG_SFT_VER"             :B4                                 #Shift verify flag; 0 -> shift is not being verified, 1 -> shift is being verified {7}
SYM    AC "FLG_STROKE"              :B5                                 # {7}
SYM    AC "FLG_TP3_LCK"             :B6                                 # {7}
SYM    AC "FLG_TP_CT"               :B7                                 # {7}


SYM    AD "FLAG_RAD"                #[UY]                               # {7}
SYM    AD "SCP_NO_DTCS"             :B0                                 # {7}
SYM    AD "MAKUPSPK_FLG"            :B1                                 #Use current edge for make-up SAPW {7}
SYM    AD "FLG_FRST_DS"             :B2                                 # {7}
SYM    AD "LOWVOL_FLG"              :B3                                 # {7}
SYM    AD "FLG_TIP_OUT"             :B4                                 # {7}
SYM    AD "FLG_SFT_UP"              :B5                                 # {7}
SYM    AD "FLG_UN_CT"               :B6                                 # {7}
SYM    AD "FLG_SFT_DN"              :B7                                 # {7}

SYM    AE "FLAG_REG36"              #[UY]                               # {7}
SYM    AE "FLG_UN_ULSF"             :B0                                 # {7}
SYM    AE "FLG_UN_ALT"              :B1                                 # {7}
SYM    AE "FLG_UN_MDN"              :B2                                 # {7}
SYM    AE "FLG_UN_TEMP"             :B3                                 # {7}
SYM    AE "FLG_UN_PRN"              :B4                                 # {7}
SYM    AE "FLG_UN_BRK"              :B5                                 # {7}
SYM    AE "FLG_UN_TRD"              :B6                                 # {7}
SYM    AE "FLG_UN_TRA"              :B7                                 # {7}

SYM    AF "FLAG_REG37"              #[UY]                               # {7}
SYM    AF "FLG_PID_CTL"             :B0                                 # {7}
SYM    AF "FLG_HRD_JMP"             :B1                                 # {7}
SYM    AF "FLG_UPS_CTL"             :B2                                 # {7}
SYM    AF "FLG_UPS_JMP"             :B3                                 # {7}
SYM    AF "FLG_HRD_MODE"            :B4                                 # {7}

SYM    AF "FLG_DNS_EXIT"            :B6                                 # {7}
SYM    AF "FLG_HRD_LK"              :B7                                 # {7}

SYM    B0 "FLAG_REG39"              #[UY]                               # {7}
SYM    B0 "FLG_HRD_EN"              :B0                                 # {7}
SYM    B0 "FLG_UPS_EXIT"            :B1                                 # {7}
SYM    B0 "FLG_VE_DSGR"             :B2                                 # {7}
SYM    B0 "FLG_UP_NE"               :B3                                 # {7}
SYM    B0 "FLG_SFT_MDN"             :B4                                 # {7}
SYM    B0 "FLG_SF_AUTO"             :B5                                 # {7}
SYM    B0 "FLG_PWR"                 :B6                                 # {7}
SYM    B0 "FLG_SFT_IN"              :B7                                 # {7}


SYM    B1 "FLAG_REG40"              #[UY]                               # {7}
SYM    B1 "EPT_OK_FLG"              :B0                                 # {7}
SYM    B1 "FLG_HIGH_ALT"            :B1                                 # {7}
SYM    B1 "DIS_FMEM"                :B2                                 # {7}
SYM    B1 "EGR_ON_FLG"              :B3                                 # {7}
SYM    B1 "FINCTR1_UP"              :B4                                 #Flag, when set, triggers FINCTR1 to increment. Initial Value: 0 {7}
SYM    B1 "DESEM_FLG"               :B5                                 # {7}
SYM    B1 "FLG_OT_LK"               :B6                                 # {7}
SYM    B1 "FLG_SFT_VAL"             :B7                                 #SHIFT VALIDITY FLAG {7}

SYM    B2 "NDSBYTE"                 #[UY]                               # {7}
SYM    B2 "REVFLG"                  :B0                                 # {7}
SYM    B2 "FLG_DNS_CTL"             :B1                                 # {7}
SYM    B2 "FLG_UNC_UNLK_??"            :B2                                 # {7}
SYM    B2 "EGR_HOSE_TST"            :B4                                 # {7}
SYM    B2 "FLG_CRV_LK"              :B5                                 # {7}
SYM    B2 "FLG_CRV_DS"              :B6                                 # {7}
SYM    B2 "VMOVING"                 :B7                                 #IF = 1, VEHICLE IS MOVING {7}

SYM    B3 "FLAG_REG42"              #[UY]                               # {7}
SYM    B3 "REV2NEU_FLG"             :B0                                 # {7}
SYM    B3 "FLG_REV_DRV"             :B1                                 # {7}
SYM    B3 "FLG_NEU_REV"             :B2                                 # {7}
SYM    B3 "FLG_NEU_DRV"             :B3                                 # {7}
SYM    B3 "FLG_FWD_REV"             :B4                                 # {7}
SYM    B3 "FLG_ENG_IN"              :B5                                 # {7}
SYM    B3 "FLG_DRV_REV"             :B6                                 # {7}
SYM    B3 "DRV2NEU_FLG"             :B7                                 # {7}


SYM    B4 "FLAG_REG43"              #[UY]                               # {7}
SYM    B4 "RESULTS"                 :B0                                 # {7}
SYM    B4 "COOL_FLG"                :B1                                 # {7}
SYM    B4 "AC_STATE_ENT"            :B2                                 # {7}
SYM    B4 "FLG_OLUP_LST"            :B3                                 # {7}
SYM    B4 "FLG_OLUP"                :B4                                 # {7}
SYM    B4 "FLG_NV_SHFT"             :B5                                 # {7}
SYM    B4 "FLG_CLUP"                :B6                                 # {7}
SYM    B4 "FLG_HT_MOD"              :B7                                 # {7}

SYM    B5 "FLAG_RB5"                #[UY]                               # {7}
SYM    B5 "EGO_HTR_MON"             :B0                                 # {7}
SYM    B5 "EO_MON"                  :B2                                 # {7}
SYM    B5 "ER_MON"                  :B3                                 # {7}
SYM    B5 "KAM_ERROR"               :B4                                 #INDICATES KEEP ALIVE RAM INVALID {7}
SYM    B5 "PTPFLG"                  :B5                                 # {7}
SYM    B5 "FLG_TCS"                 :B6                                 # {7}
SYM    B5 "DFSFLG"                  :B7                                 #Decel fuel shutoff requested flag {7}              

SYM    B6 "SELFT_IFLG1"             #[UY]                               # {7}
SYM    B6 "OTM_TST_RDY"             :B0                                 # {7}
SYM    B6 "ER_TST_RDY"              :B1                                 # {7}
SYM    B6 "EO_TST_RDY"              :B2                                 # {7}
SYM    B6 "OTM_TST_ENA"             :B3                                 # {7}
SYM    B6 "ER_TST_ENA"              :B4                                 # {7}
SYM    B6 "EO_TST_ENA"              :B5                                 # {7}
SYM    B6 "DEMAND_ABORT"            :B6                                 # {7}
SYM    B6 "DEMAND_MODE"             :B7                                 # {7}

SYM    B7 "SELFT_IFLG2"             #[UY]                               # {7}
SYM    B7 "ER_ACTIVE"               :B0                                 # {7}
SYM    B7 "EO_ACTIVE"               :B1                                 # {7}
SYM    B7 "OSM_HEDF_OFF"            :B2                                 # {7}
SYM    B7 "OSM_HEDF_ON"             :B3                                 # {7}
SYM    B7 "OSM_EDF_OFF"             :B4                                 # {7}
SYM    B7 "OSM_EDF_ON"              :B5                                 # {7}
SYM    B7 "OSM_EO_OFF"              :B6                                 # {7}
SYM    B7 "OSM_EO_ON"               :B7                                 # {7}


SYM    B8 "SELFT_IFLG3"             #[UY]                               # {7}
SYM    B8 "CCM_ER_ENA"              :B0                                 # {7}
SYM    B8 "MIS_ER_ENA"              :B1                                 # {7}
SYM    B8 "ISC_ER_ENA"              :B2                                 # {7}
SYM    B8 "OPER_RSP_CHK"            :B3                                 # {7}
SYM    B8 "ER_SPK_REQ"              :B4                                 # {7}
SYM    B8 "ER_ISC_REQ"              :B5                                 # {7}
SYM    B8 "ER_ISC_HLD"              :B6                                 # {7}
SYM    B8 "ER_FUL_REQ"              :B7                                 # {7}

SYM    B9 "FLAG_RB9"                #[UY]                               # {7}
SYM    B9 "FFG_CID"                 :B0                                 # {7}
SYM    B9 "FFG_TOT"                 :B1                                 # {7}
SYM    B9 "TCC_MON_ON"              :B2                                 # {7}
SYM    B9 "TCC_MON_OFF"             :B3                                 # {7}
SYM    B9 "V_PRE_CPP"               :B5                                 # {7}
SYM    B9 "POWSFG"                  :B6                                 # {7}
SYM    B9 "EGREN"                   :B7                                 # {7}


SYM    BA "SS2_DES"                 :B0                                 # {7}
SYM    BA "FLG_SS_2"                :B1                                 # {7}
SYM    BA "FLG_SS_1"                :B2                                 # {7}
#SYM    BA "SS2_COM_LSTD"            :B1                                 # {7}
#SYM    BA "SS1_COM_LSTD"            :B2                                 # {7}
SYM    BA "P0755MON"                :B4                                 # {7}
SYM    BA "P0750MON"                :B5                                 # {7}
SYM    BA "SS1_MON_ON_??"              :B6                                 # {7}

SYM    BB "FLAG_REG50"              #[UY]                               # {7}
SYM    BB "P1747MON"                :B0                                 # {7}
SYM    BB "OTEMP_FM_FLG"            :B3                                 # {7}
SYM    BB "FLG_FMM_LK"              :B4                                 # {7}
SYM    BB "SS2_MON_OFF"             :B6                                 # {7}
SYM    BB "SS2_MON_ON"              :B7                                 # {7}



SYM    BC "FLAG_REG51"              #[UY]                               # {7}
SYM    BC "VCT_ENA"                 :B2                                 #Variable CAM Timing enable Flag; 1 -> VCT is activated to a desired CAM. 0 -> VCT set to default.Initial Value: 0 {7}
SYM    BC "HICOMP_INIT"             :B3                                 # {7}
SYM    BC "TRIP"                    :B4                                 # {7}
SYM    BC "US_SENSOR_FAULT"         :B5                                 # {7}
SYM    BC "VIP_KAM"                 :B6                                 # {7}

SYM    BD "FLAG_REG52"              #[UY]                               # {7}
SYM    BD "ALT_CAL_FLG"             :B0                                 # {7}
SYM    BD "SPI_RETRY"               :B2                                 # {7}
SYM    BD "DARC_INIT_FLG"           :B3                                 # {7}
SYM    BD "GENERAL_RESPONSE_??"        :B4                                 #GEN_RES_OFLG {7}
SYM    BD "OD_CODES_ONLY"           :B5                                 # {7}
SYM    BD "SET_AND_PENDING"         :B6                                 # {7}
SYM    BD "ODU_UP_STATE"            :B7                                 # {7}

SYM    BE "FLAG_REG53"              #[UY]                               # {7}
SYM    BE "P0720MON"                :B0                                 #OSS monitor flag; 1 -> the OSS has been monitored at least once this power-up {7}
SYM    BE "MISFIRING"               :B1                                 # {7}
SYM    BE "PDL_MON"                 :B3                                 # {7}
SYM    BE "OBD_NO_DTCS"             :B4                                 # {7}
SYM    BE "OBD_PARM_RST"            :B5                                 # {7}
SYM    BE "OBDII_WARMUP"            :B6                                 # {7}

SYM    BF "PCOMP_FLG0"              #[UY]                               # {7}
SYM    BF "EDF_STATUS"              :B0                                 #EDF smart output driver fault status {7}
SYM    BF "EXT_FLG"                 :B1                                 # {7}
SYM    BF "CANVT_FAULT(SCP_1630_B3)":B2                                 # {7}
SYM    BF "FRST_ADP"                :B3                                 # {7}
SYM    BF "NORMAL_MODE"             :B5                                 # {7}


SYM    C0 "FLAG_RC0"                #[UY]                               # {7}
SYM    C0 "ERROR_DETECTED_TMP"      :B1                                 # {7}
SYM    C0 "MLUS_HF_FLG"             :B2                                 # {7}
SYM    C0 "FFG_CPP"                 :B3                                 #OBD-II Clutch Pedal Position (CPP) switch. 1 -> currently, CPP is not reliable Initial Value: 0 {7}
SYM    C0 "TYPE_A_MIS"              :B6                                 # {7}

SYM    C1 "FLAG_REG57"              #[UY]                               # {7}
SYM    C1 "FFG_LAMBSE[BANK2]"       :B0                                 # {7}
SYM    C1 "FFG_LAMBSE[BANK1]"       :B1                                 # {7}
SYM    C1 "FFG_VS"                  :B2                                 # {7}
SYM    C1 "FFG_TP"                  :B3                                 # {7}
SYM    C1 "FFG_PIP"                 :B4                                 # {7}
SYM    C1 "FFG_MAF"                 :B5                                 # {7}
SYM    C1 "FFG_ECT"                 :B6                                 # {7}
SYM    C1 "FFG_ACT"                 :B7                                 # {7}

SYM    C2 "FLAG_REG58"              #[UY]                               # {7}
SYM    C2 "FFG_EGR"                 :B0                                 # {7}
SYM    C2 "FFG_SAIR"                :B1                                 # {7}
SYM    C2 "FFG_PURG"                :B2                                 # {7}
SYM    C2 "FFG_MISFIRE"             :B3                                 # {7}

SYM    C3 "SYS_CHKD"                #[UY]                               #36.1.1.1.21  Sys_CHKD Flags {7}
SYM    C3 "CAT_CHKD"                :B0                                 # {7}
SYM    C3 "FLG_FRST_CMD"            :B1                                 # {7}
SYM    C3 "PURG_CHKD"               :B2                                 # {7}
SYM    C3 "SAIR_CHKD"               :B3                                 # {7}
SYM    C3 "CCM_TRNS_MON"            :B4                                 # {7}
SYM    C3 "EGO_CHKD"                :B5                                 # {7}
SYM    C3 "EGR_CHKD"                :B6                                 # {7}
SYM    C3 "TST_ENA_FLG"             :B7                                 # {7}

SYM    C4 "FLAG_RC4"                #[UY]                               # {7}
SYM    C4 "COOL_FLG_PRE"            :B1                                 # {7}
SYM    C4 "FLG_MAN42"               :B2                                 # {7}
SYM    C4 "EXT_INIT"                :B3                                 #Inferred cat temp model initialization flag, 1 ->model has been seeded. {7}
SYM    C4 "TCS_SHORT"               :B4                                 #Transmisison Control Switch set to closed position {7}
SYM    C4 "TCS_OPEN"                :B5                                 #Transmission Control Switch set to open position {7}
SYM    C4 "VSPRGFLG"                :B6                                 #Vehicle speed purge enable flag {7}
SYM    C4 "FLG_OLTMR_337"           :B7                                 # {7}

SYM    C5 "FLAGTEMP_FG"             #[UY]                               # {7}
SYM    C6 "FLAGTEMP_BG"             #[UY]                               # {7}
SYM    C6 "FP_2SPD_ERROR?"          :B1                                 # L06613 CRAI8 5-255 {0}




SYM    C7 "FLAG_REG63"              #[UY]                               # {7}
SYM    C7 "SWTFL12"                 :B0                                 # {7}
SYM    C7 "EGOFL12"                 :B1                                 # {7}
SYM    C7 "INH_SWDET1"              :B2                                 # {7}
SYM    C7 "V_LAMJMP[BANK1]"         :B5                                 # {7}
SYM    C7 "SWTFL11"                 :B6                                 # {7}
SYM    C7 "EGOFL11"                 :B7                                 # {7}


SYM    C8 "FLAG_RC8"                #[UY]                               # {7}
SYM    C8 "V_LAMJMP[BANK2]"         :B5                                 # {7}
SYM    C8 "SWTFL21"                 :B6                                 # {7}
SYM    C8 "EGOFL21"                 :B7                                 # {7}

SYM    C9 "FLAG_RC9"                #[UY]                               # {7}
SYM    C9 "SPK_CYL_DROP"            :B0                                 #Flag indicating a drop of spark for a cylinder event is desired {7}
SYM    C9 "SPK_SAW_PEND"            :B1                                 # {7}
SYM    C9 "SPK_EDIS_FM"             :B6                                 # {7}
SYM    C9 "SPK_EDIS_RS"             :B7                                 # {7}


SYM    CA "FLAG_RCA"                #[UY]                               # {7}
SYM    CA "EDIS_RETRY"              :B6                                 # {7}
SYM    CA "SPK_EDIS_RS"             :B7                                 # {7}

SYM    CB "FLAG_RCB"                #[UY]                               # {7}
SYM    CB "FLG_STABLECT"            :B0                                 # {7}
SYM    CB "EGOTSTCUMFLG"            :B7                                 #Flag used to start and halt EGOTSTCUMTMR 0 -> HALT {7}

SYM    CC "HEGO_OV_FLG"             #[UY]                               # {7}
SYM    CC "OV_DOWN_22"              :B0                                 # {7}
#SYM   CC "OV_DOWN"                 :B0                                 # {7}
SYM    CC "OV_UP_22"                :B1                                 # {7}
#SYM   CC "OV_UP"                   :B1                                 # {7}
SYM    CC "OV_DOWN_12"              :B2                                 # {7}
SYM    CC "OV_UP_12"                :B3                                 # {7}
SYM    CC "OV_DOWN_21"              :B4                                 # {7}
SYM    CC "OV_UP_21"                :B5                                 # {7}
SYM    CC "OV_DOWN_11"              :B6                                 # {7}
SYM    CC "OV_UP_11"                :B7                                 # {7}


SYM    CD "SYNC_CTR_0"              #[UY]                               # {7}
SYM    CE "MTICKS"                  #[UW]                #              #L_94A44 USED IN TIMER UPDATE FOR BGTMR {7}
#SYM    CE "CKINDEX"                 #[UW]                               #Rbase value 0x9584 Loaded L82433 {0}

SYM    D0 "APT"                     #[SY]               #enum -128-127  #Thottle mode flag; -1 -> closed, 0 -> part, 1 -> wide open. Resolution: 1{0}
SYM    D0 "APT=PT_THRTL"            :B0                                 # {0}
SYM    D0 "APT=-1_CL_THRTL"            :B7                                 # {7}

SYM    D1 "SYNC_CTR"                #[UY]               #COUNTS 0-7.968 #Sequence counter incremented every PIP rising edge that is used to indentify the cycle and position {7}

SYM    D6 "TRS_FLAGS"               #[UY]                               # {7}
SYM    D6 "SFT_ERR_FLG"             :B5                                 # {7}
SYM    D6 "LST_SFT_CMP"             :B6                                 # {7}
SYM    D6 "CCV_STRT_SFT"            :B7                                 # {7}

SYM    D8 "TOTEVENTS_H_??"             #[UY]                               # {7}








SYM    E8 "RP14_??"                    #[UW]                               # {7}
SYM    EA "RP15_??"                    #[UW]                               # {7}
SYM    EC "RP16_??"                    #[UW]                               # {7}

SYM    EE "FLAG_EXT"                #[UY]                               # {7}
SYM    EE "FLG_OPN_BS"              :B0                                 # {7}
SYM    EE "FLG_UCTL_LST"            :B1                                 # {7}
SYM    EE "FLG_CLUP_LST"            :B2                                 # {7}
SYM    EE "FLG_VER_BRK"             :B3                                 # {7}
SYM    EE "FLG_TST_BRK"             :B4                                 # {7}
SYM    EE "FLG_TOT_WRM"             :B5                                 # {7}
SYM    EE "FLG_TRIG_BLP"            :B6                                 # {7}
SYM    EE "FLG_MAN23"               :B7                                 # {7}

SYM    EF "PIPCNT"                  #[UY]                               # {7}

SYM    F0 "120"                     #[ Y]                               #0FABB {7}
#SYM    F0 0FB8E "120"               #[ Y]                               # {7}
#SYM    F0 0FBE3 "120"               #[ Y]                               # {7}
#SYM    F0 0FC57 "120"               #[ Y]                               # {7}
SYM    F4 0FC41 "122"               #[ Y]                               # {7}
SYM    F6 0FA62 "123"               #[ Y]                               # {7}
SYM    FA 0FA7D "125"               #[ Y]                               # {7}

SYM    FF "TEMPREG_RFF"


SYM   102 "LAST_FGBETA1"            #[UW]                               # {7}
SYM   104 "LAST_FGBETA2"            #[UW]                               # {7}
SYM   106 "FG_TEMP_REG"             #[UW]                               # {7}
SYM   108 "TOTAL_DLY[BANK1]"        #[UW]                               # {7}
SYM   10A "TOTAL_DLY[BANK2]"        #[UW]                               # {7}
SYM   10C "IBETA[BANK1]"            #[UW]                               # {7}
SYM   10E "IBETA[BANK2]"            #[UW]                               # {7}
SYM   110 "INJDLY_BETA"             #[UW]                               # {7}
SYM   112 "FGBETA[BANK1]"           #[UW]                               # {7}
SYM   114 "FGBETA[BANK1]"           #[UW] #MAY BE WRONG L_0D922         # {7}
SYM   116 "INJDLY"                  #[UW]                               # {7}

SYM   118 "PWOFF"                   #[UW]                               # {7} 
SYM   11A "INT_LIM_BETA"            #[UW]                               # {7}
SYM   11C "N_J1979_01_0C"           #[UW]                               # {7} 
SYM   11D "N_RPM"                   #[ Y]                               # {7}
SYM   11E "TP"                      #[UW]                               # {7}
SYM   120 "TP_REL"                  #[UW]                               # {7}
SYM   121 "TP_REL_H"                #[UY]                               # {7}
SYM   122 "ISCDTY"                  #[UW]                               # {7}
SYM   124 "LAMBSE[BANK1]"           #[UW]                               # {7}
SYM   126 "LAMBSE[BANK2]"           #[UW]                               # {7}
SYM   128 "FUELPW[BANK1]"           #[UW]                               # {7}
SYM   12A "FUELPW[BANK2]"           #[UW]                               # {7}

#SYM   12A "FGBETA_DT"               #[UW]                               # {7}
SYM   12C "DT12S"                   #[UW]            #CLOCK TICKS 0-65535#The period of time between two adjacent rising edges of PIP {7}
#SYM   12E "LOAD_FG"                 #[UW]                               # {7}
SYM   12E "LOAD"                    #[UW]                               # {7}
SYM   12F "LOAD(B-VALUE)"           #[UY]            #X 0-1.999969      #Normalized cylinder air charge Init. Value: 0.0 Resolution: 0.000031 {7}
SYM   130 "RATCH"                   #[UW]                               # {7}




SYM   132 "EGRDC"                   #[UW]                               # {7}
SYM   134 "SAVE_POINTER"            #[UW]                               # {7}
SYM   136 "BGS_INTCNT"              #[UW]                               # {7} 
SYM   138 "BGS_INTMASK"             #[UW]                               # {7}
SYM   13A "BGS_LVL1_3_SVPTR"        #[UW]                               # {7}
SYM   13C "PRG_ON_TIME"             #[UW]                               # {7}
SYM   13E "PRG_PERIOD"              #[UW]                               # {7}
SYM   140 "START_CVS_PER"           #[UW]                               # {7}
SYM   142 "EPTBAR"                  #[UW]                               # {7}
SYM   144 "NBAR"                    #[UW]                               # {7}
SYM   146 "KSF"                     #[UW=flo(X/8192)]  #X 0-7.999878    #Keypower scaling factor, reciprocal Base Value: 5.5991 Resolution: 0.000122 {7}
SYM   14A "ACT_CNTS"                #[UW]                               # {7}
SYM   14C "FLI_CNTS"                #[UW]              #A/D CNTS 0-1023 #Fuel level A/D input Resolution: 0.015625 {7}
SYM   14E "FLIREF_CNTS"             #[UW]              #COUNTS 0-1023   #Fuel Level Input reference A/D input Resolution: 0.015625 {7}
SYM   150 "VMV_OSM_CNTS"            #[UW]              #COUNTS 0-1023   #VMV OSM raw analog channel input counts value Init. Value: 0 Resolution: 0.015625 {7}
SYM   152 "IEGR"                    #[UW]              #Vdc 0-1023.984009#EGR SENSOR INPUT {7}
SYM   154 "INDS"                    #[UW]              #Cnts 0-1023.984009#Neutral/Drive input {7}
SYM   156 "IEGO11"                  #[UW]                               # {7}
SYM   158 "VEGO11"                  #[UW]                               #"VEGO[BANK1][UPS]" {7}
SYM   15A "IEGO12"                  #[UW]                               # {7}
SYM   15C "VEGO12"                  #[UW]                               #"VEGO[BANK1][DNS]" {7}
SYM   15E "IEGO21"                  #[UW]                               # {7}
SYM   160 "VEGO21"                  #[UW]                               #"VEGO[BANK2][UPS]" {7}
SYM   162 "IEGO22"                  #[UW]                               # {7}
SYM   164 "VEGO22"                  #[UW]                               #"VEGO[BANK2][DNS]" {7}
SYM   166 "S_VEGO11"                #[SW]                               # {7}
SYM   168 "S_VEGO21"                #[SW]                               # {7}
SYM   16A "S_VEGO12"                #[SW]                               # {7}
SYM   16C "S_VEGO22"                #[SW]                               # {7}
SYM   16E "TOT_CNTS"                #[UW]                               # {7}
SYM   170 "TPR_CNTS"                #[UW]                               # {7}
SYM   172 "PFS_CNTS"                #[UW]                               # {7}
SYM   174 "TP_ENG"                  #[UW]                               # {7}
SYM   176 "IRF_DPACTUAL"            #[UW]                               # {7}
SYM   178 "IMAF"                    #[UW]                               # {7} 
SYM   17A "IPSPS"                   #[UW]                               # {7}
SYM   17C "HTRCM_CNTS"              #[UW]                               # {7}
SYM   17E "IACPRES_SEN(IACPSW)"     #[UW]               #COUNTS 0-1023  #A/C Pressure, counts, from analogue input Init. Value: 0 Resolution: 1 {7}
SYM   180 "BP_CNTS"                 #[UW]                               # {7}
SYM   182 "IMRCP1_CNTS"             #[UW]                               # {7}
SYM   184 "IMRCP2_CNTS"             #[UW]                               # {7}
SYM   186 "CHT_CNTS"                #[UW]                               # {7}
SYM   188 "ECT_CNTS"                #[UW]               #COUNTS 0-1023  #Engine Coolant Temperature, input from A/D Init. Value: 0 Resolution: 0.016 {7}
SYM   18A "DATA_TIME"               #[UW]                               # {7}
SYM   18C "NEW_TIME"                #[UW]                               # {7}
#SYM   18E "SPOUT_LOW_TI_???"            #[  ]           #CLOCK TICKS 0-65535#SPOUT HIGH TIME; UNITS ARE CLOCK TICKS Resolution: 1 {7}
SYM   18E "REF_DELTA"               #[UW]                               # {7}
SYM   190 "POST_IM_RP"              #[UW]                               # {7}
SYM   192 "AIR_CHG"                 #[UW]                               # {7}
SYM   194 "AIR_CHG_CUR"             #[UW]                               # {7}
SYM   196 "AIR_CHG_COMP"            #[SW]                               # {7}
SYM   198 "AIR_CHG_PRV"             #[UW]                               # {7}
SYM   19A "AIR_CHG_WOT"             #[UW]                               # {7}
SYM   19C "AIR_BG_FIL"              #[UW]                               # {7}
SYM   19E "CYLARC_BG"               #[UW]                               # {7}

SYM   1A0 "CYL_AIR_CHG"             #[UW]                               # {7}
SYM   1A2 "DYNPW"                   #[UW]                               # {7}
SYM   1A4 "AHISL_TICK"              #[UW]                               # {7}
SYM   1A6 "ALOSL_TICK"              #[UW]                               # {7}
SYM   1A8 "BKPT_PW"                 #[UW]                               # {1}
SYM   1AA "FB_DIFF"                 #[UW]                               # {7}
SYM   1AC "F_A_RATIO1"              #[UW]                               # {7}
SYM   1AE "F_A_RATIO2"              #[UW]                               # {7}
SYM   1B0 "TFC_HR"                  #[SW]                #LBM -0.015625-0.015624#TRANSIENT FUEL COMPENSATION -- HIGH RESOLUTION Init. Value: 0 Resolution: 0.000000 {7}
SYM   1B2 "R1B2"                    #[ W]                               # {7}
SYM   1B4 "EFTR"                    #[SW]                               # {7}

SYM   1B6 "AISFU"                   #[UW]                #LBM 0-0.99999 #Actual Intake Surface fuel - Upper word of a duble word - Bin 32 Init. Value: 0.0 Resolution: 0.000015 {7}
SYM   1B8 "AISFLO"                  #[UW]                #X 0-0.000015  #Actual Intake Surface Fuel - Lower word of a double word - Bin 32 Init. Value: 0 Resolution: 2.3E-10 {7}
SYM   1BA "EISFU"                   #[UW]                #LBM 0-0.99999 #Equilibrium intake surface fuel - upper word of double word - bin 32 Init. Value: 0.0 Resolution: 0.000015 {7}
SYM   1BC "EISFLO"                  #[UW]                #X 0-0.000015  #Equilibrium intake surface fuel - lower word of double word - Bin 32 Init. Value: 0 Resolution: 2.3E-10 {7}

SYM   1C2 "TFC_CHG_??"              #[UW]                #LBM 0-0.015622#Aircharge that transient fuel (background) was evaluated at Init. Value: 0 Resolution: 0.000000 {7}
SYM   1C4 "R1C4"                    #[ W]                #              # {7}
SYM   1C6 "TFC_MULTA_??"            #[UW]                #X 0-0.499992  #Transient fuel multiplier - ACCEL Init. Value: 0.0 Resolution: 0.000008 {7}
SYM   1C8 "TFC_MULTD_??"            #[UW]                #X 0-0.499992  #Transient fuel multiplier - DECEL Init. Value: 0.0 Resolution: 0.000008 {7}
SYM   1CA "TFC_SLOPE_??"            #[UW]                #X 0-63.990002 #Change in the transient fuel puddle mass per change in aircharge Init. Value: 0 Resolution: 0.000976 {7}
SYM   1CC "R1CC"                    #[ W]                #              # {7}

SYM   1CE "EFTCA_??"                   #[ W]             #Sec 0-7.96875 #Time constant for transient fuel - ACCEL Init. Value: 0.0 Resolution: 0.003906 {7}
SYM   1D0 "EFTCD_??"                   #[ W]             #Sec 0-7.96875 #Time constant for transient fuel - DECEL Init. Value: 0.0 Resolution: 0.003906 {7}
SYM   1D2 "FN022C_NORM_ECT"         #[  ]                               # {7}

SYM   1D4 "NORMD_LOAD_FN071"        #[UW]                               # {7}
SYM   1D6 "HFDLTA"                  #[UW]                               # {7}
SYM   1D8 "SAF"                     #[SW]                               # {7}
SYM   1DA "DOL_COUNT"               #[UW]                               # {7}
SYM   1DC "PG_RP_ML"                #[UW]                               # {7}
SYM   1DE "PG_FA_RAT"               #[UW]                               # {7}
SYM   1E0 "PG_FUELPW"               #[UW]                               # {7}
SYM   1E2 "PG_LAMAV"                #[UW]                               # {7}
SYM   1E4 "PG_LAMBSE"               #[UW]                               # {7}
SYM   1E6 "PG_LBMF"                 #[UW]                               # {7}
SYM   1E8 "PC_SCALE_FN"             #[SW]               #X 0-0.2499     #Integrator scaling factor used in calculation of pcomp_ppm. Init. Value: 0.0015 Resolution: 0.000015 {7}
SYM   1EA "PG_RAMP1"                #[UW]                               # {7}
SYM   1EC "PG_RAMP2"                #[UW]                               # {7}
SYM   1EE "PC_PCOMP_H"              #[UW]                               # {7}
SYM   1F0 "PC_PCOMP_L"              #[UW]                               # {7}
SYM   1F2 "VEGO11_FIL1"             #[ W]               #               # {7}
SYM   1F6 "SAIR_LAM_DSD"            #[UW]                               # {7}
SYM   1F8 "SAIR_ER_MODE"            #[UY]               #ENUM 0-2       #SAIR Key On Engine Running mode indicator {7}
SYM   1F9 "BRK_AWAY_CNT"            #[UY]                               # {7}
SYM   1FA "DT23S"                   #[UW]               #HWTIMERTICKS 0-65535#LAST DT12S TIME Resolution: 1.0 {7}
SYM   1FC "DT34S"                   #[UW]                               #Duration of PIP period 2 PIPs ago {7}
SYM   1FE "CRKPIP_CTR_W"            #[UW]                               # {7}



SYM   202 "LAST_ON_INJ1"            #[UW]                               # {7}
SYM   204 "LAST_ON_INJ2"            #[UW]                               # {7}
SYM   206 "LAST_ON_INJ3"            #[UW]                               # {7}
SYM   208 "LAST_ON_INJ4"            #[UW]                               # {7}
SYM   20A "LAST_ON_INJ5"            #[UW]                               # {7}
SYM   20C "LAST_ON_INJ6"            #[UW]                               # {7}
SYM   20E "LAST_ON_INJ7"            #[UW]                               # {7}
SYM   210 "LAST_ON_INJ8"            #[UW]                               # {7}
SYM   212 "LAST_OFF_IN1"            #[UW]                               # {7}
SYM   214 "LAST_OFF_IN2"            #[UW]                               # {7}
SYM   216 "LAST_OFF_IN3"            #[UW]                               # {7}
SYM   218 "LAST_OFF_IN4"            #[UW]                               # {7}
SYM   21A "LAST_OFF_IN5"            #[UW]                               # {7}
SYM   21C "LAST_OFF_IN6"            #[UW]                               # {7}
SYM   21E "LAST_OFF_IN7"            #[UW]                               # {7}
SYM   220 "LAST_OFF_IN8"            #[UW]                               # {7}
SYM   222 "LAST_ON_HI1"             #[UY]                               # {7}
SYM   223 "LAST_ON_HI2"             #[UY]                               # {7}
SYM   224 "LAST_ON_HI3"             #[UY]                               # {7}
SYM   225 "LAST_ON_HI4"             #[UY]                               # {7}
SYM   226 "LAST_ON_HI5"             #[UY]                               # {7}
SYM   227 "LAST_ON_HI6"             #[UY]                               # {7}
SYM   228 "LAST_ON_HI7"             #[UY]                               # {7}
SYM   229 "LAST_ON_HI8"             #[UY]                               # {7}
SYM   22A "LAST_OFF_HI1"            #[UY]                               # {7}
SYM   22B "LAST_OFF_HI2"            #[UY]                               # {7}
SYM   22C "LAST_OFF_HI3"            #[UY]                               # {7}
SYM   22D "LAST_OFF_HI4"            #[UY]                               # {7}
SYM   22E "LAST_OFF_HI5"            #[UY]                               # {7}
SYM   22F "LAST_OFF_HI6"            #[UY]                               # {7}
SYM   230 "LAST_OFF_HI7"            #[UY]                               # {7}
SYM   231 "LAST_OFF_HI8"            #[UY]                               # {7}
SYM   232 "INJ_BANK1"               #[UY]                               # {7}
SYM   233 "INJ_BANK2"               #[UY]                               # {7}
SYM   234 "BYLDST_INST"             #[UW]                               # {7}
SYM   236 "LOAD_SAE"                #[UW]                               # {7}
SYM   239 "TQ_BAR_LST"              #[UY]                               # {7}
SYM   23A "TQ_BAR(WORD)"            #[UW]                               # {7}
SYM   23B "TQ_BAR"                  #[UY]                               # {7}
SYM   23C "SLIP_DES_LST"            #[UW]                               # {7}
SYM   23E "SLP_DES_LST"             #[SW]                               # {7}
SYM   240 "STROKE_SLP"              #[UW]                               # {7}
SYM   242 "SLP_ERR_PID"             #[SW]                               # {7}
SYM   244 "TCAP_INTR2"              #[UW]                               # {7}
SYM   246 "TC_HRD_OFF"              #[UW]                               # {7}
SYM   248 "TCAP_CONV1"              #[SW]                               # {7}
SYM   24A "TCAP_REQ2"               #[UW]                               # {7}
SYM   24C "TCAP_SFT_ST2"            #[UW]                               # {7}
SYM   24E "TP_REL_ENT"              #[UW]                               # {7}
SYM   250 "TM_BRK_ZONE"             #[UW]                               # {7}
SYM   252 "TM_BRK_PREV"             #[UW]                               # {7}
SYM   254 "TM_BRK_PREV_HI"          #[UY]                               # {7}
SYM   255 "TQ_NET_ENT"              #[UY]                               # {7}
SYM   256 "TMSLBRK"                 #[UW]                               # {7}
SYM   258 "TM_BRK_AWAY"             #[UW]                               # {7}
SYM   25A "TM_BRK_AWAY_HI"          #[UY]                               # {7}
SYM   25B "KWCTR"                   #[UY]                               # {7}
SYM   25C "VCIDERRCNT"              #[UY]              #COUNTS 0-255    #Number of CID circuit failure indications since last CID test background {7}
SYM   25D "VCIDPASCNT"              #{UY}              #COUNTS 0-255    #Number of CID sensor foreground evaluations without failure since last CID test background {7}
SYM   25E "VPIPERRCNT"              #[UY]              #COUNTS 0-255    #Number of pip circuit failure indications between pip test background execution {7}

SYM   263 "V_IDM_CTR"               #[UY]              #EVENTS 0-255    #NUMBER OF UNDETERMINED IDM FAULT EVENTS Resolution: 1 {7}
SYM   264 "PAC_CTR[COIL_NUM_TMP]???"#[UY]              #X 0-255         #No. of unknown COIL PACK fault occurrences Resolution: 1 {7}
SYM   26F "V_COILOK_CTR"            #[UY]              #COUNTS 0-255    #register contains number of consecutive spark events without missing a cylinder Init. Value: 0. Resolution: 1 {7}

SYM   272 "EXT_FEG"                 #[SW]              #DegF -4095-4096 #Inferred exhaust heated tip temperature at the front HEGO location. Resolution: 0.125 {7}
SYM   274 "EXT_LS_FEU"              #[SW]              #Deg -4095-4096  #Steady state temperature drop per degree of potential drop between flange and front hego tip.Init. Value: 0 Resolution: 0.125 {7} 

SYM   27C "EXT_SS_FEH"              #[SW]              #DegF -4095-4096 #Steady-state heat rise in front EGO tip temperature due to heater on Init. Value: 0 Resolution: 0.125 {7}
SYM   27E "EXT_SS_FEU"              #[SW]              #DegF -4095-4096 #Steady-state unheated tip  temperature  at  the  front HEGO location. Init. Value: 0 Resolution: 0.125 {7}

SYM   280 "PIP_UP_DBTDC"            #[ W]              #?Vdc?(Deg)0-720 #Angular position of a cylinder's crank throw at occurrence of the cylinder's associated PIP UP-edge {7} L_855AC CRAI8 9-467
# ABOVE UNITS LISTED AS Vdc IN STRATEGY DOC, BUT WOULD ASSUME TO BE Deg's OF CRANK ROTATION ###
SYM   284 "EXT_SS_FL"               #[SW]              #Deg -4095-4096  #Signed steady state exhaust gas temperature at the flange Init. Value: 0 Resolution: 0.125 {7}
SYM   286 "EXT_LS_CIN"              #[SW]              #DegF -4095-4096 #Steady state temperature drop per degree of potential drop between flange and catalyst inlet. Init. Value: 0 Resolution: 0.125 {7}
SYM   288 "EXT_SS_FLS"              #[SW]              #Deg -4095-4096  #Singed steady state exhaust gas flange temperature at a stoich air/fuel mixture.Init. Value: 0 Resolution: 0.125 {7}
SYM   28A "EXT_SS_EXO"              #[SW]              #Deg -4095-4096  #Signed steady state exothermic contribution (heat of reation) Init. Value: 0 Resolution: 0.125 {7}
SYM   28C "EXT_CIN"                 #[SW]              #Deg -4095-4096  #Signed inferred catalyst inlet gas temperature Init. Value: 0 Resolution: 0.125 {7}
SYM   28E "EXT_CIN_MF"              #[SW]              #Deg -4095-4096  #Signed inferred catalyst inlet gas temperature Init. Value: 0 Resolution: 0.125 {7}

SYM   294 "SAIR_FLG"                #[UY]                               # {7}
SYM   294 "SAIR_FLWTST"             :B4                                 # {7}
SYM   294 "PSPN_FLWTST"             :B5                                 # {7}

SYM   295 "SAIR_FLG_2"              #[UY]                               # {7}
SYM   295 "SAIR_EGO_RC"             :B0                                 # {7}
SYM   295 "SAIR_EGO_LN"             :B1                                 # {7}
SYM   295 "EAM_ANTICIP"             :B6                                 # {7}
SYM   295 "CHKAIR"                  :B7                                 # {7}


SYM   296 "SPI_BIT_TRANSFER_RATE"   #[UY]                               # {7}

SYM   297 "FLAG_EXT5"               #[UY]                               # {7}
SYM   297 "LOW_FUEL_LVL"            :B0                                 # {7}
SYM   297 "TOT_IRFM_FLG"            :B1                                 # {7}
SYM   297 "I4X4L_LST"               :B2                                 # {7}
SYM   297 "PG_ADP_OVTMP"            :B3                                 # {7}
SYM   297 "FLG_TRIG_RMP"            :B4                                 # {7}
SYM   297 "AC_SLP_FLG"              :B5                                 # {7}
SYM   297 "FLG_AUT42"               :B6                                 # {7}
SYM   297 "FLG_AUT41"               :B7                                 # {7}

SYM   298 "AIR_TM_OLD"              #[UW]                               # {7}
SYM   29A "AIR_ANT_FIL"             #[UW]                               # {7}
SYM   29C "AIR_ANT_MTR"             #[UW]                               # {7}
SYM   29E "AIR_CHG_ANT"             #[UW]                               # {7}


SYM   2A2 "AIR_K_BASE"              #[UW]                               # {7}
SYM   2A4 "AIR_FK_LAST"             #[UW]                               # {7}
SYM   2A6 "AIR_ADJ_FACT"            #[UW]                               # {7}
SYM   2A8 "AIR_CHG_FMEM"            #[UW]                               # {7}
SYM   2AA "AIR_CHG_INIT"            #[UW]                               # {7}
SYM   2AC "AIR_DRFT_MUL"            #[UW]                #X 0.5-1.5     # Multiplicative factor used to correct for air meter drift Init. Value: 1 Resolution: 0.002 {7}

SYM   2AE "AIR_BRK"                 #[UW]                               # {7}
SYM   2B0 "AIR_BRK_ET"              #[UW]                               # {7}
SYM   2B2 "AIR_LD_TP"               #[UY]                               # {7}
SYM   2B3 "AIR_LD_WOT"              #[UY]                               # {7}
SYM   2B4 "AIR_OLD_TIC"             #[UW]                               # {7}
SYM   2B6 "LAST_KN_ON"              #[UW]                               # {7}
SYM   2B8 "LAST_KN_OFF"             #[UW]                               # {7}
SYM   2BA "LAST_KN_ON_HI"           #[UY]                               # {7}
SYM   2BB "LAST_KN_OFF_HI"          #[UY]                               # {7}


SYM   2BF "FLG_MISC"                #[UY]                               # {7}
SYM   2BF "FLOW_TST_PRG"            :B0                                 # {7} L_97561
SYM   2BF "FP_2SPD_ERR"             :B1                                 #Fuel pump high speed driver circuit fault flag {7}
SYM   2BF "FPL"                     :B2                                 #Fuel Pump Low commanded output {7}
SYM   2BF "FLG_SLP_CTL"             :B3                                 # {7}
SYM   2BF "FLG_SFTTOPID"            :B4                                 # {7}
SYM   2BF "FLG_SFT_RMP"             :B5                                 # {7}
SYM   2BF "FLG_AC_CTL"              :B6                                 # {7}
SYM   2BF "FLG_AC_CMP"              :B7                                 # {7}

SYM   2C0 "TOT"                     #[SW]                               # {7}
SYM   2C2 "TOTECT"                  #[SW]                               # {7}
SYM   2C4 "TOT_ENG"                 #[SW]                               # {7}
SYM   2C6 "TOT_LST"                 #[SW]                               # {7}
SYM   2C8 "IRF_RAILTEMP"            #[UW]                               #((^168D IRF_RAILTEMP)CRAI8 5-260) {7}

SYM   2CE "MFP_PER_LO"              #[UW]                               # {7}
SYM   2D0 "MFP_DTY_LO"              #[UW]                               # {7}

SYM   2DA "CHT_PER_LO"              #[UW]                               # {7}
SYM   2DC "CHT_DTY_LO"              #[UW]                               # {7}

SYM   2E0 "MFP_PER_HI"              #[UY]                               # {7}
SYM   2E1 "MFP_DTY_HI"              #[UY]                               # {7}

SYM   2E6 "CHT_PER_HI"              #[UY]                               # {7}
SYM   2E7 "CHT_DTY_HI"              #[UY]                               # {7}

SYM   2E8 "PSBOO_FLAG1"             #[UY]                               # {7}
SYM   2E8 "BOOS_SCP_ON"             :B0                                 # {7}
SYM   2E8 "BOOS_SCP_OFF"            :B1                                 # {7}
SYM   2E8 "BOO_SCP"                 :B3                                 # {7}
SYM   2E8 "BOOS_LVL_ON"             :B4                                 # {7}
SYM   2E8 "BOOS_LVL_OFF"            :B5                                 # {7}
SYM   2E8 "BI_LAST"                 :B7                                 # {7}


SYM   2E9 "FLAG_R2E9"               #[UY]                               # {7}
SYM   2E9 "BOOSCP_FMFLG"            :B7                                 # {7}

SYM   2EA "BOO_ERR_CNT1"            #[UY]            #COUNTS 0-255      #Brake On / Off hardwired input error counter  {7}
SYM   2EA "PSPT_FRST_FL"            :B1                                 # {7}
SYM   2EA "PSPS_PSPT_HW"            :B2                                 # {7}
SYM   2EA "PSON_FG"                 :B3                                 # {7}
SYM   2EA "PSFMFLG"                 :B4                                 # {7}
SYM   2EA "FFG_PSPT"                :B5                                 # {7}
SYM   2EA "BIFLG_HW"                :B6                                 # {7}
SYM   2EA "BOOSCP_FMFLG"            :B7                                 # {7}

SYM   2EB "BOO_ERR_CNT2"            #[UY]            #COUNTS 0-255      #Brake On / Off  SCP input error counter {7} 


SYM   2EC "BGS_INDEX"               #[UW]                               # {7}
SYM   2EE "BGS_SVPTR_3"             #[UW]                               # {7}
SYM   2F0 "BGS_LVL1_SVPTR"          #[UW]                               # {7}
SYM   2F2 "BGS_LVL2_SVPTR"          #[UW]                               # {7}
SYM   2F4 "BGS_ASYNC_SVPTR"         #[UW]                               # {7} 
SYM   2F6 "BGS_ASYNC_PTR_0"         #[UW]                               # {7}
SYM   2F8 "BGS_ASYNC_PTR_1"         #[UW]                               # {7}
SYM   2FA "BGS_ASYNC_PTR_2_RASTER_ASYNC_TASK?"         #[UW]                               # {7}
SYM   2FC "FRP_ENG_W"               #[UW]                               # {7}

SYM   302 "OLD_STK_PTR"             #[UW]                               # {7}
SYM   333 "TSTALL"                  #[ W]              #Secs            #Amount of time since previous PIP interrupt which indicates the engine has stalled, sec. {7}


SYM   368 "CRK_PIP_INJ"             #[UY]                               # {7}

SYM   369 "PCOMP_FLG1"              #[UY]                               # {7}
SYM   369 "ADP_PRS_LMT"             :B0                                 # {7}
SYM   369 "PG_ADP_OVTMP"            :B1                                 # {7}
SYM   369 "PRGIDLE_FLG"             :B2                                 #Increment/decrement flag for PRGIDLE_TMR. 1 -> increment, 0 -> decrement. Timer  has a 255 MAX,and a 0 MIN {7}
SYM   369 "PRG_NACT"                :B3                                 #Flag used to signal if not at closed throttle conditions has existed for some ammount of time {7}
SYM   369 "PRG_FLG"                 :B4                                 #PURGE SPECIFICATION FLAG. 1 -> PURGE CONDITIONS MET, 0 -> NOT {7}
SYM   369 "PRG_OFF"                 :B5                                 # {7}
SYM   369 "PG_OBD2_HFL"             :B6                                 #Flag that indicates a OBDII test is signaling purge to HOLD its flow and duty cycle while test runs {7}
SYM   369 "PG_OBD2_NFL"             :B7                                 #Flag that indicates a OBDII test is signaling purge to STOP its flow and duty cycle while test runs {7}
SYM   36A "ACPRES"                  #[UY]               #PSI 0-510      #A/C head pressure Init. Value: 0 Resolution: 2 {7}
SYM   36B "AC_OFF_PRES"             #[UY]               #PSI 0-510      #A/C head pressure when the A/C is off Init. Value: 0 Resolution: 2 {7}
SYM   36C "ACPRES_TST"              #[UY]               #PSI 0-510      #Temporary value of A/C head pressure, used during testing Init. Value: 0 Resolution: 2 {7}

SYM   36D "OPEN_LOOP_FLG1"          #[UY]                               # {7}
SYM   36D "FAR_MUL_RUN"             :B0                                 # {7}
SYM   36D "FAR_MUL_RDY"             :B1                                 # {7}
SYM   36D "FAR_MUL_FLG"             :B2                                 # {7}
SYM   36D "WOT_OL_FLG"              :B3                                 # {7}
#SYM   36D "WOT_TMR_FLG"             :B3                                 # {7}
SYM   36D "OL_MFA_FLG"              :B4                                 # {7}
SYM   36D "OL_IDL_FLG"              :B5                                 # {7}
SYM   36D "OL_DRV_FLG"              :B6                                 # {7}
SYM   36D "OL_EXC_FLG"              :B7                                 # {7}

SYM   36E "IACFB_EXT_FLG"           #[UY]                               # {7}
SYM   36E "IAC_FUEL_OK"             :B1                                 # {7}
SYM   36E "IAC_TM4_FLG"             :B2                                 # {7}
SYM   36E "ISCKAM_HLT"              :B3                                 #ISCKAM learning override, (1 = disabled) {7}
SYM   36E "IAC_TST_RUN"             :B4                                 # {7}
SYM   36E "IAC_ERR3"                :B5                                 #IAC error flag indicates ISCKAM malfunction {7}
SYM   36E "IAC_ERR2"                :B6                                 # {7}
SYM   36E "IAC_ERR1"                :B7                                 # {7}



SYM   374 "FN617_REG"               #[UW]                               # {7}
SYM   37A "TRC_GR"                  #[UW]                               # {7}
SYM   37C "TRC_SPDRATIO"            #[UW]                               # {7}

SYM   37E "TP_SS"                   #[UW]              #Vdc 0-1020      #FILTERED SYNTHESIZED THROTTLE FOR T/A Resolution: 4 Init. Value: 0 {7}
SYM   37F "TP_SYNTH"                #[UY]              #Vdc 0-1020      #SYNTHESIZED THROTTLE FOR T/A Init. Value: 0 Resolution: 4 {7}

SYM   380 "ECT_FIL"                 #[UY]                               # {7}
SYM   381 "ACT_FIL"                 #[UY]                               # {7}

SYM   382 "TP_FIL"                  #[UY]                               # {7}
#SYM   382 "TP"                      #[ W]                               # {7} SUB_0D48E
SYM   383 "MAF_FIL"                 #[UY]                               # {7}
#SYM   383 "MAF"                     #[ W]                               # {7} SUB_0D48E
SYM   384 "VS_FIL"                  #[UY]                               # {7}
#SYM   384 "VS"                      #[ W]                               # {7} SUB_0D48E


SYM   385 "DIAGX_EXT_FLG1"          #[UY]                               # {7}
SYM   385 "FLG_CONT_MON"            :B0                                 # {7}
SYM   385 "ACPRES_TEST"             :B1                                 #Flag to indicate that A/C head pressure range test has been performed this engagement {7}


SYM   386 "ACIOTMR_LAST"            #[UW]               #Sec 0-63.990002#Last pass valuve of ACIOTMR Init. Value: 0.0 Resolution: 0.249 {7}
SYM   388 "ACPERIOD"                #[UW]               #Sec 0-63.990002#A/C Clutch cycling period Init. Value: 0.0 Resolution: 0.249 {7}
SYM   38A "IDCI"                    #[SW]                               # {7}
SYM   38C "IDC_CL"                  #[SW]                               # {7}
SYM   38E "MAFERR"                  #[SW]                               # {7}
SYM   390 "TP_ENG_LAST"             #[UW]                               # {7}
SYM   392 "ECTCNT"                  #[UY]                               # {7}
SYM   393 "TCSTRT"                  #[SY]                               # {7}
SYM   394 "TCSTRT_ACCUM"            #[SW]                               # {7}
SYM   396 "cHT"                     #[??=flo(X*2)]       #°F           #Cylinder Head Temperature. {3}
SYM   398 "CHT_ENG"                 #[SW]                #Volts         #Cylinder Head Temperature sensor voltage. {7}
SYM   39A "ECT_ENG"                 #[SW]                               # {7}
SYM   39C "ENGT_INF"                #[SW]                #Deg -4096-4095.875#Inferred engine temperature, using soak timer and prevailing conditions Init. Value: 60.Resolution: 2 {7}

SYM   39E "ENGT_FLAGS"              #[UY]                               # {7}
SYM   39E "IECT_INIT_FL"            :B0                                 # {7}
SYM   39E "ENGT_KE_FLG"             :B1                                 # {7}
SYM   39E "B2_ENGT_FLAGS"             :B2                                 # {7}
SYM   39E "ENGT_INF_FL"             :B3                                 #Flag used to indicate that the engine temperature inference has been completed. {7} L_095F5
SYM   39E "ECT_TUP_FL"              :B4                                 # {7}
SYM   39E "ECT_FRST_FL"             :B5                                 # {7}
SYM   39E "CHT_FRST_FL"             :B6                                 # {7}
SYM   39E "CHTS_FAIL_FL"            :B7                                 # {7}



SYM   39F "V_PSPSPD_CTR"            #[UY]                               # {7}
SYM   3A1 "CC_ON_CNT"               #[UY]                               # {7}
SYM   3A2 "CC_OFF_CNT"              #[UY]                               # {7}

SYM   3A3 "SFT_EXT_FLG"             #[UY]                               # {7}
SYM   3A3 "CC_TRIP_DONE"            :B0                                 #Converter Clutch functional test trip done flag; 1 -> CC functionally monitored for this 'trip' {7}
SYM   3A3 "SS_TRIP_DONE"            :B1                                 #Shift Solenoid functional test trip done flag; 1 -> SS functionally monitored for this 'trip' {7}
SYM   3A3 "SS_MALF_FLG"             :B2                                 #Shift Solenoid malfunction flag; 1 -> a SS malfunction is present {7}
SYM   3A3 "SS2MALF"                 :B3                                 #SS2 malfunction flag; 1 -> SS2 malfunction present {7}
SYM   3A3 "SS1MALF"                 :B4                                 #SS1 malfunction flag; 1 -> SS1 malfunction present {7}
SYM   3A3 "P0783MON"                :B5                                 #3-4 Shift monitor flag {7}
SYM   3A3 "P0782MON"                :B6                                 #2-3 Shift monitor flag {7}
SYM   3A3 "P0781MON"                :B7                                 #1-2 Shift monitor flag {7}

SYM   3A4 "RATCH_REP"               #[UW]                               # {7}
SYM   3A6 "TPBAR_MT"                #[UW]                               # {7}
SYM   3A8 "INIT_TOT_CNT"            #[UY]                               # {7}
SYM   3A9 "FN033A_ACT"              #[UY]               #X 0-5          #NORMALIZED ACT (FN033)Resolution: 0.062500 {7}
SYM   3AA "TP_ENG1"                 #[UW]                               # {7}
SYM   3AC "TP_ENG2"                 #[UW]                               # {7}
SYM   3AE "TP_ENG3"                 #[UW]                               # {7}
SYM   3B0 "TP_ENG4"                 #[UW]                               # {7}
SYM   3B2 "TOT_IR_CTR"              #[UW]                               # {7}
SYM   3B4 "TP_STRT_TST"             #[UW]                               # {7}
SYM   3B6 "TOT_STRT_CNT"            #[UW]                               # {7}

SYM   3B8 "T_OBDII_FG1"             #[UY]                               # {7}
SYM   3B8 "EPC_OPN_TEST"            :B0                                 # {7}
SYM   3B8 "LK_TST_CMP"              :B2                                 # {7}
SYM   3B8 "ISIG_TCC_ENA"            :B3                                 # {7}
SYM   3B8 "ISIG_SS_ENA"             :B4                                 # {7}
SYM   3B8 "FLG_UNLK_OK"             :B5                                 # {7}
SYM   3B8 "FLASH_TCIL"              :B7                                 # {7}

SYM   3B9 "T_OBDII_FG2"             #[UY]                               # {7}

SYM   3B9 "FLG_LK_TST"              :B1                                 # {7}
SYM   3B9 "FLG_4X4L_FM"             :B2                                 # {7}
SYM   3B9 "TR_LOAD_FLG"             :B3                                 # {7}
SYM   3B9 "FLG_LK_OK"               :B4                                 # {7}
SYM   3B9 "FLG_UNLK_TST"            :B5                                 # {7}
SYM   3B9 "IS_COM_ERROR"            :B6                                 # {7}
SYM   3B9 "FLG_FRST_TOT"            :B7                                 # {7}

SYM   3BA "T_OBDII_FG3"             #[UY]                               # {7}
SYM   3BA "TFM_TCIL_TOD"            :B0                                 # {7}
SYM   3BA "FLG_TCC_CK"              :B1                                 # {7}
SYM   3BA "FLG_SS2_CK"              :B3                                 # {7}
SYM   3BA "FLG_SS1_CK"              :B4                                 # {7}
SYM   3BA "FLG_PWR_TQ"              :B5                                 # {7}
SYM   3BA "IS_COM_ERROR"            :B6                                 # {7}
SYM   3BA "IS_SETUP_FLG"            :B7                                 # {7}

SYM   3BB "T_OBDII_FG4"             #[UY]                               # {7}
SYM   3BB "P1740MON"                :B5                                 # {7}
SYM   3BB "P1715MON"                :B6                                 # {7}
SYM   3BB "P1714MON"                :B7                                 # {7}

SYM   3BC "SS2_ISER_CTR"            #[UY]                               # {7}
SYM   3BD "TOT_IR_STATE"            #[UY]                               # {7}
SYM   3BE "TCC_ERR_CTR"             #[UY]                               # {7}
SYM   3BF "TCC_ISER_CTR"            #[UY]                               # {7}

SYM   3C1 "RT_ERR_CTR4"             #[UY]                               # {7}
SYM   3C2 "RT_ERR_CTR3"             #[UY]                               # {7}
SYM   3C3 "SS1_ISER_CTR"            #[UY]                               # {7}
SYM   3C4 "TOT_IRER_CTR"            #[UY]                               # {7}
SYM   3C6 "TCC_TST_CTR"             #[UY]                               # {7}
SYM   3C7 "TCC_OK_CTR"              #[UY]                               # {7}
SYM   3C8 "SS2_ISOK_CTR"            #[UY]                               # {1}

#SYM   3C8 "TFD_SS2_STUK"            #[UY]                               # {7}

SYM   3C9 "EPC_FM_MIN"              #[UY]                               # {7}
SYM   3CA "RT_LOW_CTR"              #[UY]                               # {7}
SYM   3CB "TP_DIF_CTR"              #[UY]                               # {7}

SYM   3CC "TCC_EXT_FLG"             #[UY]                               # {7}
SYM   3CC "FLG_TST_FP"              :B0                                 # {7}
SYM   3CC "FLG_TST_CMP"             :B1                                 # {7}
SYM   3CC "FLG_SS_MON"              :B2                                 # {7}
SYM   3CC "FLG_PWM_ON"              :B3                                 # {7}
SYM   3CC "FLG_PWM_MON"             :B4                                 # {7}
SYM   3CC "FLG_BCV_ON"              :B5                                 #Flag indicating 'on' state of the bypass clutch control valve; 1 -> bypass valve stuck 'on' {7}
SYM   3CC "FLG_BCV_MON"             :B6                                 #Flag indicating bypass clutch control valve state in first gear monitored; 1 -> state monitored {7}
SYM   3CC "P1744MON"                :B7                                 # {7} COULD BE "TCC_LK_MON"


SYM   3D0 "DELAYBAR_32"             #[UW]                               # {7}
SYM   3D2 "DELAY_MIN_32"            #[UW]                               # {7}
SYM   3D4 "DELAY_MAX_32"            #[UW]                               # {7}




SYM   3DE "PGM_FLG_EXT1"            #[UY]                               # {7}
SYM   3DE "PGM_MDE8_FLG"            :B0                                 # {7}
SYM   3DE "CVS_SCP_CTL"             :B1                                 # {7}
SYM   3DE "PGM_FLI_FM"              :B2                                 #Fuel level sensor FMEM failure flag; 1 -> FLI sensor failed {7}
SYM   3DE "PGM_SOAK_FLG"            :B3                                 # {7}
SYM   3DE "PGM_TEMP_FLG"            :B4                                 # {7}
SYM   3DE "PGM_TEMP_BYP"            :B5                                 # {7}
SYM   3DE "PGM_VAC_SEEN"            :B6                                 # {7}
SYM   3DE "PGM_TRG_SEEN"            :B7                                 # {7}

SYM   3DF "PGM_FLG_EXT2"            #[UY]                               # {7}
SYM   3DF "P0446MON"                :B0                                 # {7}
SYM   3DF "DELT_1ST_FLG"            :B1                                 # {7}
SYM   3DF "P0443MON"                :B2                                 # {7}
SYM   3DF "WOT_TMR_FLG"             :B3                                 # {7}
SYM   3DF "NO_SIMULT"               :B4                                 # {7}
SYM   3DF "CANV_1ST_PS"             :B5                                 # {7}
SYM   3DF "OSM_1ST_PS"              :B6                                 # {7}
SYM   3DF "VAP_GEN_HI"              :B7                                 # {7}

SYM   3E0 "PGM_FLG_EXT3"            #[UY]                               # {7}
SYM   3E0 "CRK_RST_FLG"             :B0                                 # {7}
SYM   3E0 "CRK_DLY_FLG"             :B1                                 # {7}
SYM   3E0 "PGM_02LK_CHK"            :B2                                 # {7}
SYM   3E0 "PGM_PS4_SET"             :B3                                 # {7}
SYM   3E0 "PGM_PS3_SET"             :B4                                 # {7}
SYM   3E0 "PGM_PS2_SET"             :B5                                 # {7}
SYM   3E0 "PGM_PS1_SET"             :B6                                 # {7}
SYM   3E0 "PGM_PS0_SET"             :B7                                 # {7}

SYM   3E1 "FLAG_R3E1"               #[UY]                               # {7}
SYM   3E1 "PGM_2ND_PS"              :B3                                 #PURGE MONITOR SECOND PASS FLAG {7}
SYM   3E1 "PGM_1ST_PS"              :B4                                 #PURGE MONITOR FIRST PASS FLAG {7}
SYM   3E1 "P1445MON"                :B5                                 #OBDII MONITOR FLAG FOR FAULT 1445 {7}
SYM   3E1 "P1444MON"                :B6                                 #OBDII MONITOR FLAG FOR FAULT 1444 {7}
SYM   3E1 "P1443MON"                :B7                                 #OBDII MONITOR FLAG FOR FAULT 1443 {7}

SYM   3E2 "AIR_B3_N"                #[UY]                               # {7}
SYM   3E4 "TBART"                   #[UW]                               # {7}
SYM   3E6 "SPK_AIR_CHG"             #[UW]                               # {7}
#SYM   3E8 "SPI2_BTWN_PIP_RPM_LIMIT" #[ W]                               #RPM below which SPI2 transfers are scheduled between PIP transitions {7}
SYM   3E8 "SPK_BDL_CLP"             #[SW]                               # {7}
SYM   3EA "SPK_DARCHMAX"            #[UW]                               # {7}
SYM   3EC "SPK_ARCH_PRV"            #[UW]                               # {7}



SYM   3EE "RF_RLTMP_LW"             #[UW]                               # {7}
SYM   3F0 "RF_RAILTEMPW"            #[SW]                               # {7}
SYM   3F2 "RF_DC"                   #[UW]                               # {7}
SYM   3F4 "RF_DP_ACTUAL"            #[UW]                               # {7}
SYM   3F6 "FP_INPUT_VLT_??3F6"            #[UY]                               # {7}
SYM   3F7 "FP_MODE"                 #[UY]                               # {7}
SYM   3F7 "FP_MODE_B0"              :B0                                 # {7}
SYM   3F7 "FP_MODE_B1"              :B1                                 # {7}
SYM   3F8 "RF_X"                    #[UW]                               # {7}
SYM   3FA "RF_Y"                    #[UW]                               # {7}
SYM   3FC "RF_XFILT"                #[UW]                               # {7}

SYM   400 0A7DC 0A7EC "HEGO_D"#                                         # {7}
SYM   400 86855 869BF "HEGO_DATA_BFR"#                                  # {7}


SYM   420 "IEGO_NEW11"              #[UW]                               # {7}

SYM   424 "EGO_MON_FLG1"            #[UY]                               # {7}
SYM   424 "EGO_IMBYPASS"            :B0                                 # {7}
SYM   424 "EXT_FMM_FLG"             :B1                                 # {7}
SYM   424 "TEST_ENABLED"            :B2                                 # {7}
SYM   424 "EGO_MON_RDY"             :B3                                 # {7}
SYM   424 "EGOMON_ENTRY"            :B4                                 # {7}
SYM   424 "EGO_WIND_SET"            :B5                                 # {7}
SYM   424 "ABORT_DONE"              :B6                                 # {7}
SYM   424 "FLG_EGO_IDLE"            :B7                                 # {7}
SYM   425 "EGO_MON_FLG2"            #[UY]                               # {7}
SYM   425 "EGO_TIE_BRK"             :B0                                 # {7}
SYM   425 "EO_INIT_FLG"             :B1                                 # {7}
SYM   425 "EGO_WINDOW_SET"          :B2                                 # {7}
SYM   425 "STOP_EXCURS"             :B3                                 # {7}
SYM   425 "EGO_DS_MON"              :B4                                 # {7}
SYM   425 "EGO_US_MON"              :B5                                 # {7}
SYM   425 "DS_EGO_OL"               :B6                                 # {7}
SYM   425 "LAM_MOD_FLG"             :B7                                 #Flag used to initiate high frequency fuel modulation for the upstream EGO monitor {7}
SYM   426 "EGO_MON_FLG3"            #[UY]                               # {7}
SYM   426 "DS_RICH[BANK2]"          :B0                                 # {7}
SYM   426 "DS_RICH[BANK1]"          :B1                                 # {7}
SYM   426 "DS_LEAN[BANK2]"          :B2                                 # {7}
SYM   426 "DS_LEAN[BANK1]"          :B3                                 # {7}
SYM   426 "DS_EGO_RICH[BANK2]"      :B4                                 # {7}
SYM   426 "DS_EGO_RICH[BANK1]"      :B5                                 # {7}
SYM   426 "DS_EGO_LEAN[BANK2]"      :B6                                 # {7}
SYM   426 "DS_EGO_LEAN[BANK1]"      :B7                                 # {7}


SYM   427 "FLAGS_B427"              #[UY]                               # {7}
SYM   427 "SMPL_EGO_FLG"            :B5                                 # {7}


SYM   428 "EGO_MON_FLG5"            #[UY]                               # {7}
SYM   428 "HEGOHTR[BANK1][UPS]"     :B0                                 # {7}
SYM   428 "HEGOHTR[BANK2][UPS]"     :B1                                 # {7}
SYM   428 "HEGOHTR[BANK1][DNS]"     :B2                                 # {7}
SYM   428 "HEGOHTR[BANK2][DNS]"     :B3                                 # {7}
SYM   428 "HTR_FAULT[BANK1][UPS]"   :B4                                 # {7}
SYM   428 "HTR_FAULT[BANK2][UPS]"   :B5                                 # {7}
SYM   428 "HTR_FAULT[BANK1][DNS]"   :B6                                 # {7}
SYM   428 "HTR_FAULT[BANK2][DNS]"   :B7                                 # {7}
SYM   429 "EGO_MON_FLG6"            #[UY]                               # {7}
SYM   429 "US_ENABLE"               :B0                                 # {7}
SYM   429 "EGO_ER_FLG"              :B1                                 # {7}

SYM   429 "EGO_CUR_MON"             :B3                                 # {7}
SYM   429 "EGO_OBD_INI"             :B4                                 # {7}
SYM   429 "CURR_TST_ENA"            :B5                                 # {7}
SYM   429 "DS_FAULTED"              :B6                                 # {7}
SYM   429 "US_FAULTED"              :B7                                 # {7}
SYM   42A "EGO_MON_FLG7"            #[UY]                               # {7}
SYM   42A "HTR_MON[BANK1][UPS]"     :B0                                 # {7}
SYM   42A "HTR_MON[BANK2][UPS]"     :B1                                 # {7}
SYM   42A "HTR_MON[BANK1][DNS]"     :B2                                 # {7}
SYM   42A "HTR_MON[BANK2][DNS]"     :B3                                 # {7}
SYM   42A "HTR_MALF[BANK1][UPS]"    :B4                                 # {7}
SYM   42A "HTR_MALF[BANK2][UPS]"    :B5                                 # {7}
SYM   42A "HTR_MALF[BANK1][DNS]"    :B6                                 # {7}
SYM   42A "HTR_MALF[BANK2][DNS]"    :B7                                 # {7}
SYM   42B "EGO_MON_FLG8"            #[UY]                               # {7}
SYM   42B "ON_FAULT[BANK1][UPS]"    :B0                                 # {7}
SYM   42B "ON_FAULT[BANK2][UPS]"    :B1                                 # {7}
SYM   42B "ON_FAULT[BANK1][DNS]"    :B2                                 # {7}
SYM   42B "ON_FAULT[BANK2][DNS]"    :B3                                 # {7}
SYM   42B "OFF_FAULT[BANK1][UPS]"   :B4                                 # {7}
SYM   42B "OFF_FAULT[BANK2][UPS]"   :B5                                 # {7}
SYM   42B "OFF_FAULT[BANK1][DNS]"   :B6                                 # {7}
SYM   42B "OFF_FAULT[BANK2][DNS]"   :B7                                 # {7}
SYM   42C "EGO_MON_FLG9"            #[UY]                               # {7}
SYM   42C "OLDHEGOHTR[BANK1][UPS]"  :B0                                 # {7}
SYM   42C "OLDHEGOHTR[BANK2][UPS]"  :B1                                 # {7}
SYM   42C "OLDHEGOHTR[BANK1][DNS]"  :B2                                 # {7}
SYM   42C "OLDHEGOHTR[BANK2][DNS]"  :B3                                 # {7}
SYM   42C "OLDHTRFALT[BANK1][UPS]"  :B4                                 # {7}
SYM   42C "OLDHTRFALT[BANK2][UPS]"  :B5                                 # {7}
SYM   42C "OLDHTRFALT[BANK1][DNS]"  :B6                                 # {7}
SYM   42C "OLDHTRFALT[BANK2][DNS]"  :B7                                 # {7}
SYM   42D "EGO_MON_FLGA"            #[UY]                               # {7}
SYM   42D "EGO_1ST_MON"             :B0                                 # {7}
SYM   42D "ALTF_MODE"               :B1                                 # {7}
SYM   42D "V_EGR_DLYFG"             :B2                                 #EGO test EGR transition indication flag 1 = EGR transition has occurred {7}
SYM   42E "EGO_MON_FLGB"            #[UY]                               # {7}
SYM   42E "ADP_XOVER[BANK1][UPS]"   :B0                                 # {7}
SYM   42E "EGOIN_DFIB1"             :B1                                 # {7}
SYM   42E "SWTP_STABL[BANK1][UPS]"  :B2                                 # {7}
SYM   42E "DFIB_RICH[BANK1][UPS]"   :B3                                 # {7}
SYM   42E "DFIB_LEAN[BANK1][UPS]"   :B4                                 # {7}
SYM   42E "ADP_STOP[BANK1][UPS]"    :B5                                 # {7}
SYM   42E "PLFLG[BANK1][UPS]"       :B6                                 # {7}
SYM   42E "EGO_SWT[BANK1][UPS]"     :B7                                 # {7}

SYM   431 "EGO_REV_CTR"             #[UY]                               # {7}
SYM   432 "BYPLES_TM1"              #[UY]                               # {7}
SYM   433 "BYPLES_TM2"              #[UY]                               # {7}
SYM   434 "HEGO_INTO_OFF"           #[UY]                               # {7}
SYM   435 "HEGO_OUT_OFF"            #[UY]                               # {7}
SYM   436 "EGO_LOAD_ST"             #[UW]                               # {7}
SYM   438 "LOAD_EGO"                #[UW]                               # {7}
SYM   43A "LD_EGO_DLTA"             #[UW]                               # {7}
SYM   43C "EGO_N_ST"                #[UW]                               # {7}
SYM   43E "N_EGO"                   #[UW]                               # {7}
SYM   440 "N_EGO_DLTA"              #[UW]                               # {7}
SYM   442 "EGO_VS_ST"               #[UY]                               # {7}
SYM   443 "VS_EGO"                  #[UY]                               # {7}
SYM   444 "VS_EGO_DLTA"             #[UY]                               # {7}
SYM   445 "LAM_CYCLES"              #[UY]                               # {7}
SYM   446 "FN_INPUT"                #[UW]              #Norm Time 0-20  # Resolution = 0.0005 #LAMBSE fuel modulation function generator  input {7}
SYM   448 "LAMBSE_MOD1"             #[SW]                               # {7}
SYM   44A "LAMBSE_MOD2"             #[SW]                               # {7}
SYM   44C "LAM_OFFSET"              #[SW]                               # {7}
SYM   44E "LAM_FINAL1"              #[UW]                               # {7}
SYM   450 "LAM_FINAL2"              #[UW]                               # {7}
SYM   452 "ER_LAM_DSD1"             #[UW]                               # {7}
SYM   454 "ER_LAM_DSD2"             #[UW]                               # {7}
SYM   456 "ER_SPARK"                #[SW]                               # {7}
SYM   458 "ER_EAM_LEAN"             #[UW]                               # {7}
SYM   45A "DEMAND_STATE"            #[UY]                               # {7}
# SAIR: 1 = SAIR_KOER_PRIMARY_TEST, 2 = SAIR_KOER_FUEL_INIT, 3 = SAIR_KOER_FUEL_DONE


SYM   45B "ER_RPM"                  #[UY]                               # {7}
SYM   45C "ER_STATUS"               #[UY]                               # 39.1.1.8 {7}
## ER_STATUS state:  ER_INACTIVE = 0 ER_INIT = 1 ISC_HI_WAIT = 2 ISC_HI_CHECK = 3 ISC_HI_DONE = 4 EGR_ER_INIT = 10 EGR_ER_DONE = 11
## ISC_HI_WAIT  =  12  EGO_ER_INIT  =  20  EGO_ER_DONE  = 21 SAIR_ER_DONE = 30 SAIR_ER_DONE = 31 ISC_LO_WAIT = 60 ISC_LO_CHECK = 61
## ISC_LO_DONE = 62 ER_CLEANUP = 90 ER_DONE = 95

SYM   45D "EO_STATUS"               #[UY]                               # 39.1.1.9 {7}
##     EO_STATUS state:
##         EO_INACTIVE     = 0
##         ECU_EO_INIT     = 10
##         ECU_EO_DONE     = 11
##         CCM_EO_INIT     = 20
##         CCM_EO_DONE     = 21
##         OSM_EO_WAIT     = 50
##         OSM_EO_DONE     = 51
##         EO_DONE         = 95




SYM   45E "OTM_STATE"               #[UY]                               # {7}
SYM   45F "OUTPUT_MODE"             #[UY]                               # {7}
SYM   460 "HW_PPM"                  #[UW]             #PPM 0-0.993      #AIRFLOW INCREMENT REQUIRED FOR HEATED WINDSHIELD LOAD Init. Value: 0 Resolution: 0.007812 {7}
SYM   462 "EAM_PPM"                 #[UW]                               # {7}
SYM   464 "NDT_PPM"                 #[SW]                               # {7}
SYM   466 "PS_PPM"                  #[UW]             #PPM 0-0.99599    #PS delta air mass {7}
SYM   46E "TRAC_RT_GR"              #[UW]                               # {7}
SYM   470 "TRAC_TGR_MAN"            #[UW]                               # {7}
SYM   472 "TGR_MAN_FRST"            #[UW]                               # {7}
SYM   474 "TGR_MAN_SEC"             #[UW]                               # {7}
SYM   476 "NOVSCTR"                 #[UY]                               # {7}
SYM   47C "FPW_FG_ISF_A_??"            #[U ]          #HWTIMERTICKS 0-131000#Cylinder reactivation fuel pulse adder Value: 0 Resolution: 2 {7}
SYM   47E "CYLOFF_PPM"              #[UW]                               # {7}

SYM   481 "DECEL_FLAGS"             #[UY]                               # {7}
SYM   481 "DFS_CT_DECEL"            :B0                                 # {7}
SYM   481 "DFS_MTX_SHFT"            :B1                                 # {7}
SYM   481 "ALT_DFSO_FLG"            :B3                                 # {7}
SYM   481 "ACT_FRST_FL"             :B7                                 # {7}


SYM   482 "ENG_OFF_TMR"             #[UW]                               # {7}
SYM   484 "TQMUL"                   #[UY]                               # {7}
SYM   485 "TR_LIM_OSC"              #[UY]                               # {7}
SYM   486 "TR_LIM_MOD"              #[UY]                               # {7}
SYM   487 "TR_LIM_FSC"              #[UY]                               # {7}
SYM   488 "TR_LIM_DECEL"            #[UY]                               # {7}
SYM   489 "TR_LIM_VS"               #[UY]                               # {7}
SYM   48A "TR_LIM_TRANS"            #[UY]                               # {7}
SYM   48B "TR_LIM_TIP"              #[UY]                               # {7}
SYM   48C "TR_LIM_TRAC"             #[UY]                               # {7}
SYM   48D "TR_LIM_RPM"              #[UY]                               # {7}
SYM   48E "TR_LIM_TOIL"             #[UY]                               # {7}
SYM   490 "TR_LIM_TURBO"            #[UY]                               # {7}
SYM   491 "DS_STATE"                #[UY]                               # {7}
SYM   492 "NUMCYL_TQ"               #[UW]                               # {7}
SYM   494 "TQ_NET_MBT"              #[SW]                               # {7}
SYM   496 "TQ_BRAKE_S"              #[SW]                               # {7}
SYM   498 "LAM_TQ"                  #[UW]              #X 0-1.999969    #Lambse value desired by torque control to achieve a desired torque reduction.Init. Value: 1.99 Resolution: 0.000031 {7}
SYM   49A "INJ_CTR"                 #[UW]                               # {7}
SYM   49C "INJOFF_FMEM"             #[UW]                               # {7}
SYM   49E "INJOFF_LST"              #[UW]                               # {7}
SYM   4A0 "INJOFF"                  #[UW]                               # {7}
SYM   4A2 "INJON"                   #[UW]                               # {7}
SYM   4A4 "INJON_LST"               #[UW]                               # {7}
SYM   4A6 "INJON_MAX"               #[UW]                               # {7}
SYM   4A8 "TR_SPK_EXIST"            #[UY]                               # {7}
SYM   4A9 "TR_AF"                   #[UY]                               # {7}
SYM   4AA "INJ_ACTUAL"              #[UW]                               # {7}
SYM   4AC "TR_INJ_TQ"               #[U ]                               # {7}
SYM   4AD "TR_DESIRED"              #[UY]                               # {7}
SYM   4AE "TR_DSD_LST"              #[UY]                               # {7}
SYM   4AF "TR_INJ_LST_??"              #[UY]                               # {7}

SYM   4B0 "INJ_TR"                  #[UY]                               # {7}
SYM   4B0 "B7_INJ_TR"               :B7                                 # {7}

SYM   4B1 "TR_TIP_RATIO"            #[  ]              # X 0-1          #MBT gross torque ratio to be used by tipin torque control,  represents the change in indicated torque from one bg pass to the next Resolution: 0.008 {7}
SYM   4B2 "TR_INJ_TIP"              #[ Y]              #                # {7}
SYM   4B3 "TQ_SOURCE"               #[UY]                               # {7}
SYM   4B4 "TR_SPARK"                #[UY]                               # {7}
SYM   4B5 "TR_SPK_LVL"              #[UY]                               # {7}
SYM   4B6 "INJ_INDEX"               #[UY]                               # {7}
#SYM   4B6 "SPK_MBT_DELT"            #[UY]              # Deg 0-63.75    #Difference between MBT spark and SAFTOT Resolution: 0.250 {7}
SYM   4B8 "TQ_LOSS"                 #[UW]                               # {7}
SYM   4BA "TQ_LOSS_LED"             #[SW]                               # {7}
SYM   4BC "TQ_LOSS_T0"              #[UW]                               # {7}
SYM   4BE "TQ_LOSS_T1"              #[UW]                               # {7}
SYM   4C0 "TQ_LOSS_T2"              #[UW]                               # {7}


SYM   4C2 "TQ_MBT"                  #[UW]                               # {7}
SYM   4C4 "TQ_MBT_LED"              #[SW]                               # {7}

SYM   4C6 "TQ_MBT_T0"               #[UW]                               # {7}
SYM   4C8 "TQ_MBT_T1"               #[UW]                               # {7}
SYM   4CA "TQ_MBT_T2"               #[UW]                               # {7}
SYM   4CC "TQ_NET_LED"              #[SW]                               # {7}
SYM   4CE "LOAD_TQ"                 #[UW]                               # {7}
SYM   4D0 "PURE_DELAY"              #[UY]                               # {7}
SYM   4D1 "TR_NO_STALL"             #[UY]                               # {7}
SYM   4D4 "COOL_DLT_PRE"            #[SW]                               # {7}
SYM   4D6 "COOL_PI"                 #[UW]                               # {7}
SYM   4D8 "COOL_SMPL"               #[UW]                               # {7}
SYM   4DA "COOL_PI_INT"             #[UY]                               # {7}
SYM   4DB "CHT_LVL1"                #[UY]                               # {7}
SYM   4DC "CHT_LVL2"                #[UY]                               # {7}
SYM   4DD "CHT_LVL3"                #[UY]                               # {7}

SYM   4DE "TRQ_FLAGS"               #[UY]                               # {7}
#SYM   4DE "WOT_DLY_DSBL"            :B0                                 # {7}
SYM   4DE "CHTIL_TMR_DN"            :B0                                 # {7}
SYM   4DE "CHTIL_TMR_UP"            :B1                                 # {7}
SYM   4DE "TQ_TIP_FLG"              :B2                                 # {7}
SYM   4DE "DPMIN_FLG"               :B3                                 # {7}
SYM   4DE "TRAC_ENG_OPT"            :B4                                 # {7}
SYM   4DE "EGR_TRQ_DIS"             :B5                                 # {7}
SYM   4DE "INJ_FLG"                 :B6                                 # {7}
SYM   4DE "TQ_EXT_FLG"              :B7                                 # {7}

SYM   4DF "FLAG_R4DF"               #[UY]                               # {7}
SYM   4DF "SPK_TQ_RATIO_??"            :B7              #X 0-1             #Torque ratio to be obtained by retarding spark Init. Value: 1 Resolution: 0.008{7}


SYM   4E0 "TQ_LIM_TRANS"            #[SW]                               # {7}
SYM   4E4 "TQ_LIM_TRAC"             #[SW]            #FT_LB -1020-1020  #Maximum net engine torque allowed by traction control {7}
SYM   4E6 "NEGRVBAR"                #[  ]            #REV/MIN 0-16383.75#Filtered engine speed for gear ratio calculations {7}
SYM   4E8 "VS_SRC"                  #[UW]                               # {7}
SYM   4EA "VS"                      #[UW]                               # {7}
SYM   4EC "TOT_FM_DES"              #[SW]                               # {7}

SYM   4EF "SS1_ISOK_CTR"            #[UY]                               # {7}

SYM   4F6 "BIAS_JUMP1"              #[SW]                               # {7}
SYM   4F8 "BIAS_JUMP2"              #[SW]                               # {7}
SYM   4FA "SPK_EDIS_INS"            #[UY]                               # {7}

SYM   500 "SCP_TXQUEUE"             #[UY]                               # {7}
SYM   512 "RZA_51C"                 #[ W]                               # {7}
SYM   514 "SCP_ODU_RAM"             #[UY]                               #This parameter is a PID of single word length which provides the beginning address of the ODU user RAM area {7}
#SYM   5DA "SCP_ODU_RAM"             #[UW]                               #This parameter is a PID of single word length which provides the beginning address of the ODU user RAM area {7}
SYM   5DC "SCP_RX_MESSAGE"          #[UY]                               # {7}
SYM   5DE "TRANSM_STATUS"              #[ Y]                               # {7}
SYM   5DF "SCP_CHL_RSP1_??"            #[UY]                               # {7} VALUE IS WORD IN CODE
SYM   5E0 "SCP_CHL_RSP2_??"            #[UY]                               # {7}
SYM   5E1 "SCP_CHL_RSP3_??"            #[UY]                               # {7}
SYM   5E2 "SCP_CHL_RSP4_??"            #[UY]                               # {7}





SYM   5E5 "SCP_ARRAY"               #[UY]                               # {7}
SYM   5EC "GENERAL_RESPONSE"        #[UY]                               # "SCP_GEN_RES" IN RZASA LISTED AS "GENERAL_REPONSE" IN DOCS {7}

SYM   5F1 "SCP_PKT1_ARRAY"          #[UY]                               # {7}
SYM   5F8 "SCP_CD_ARRAY"            #[UY]                               # {7}
SYM   600 "ADAP_TD_CNT1"            #[UY]                               # {7}
SYM   601 "ADAP_TD_CNT2"            #[UY]                               # {7}
SYM   602 "JUMP_DEST1"              #[UW]                               # {7}
SYM   604 "JUMP_DEST2"              #[UW]                               # {7}
SYM   606 "LAMBSE_MAX1"             #[UW]                               # {7}
SYM   608 "LAMBSE_MAX2"             #[UW]                               # {7}
SYM   60A "LAMBSE_MIN1"             #[UW]                               # {7}
SYM   60C "LAMBSE_MIN2"             #[UW]                               # {7}
SYM   60E "PTPAMP_AVG1"             #[UW]                               # {7}
SYM   610 "PTPAMP_AVG2"             #[UW]                               # {7}
SYM   612 "PTPERROR1"               #[SW]                               # {7}
SYM   614 "PTPERROR2"               #[SW]                               # {7}
SYM   616 "TD_BASE[BANK1]"          #[UW]                               # {7}
SYM   618 "TD_BASE[BANK2]"          #[UW]                               # {7}
SYM   61A "TD_SEC1"                 #[UW]                               # {7}
SYM   61C "TD_SEC2"                 #[UW]                               # {7}

SYM   626 "EGOSTATE_T11"            #[SY]                               # {7}
SYM   627 "EGOSTATE_T21"            #[SY]                               # {7}
SYM   628 "FAR_MUL_1"               #[UW]                               # {7}
SYM   62A "FAR_MUL_RSP"             #[B 0 7]                            # {7}
SYM   62B "FAR_MUL_SCP"             #[B 0 7]                            # {7}
SYM   62C "OLF_C_MULT"              #[U ]              #X 0-1.99        #Throttle-based  background  fuel  multiplier  (formerly  'C' multiplier), unitless. Init. Value: 0 Resolution: 0.0078 {7} 
SYM   62D "OLF_LN_MULT"             #[UY]              #X 0-1.99        #Enleanment multiplier to allow a timed-delay enrichment for LAMBSE_DRV, unitless.Init. Value: 1 Resolution: 0.0078 {7} 
SYM   62E "FAR_MUL"                 #[UY]                               # {7}
SYM   62F "FAR_MUL_CHK"             #[UY]              #X 0-1.992188    #One's complement of FAR_MUL_SCP, used for validity check Resolution: 0.007812 {7}
SYM   630 "FUL_BASE_CLD"            #[UY]              #X 0-1.992188    #Base open loop fuel calculation input during cold engine operation.  Equated to the output of FN1362  Resolution: 0.0078 {7}
#SYM   62B "CRK_INJ_MUL"             #[UY]              #X 0-3.98        #PIP-based, crank fuel enrichment multiplier to replenish wall wetting during engine start Init. Value: 0.Resolution: 0.01560 {1}
SYM   631 "CRK_INJ_MUL"             #[UY]              #X 0-3.98        #PIP-based, crank fuel enrichment multiplier to replenish wall wetting during engine start Init. Value: 0.Resolution: 0.01560 {1}
SYM   632 "CRKTMP"                  #[SY]              #Deg -40-254     #COMBINATION OF ACT AND ECT USED IN CALCULATING CRANKING FUEL Init. Value: 0. Resolution: 2.0 {7}

SYM   633 "DFSO_FLAGS"              #[UY]                               # {7}
SYM   633 "TRN_DFS_RQST"            :B0                                 # {7}
SYM   633 "DCELQ4"                  :B2                                 #DECEL FUEL FLIP-FLOP #4 {7}
SYM   633 "FLG_DFSO_NOV"            :B3                                 #DFSO NOVS FLIP-FLOP {7}
SYM   633 "TRN_DFS_DSBL"            :B4                                 # {7}
SYM   633 "FLG_DFSO_LOA"            :B5                                 #DFSO LOAD FLIP-FLOP {7}
SYM   633 "DFSVS_HYS_FG"            :B6                                 #decel_fuel Veh Speed fflop {7}



SYM   634 "FUL_UNDS_MUL"            #[UY]              #X 0-1.984375    #Underspeed fuel multiplier, used to enrich F_A_RATIOn on runups to idle.Init. Value: 1.0 Resolution: 0.015625 {7}

SYM   635 "SADP_FLAGS"              #[UY]                               # {7}
SYM   635 "DFS_VS_FLG"              :B0                                 # {7}
SYM   635 "OL_HOT_FP"               :B1                                 #FIRST PASS OF OPEN LOOP HOT AND STABLE CRITERIA {7}
#SYM   635 "DFS_TP_FLG"              :B1                                 # {7}
SYM   635 "DFS_CAT_FLG"             :B2                                 # {7}
SYM   635 "OL_HOT_FP"               :B3                                 # {7}
SYM   635 "OK_RAMP"                 :B5                                 # {7}
SYM   635 "OLRAMP_FLG"              :B6                                 # {7}
SYM   635 "SADP_FLG"                :B7                                 # {7}



SYM   636 "P1270_FIL"               #[UY]                               # {7}
SYM   637 "FUEL_APT_LST"            #[SY]                               # {7}
SYM   638 "FN016_N"                 #[UW]               #X 0-10         #NORMALIZED VALUE OF N (FN016) Resolution: 0.0625 {7}
SYM   63A "FN012_LOAD"              #[UW]               #X 0-8          #Normalized LOAD using FN012 Resolution: 0.0625 {7}
SYM   63C "FN028_TP_REL"            #[U ]               #X 0-5          #NORMALIZED TP_REL (FN028) Resolution: 0.03125 {7} 
SYM   63E "FN029_EXTCMD"            #[U ]               #X 0-5          #NORMALIZED VALUE OF EXT_CMD (FN029) Resolution: 0.03125 {7}
SYM   640 "FN011_N"                 #[UY]               #X 0-5          #NORMALIZED N (FN011) Init. Value: 0.0 Resolution: 0.0625 {7}
SYM   641 "FN017_N"                 #[UY]               #X 0-5          #NORMALIZED N (FN017) Resolution: 0.0625 {7}
SYM   642 "FN017D_N"                #[UY]               #X 0-5          #Look-up value for normalizing function FN017D Resolution: 0.0625 {7}
SYM   643 "FN013_LOAD"              #[UY]               #X 0-4          #Normalized Value of LOAD (FN013) Resolution: 0.0625 {7}
SYM   644 "FN013B_LOAD"             #[UY]               #X 0-4          #Look-up value for normalizing function FN013B Resolution: 0.0625 {7}
SYM   645 "FN013C_LOAD"             #[UY]               #X 0-4          #Normalized Value of LOAD (FN013c) Resolution: 0.0625 {7}
SYM   646 "FN014_ECT"               #[UY]               #X 0-5          #Normalized value of ECT (FN014) Resolution: 0.0625 {7}
SYM   647 "FN014ALT_ECT"            #[UY]               #X 0-5          #NORMALIZED ECT (FN014_ALT) Resolution: 0.0625 {7} 
SYM   648 "FN015_LAMBSE"            #[UY]               #X 0-4          #NORMALIZED VALUE OF LAMSE (FN015) Resolution: 0.0625 {7}
SYM   649 "FN015W_LAM"              #[UU]               #X 0-7          #Normalized SPK_LAMBSE from FN015W Resolution: 0.0625 {7}
SYM   64A "FN018F_ATMR3"            #[UY]               #X 0-5          #Look-up value of normalizing function FN018F Resolution: 0.0625 {7}
SYM   64B "FN020C_ECT"              #[UY}               #X 0-6          #NORMALIZED ECT (FN020C) Init. Value: 0 Resolution: 0.0625 {7}
SYM   64C "FN020D_ECT"              #[UY]               #X 0-6          #Look-up value of normalizing function FN020D Resolution: 0.0625 {7}
SYM   64D "FN024F_ACT"              #[UY]               #X 0-5          #Normalized ACT from FN024F Init. Value: 0 Resolution: 0.0625 {7}
SYM   64E "FN024G_ACT"              #[UY]               #X 0-6          #Normalized ACT from FN024G Init. Value: 0.0 Resolution: 0.0625 {7}
SYM   64F "FN070x_N"                #[U ]               #X 0-9          #Normalized engine speed from FN070X Resolution: 0.0625 {7}
SYM   651 "SPK_UP_CLP"              #[UY]               #Deg 0-60       #Upper spark clip value calculated in background and applied in foreground Init. Value: 50 Resolution: 0.25 {7}
SYM   652 "SPK_NUMCYL"              #[UY]               #X 1-16         #Number of engine cylinders. Init. Value: 4.0 Resolution: 1.0 {7}
SYM   653 "SPK_CMB_ADJ"             #[SY]               #Deg -32-31.75  #SPARK MODIFIER FOR ENGINE COMBUSTION HARSHNESS Resolution: 0.25 {7}
SYM   654 "SPK_MAX_TRET"            #[SY]               #Deg Adv -63.5-63#Maximum spark retard during air-charge based tip-in knock control Resolution: 0.5 {7}
SYM   655 "SPK_SRC_TRNC"            #[UY]               #X 0-255        #Identifies the source calculation for the torque truncation spark advance value Resolution: 1.0 {7}
SYM   656 "SPK_SRC_LOLD"            #[UY]               #X 0-255        #Identifies the source calculation for the low load spark advance value. Init. Value: 0 Resolution: 1 {7}
SYM   657 "SPK_SOURCE"              #[UY]               #X 0-255        #Identifies the source calculation for the final spark value {7}
#   SPK_SOURCE values if using the torque control chapter:
#
#         0       Crank or underspeed
#         1       Base
#         2       Borderline
#         3       Torque control - see TQ_SOURCE for further
#                    clarification of torque truncation source
#         4       Pre-ignition
#         6       Stabilized low load
#         7       Cold engine low load
#         8       Idle feedback at minimum clip
#         9       Idle feedback
#         10      Spark set by on-demand self-test
#         11      Oscillation modulation modifying base
#         12      Oscillation modulation modifying borderline
#         13      Oscillation modulation modifying torque control
#         14      Oscillation modulation modifying pre-ignition
#
#  SPK_SOURCE values if not using the torque control chapter:
#
#         0       Crank or underspeed
#         1       Base
#         2       Borderline
#         3       Tip-in torque truncation
#         4       Transmission gear torque truncation
#         5       Vehicle speed limiter torque truncation
#         6       Stabilized low load
#         7       Cold engine low load
#         8       Idle feedback at minimum clip
#         9       Idle feedback
#         10      Spark set by on-demand self-test
#         11      Oscillation modulation modifying base
#         12      Oscillation modulation modifying borderline
#         13      Oscillation modulation modifying torque control
SYM   658 "SPK_SRC_IFB"             #[UY]               #X 0-255        #Identifies the source calculation for the idle feedback spark advance value. Init. Value: 0 Resolution: 1 {7}
SYM   659 "SPK_SRC_FLEX"            #[UY]               #X 0-255        #Identifies the source calculation for the flexible spark advance limit Init. Value: 0 Resolution: 1 {7}
SYM   65A "SPK_SRC_ABS"             #[UY]               #X 0-255        #Identifies the source calculation for the absolute spark N advance limit Init. Value: 0 Resolution: 1 {7}
SYM   65B "SPK_STATE"               #[UY]               #X 0-255        #SPARK STATE FOR FEEDBACK SPARK Init. Value: 0 Resolution: 1 {7}
SYM   65C "SPK_TIPSTATE"            #[UY]               #X 0-7          #State transition variable for air-charge based tip-in knock control Resolution: 1 {7}
#   The foreground logic executes in 4 states (spk_tipstate):
#
#          0 = No tip-in is present
#          1 = Tip-in event has been sensed
#          2 = Searching for the peak rise-rate of the cylinder air charge
#          3 = End of tip-in event has been sensed


SYM   65D "SPK_TIPSLOPE"            #[UY]               #DEG/LBM 0-130560#Spark retard per change in cylinder air charge for detonation prevention Resolution: 512 {7}
SYM   65E "SPK_TIP_MAX"             #[SY]               #DEG -32-0      #Initial spark retard upon sensing a tip-in event based on throttle-position Resolution: 0.25 {7}


SYM   65F "FLAG_R65F"               #[UY]                               # {7}
SYM   65F "SPK_OCT_ADJ"             :B3                                 #Flag to request addition of borderline octane adjustment.  1 -> add adjustment. {7}
SYM   65F "KNK_FSC_DIS"             :B5                                 #Disable knock control when in fail-safe cooling mode when set to 1  {7}

SYM   660 "PM(WORD)"                #[UW]                               #percent methanol {7}
SYM   661 "PM(BYTE)"                #[UY]                               #percent methanol {7}
SYM   662 "FN071W_LOAD"             #[UY]                #X 0-7         #Normalized load from FN071W Init. Value: 0 Resolution: 0.0625 {7}
SYM   663 "SCP_PATS_ST"             #[UY]                #X 0-255       #Key read status.  (The data received over SCP.)Init. Value: 1.0 Resolution: 1 {7}
SYM   663 "TX_OUTCODE3"             :B7 #[B 0 7]         #X 0-255       #Third byte of outcode.Init. Value: 0 Resolution: 1.0 {7}


SYM   670 "CAT_MONF_EX1"            #[UY]                               # {7}
SYM   670 "CAT_TST_PRG"             :B1                                 # {7}
SYM   670 "CAT_ENA_PREV"            :B2                                 # {7}
SYM   670 "CAT_AQU_RDY1"            :B3                                 # {7}
SYM   670 "CAT_AQU_LS1"             :B7                                 # {7}
SYM   671 "CAT_MONF_EX2"            #[UY]                               # {7}
SYM   671 "CAT_TST_RDY2"            :B0                                 # {7}
SYM   671 "CAT_UNKWN"               :B1                                 # {7}
SYM   671 "CAT_AQU_RDY2"            :B3                                 # {7}
SYM   671 "CAT_SINGLE"              :B4                                 # {7}
SYM   671 "CAT_DUAL"                :B5                                 # {7}
SYM   671 "CAT_YPIPE"               :B6                                 # {7}
SYM   671 "CAT_AQU_LS2"             :B7                                 # {7}

SYM   672 "SR_29_TM"                #[  ]                               # {7}
#SYM   674 "NUMMIS"                  #[UW]                               # {7}


SYM   674 "TOTEVENTS_??"               #[UW]                               # {7} L_97D68 37.1.1.2  Mis_clear_event_counters
SYM   678 "TOTNOCALL"               #[UW]                               # {7}
SYM   67A "CF_VARIANCE"             #[UW]                               # {7}
SYM   67C "CF_CHECKSUM"             #[UW]                               # {7}
SYM   67E "CF_CHECKSUM_EXT"         #[UY]                               # {7}
SYM   67F "TOTNUMMIS_??"               #[  ]                               # {7} L_97D71 37.1.1.2  Mis_clear_event_counters
#SYM   67F "NUMMIS_H"                #[UY]                               # {7}
SYM   680 "INJx_ON_??"              #[UY]                               #???????? SUB 29.1.14.4 {7}
SYM   681 "TOTNOCALL_H"             #[UY]                               # {7}

SYM   682 "MIS_KAM_BG1"             #[UY]                               # {7}
SYM   682 "MFF_NDSFLG"              :B4                                 # {7}
SYM   682 "MFF_HOLD_FLG"            :B5                                 # {7}
SYM   682 "CF_RDY"                  :B6                                 # {7} L_97ec3
SYM   682 "CF_KAM_MTR"              :B7                                 # {7}

SYM   683 "KAMQA"                   #[UY]                               # {7}

SYM   6AC "AIR_OLD_HTIC"            #[UY]                               # {7}

SYM   6AD "AIR_BACK_FLAGS"          #[UY]                               # {7}
SYM   6AD "P0102_INST"              :B2                                 # {7}
SYM   6AD "P0103_INST"              :B3                                 # {7}
SYM   6AD "AIR_VBAT_LOW"            :B4                                 # {7}
SYM   6AD "AIR_BRK_INIT"            :B6                                 #Flag indicating that brake compensation variables have been initialized {7}
SYM   6AD "AIR_BIFLGLST"            :B7                                 #Flag indicating state of biflg on the previous pass through routine {7}


SYM   6B2 "ADP_STATE[1][1]"         #[UY]                #ENUM 0-255    #State machine which controls the switchpoint stuck detection and recovery logic.Init. Value: 0.0 Resolution: 1.0 #[NUM_BANKS][NUM_STREAMS] {7}
SYM   6B3 "ADP_STATE[2][1]"         #[UY]                #ENUM 0-255    #State machine which controls the switchpoint stuck detection and recovery logic.Init. Value: 0.0 Resolution: 1.0 #[NUM_BANKS][NUM_STREAMS] {7}
SYM   6B4 "CSD_CUMLT[1][1]"         #[UY]                #EVENTS 0-255  #Cumulative count of adaptive switchpoint crossovers (CSD conditions).Init. Value: 0 Resolution: 1.0 #[NUM_BANKS][NUM_STREAMS] {7}
SYM   6B5 "CSD_CUMLT[2][1]"         #[UY]                #EVENTS 0-255  #Cumulative count of adaptive switchpoint crossovers (CSD conditions).Init. Value: 0 Resolution: 1.0 #[NUM_BANKS][NUM_STREAMS] {7}
SYM   6B6 "DFIB_RETRY[1][1]"        #[UY]                #EVENTS 0-255  #Count number of consecutive switchpoint recovery attempts Init. Value: 0 Resolution: 1.0 #[NUM_BANKS][NUM_STREAMS] {7}
SYM   6B7 "DFIB_RETRY[2][1]"        #[UY]                #EVENTS 0-255  #Count number of consecutive switchpoint recovery attempts Init. Value: 0 Resolution: 1.0 #[NUM_BANKS][NUM_STREAMS] {7}
SYM   6B8 "PIPLMT_HIG"              #[UW]                               # {7}
SYM   6BA "BP_OK_KACC"              #[UY]                #Sec 0-1023.984009#BP being inferred elapsed time, stored in KAM Init. Value: 0 Resolution: 0.015625 {7}
SYM   6BC "ENGT_KAM"                #[S ]                #Deg -4096-4095.875#Engine temperature (ECT or CHT) stored in KAM on key-off Init. Value: 60 Resolution: 2 {7}
SYM   6BE "SOAK_ENGT"               #[SW]                               # {7}

SYM   6C0 "PATS_KAM_FGS"            #[UY]                               # {7}
SYM   6C0 "PCM_ID_STAT"             :B6                                 # {7}

SYM   6C1 "RESP_CTR"                #[UY]                               # {7}
SYM   6C2 "TD_HEGO_S[BANK1]"        #[SW]                               # {7}
SYM   6C4 "TD_HEGO_S[BANK2]"        #[SW]                               # {7}
SYM   6C6 "RF_LTMTB100"             #[UY]                               # {7}

SYM   6F3 "FP_FRT_KAM"              #[SY]                               # {7}
SYM   6F4 "THEFT_STATE"             #[UY]                               # {7}

SYM   6F8 "LOAD_LAST"               #[UW]                               # {7}
SYM   6FA "ACLTMR"                  #[UY]                               # {7}
SYM   6FB "RIDE_FLG"                #[UY]                               # {7}
SYM   6FB "ACL_FIRM"                :B0                                 # {7}
SYM   6FB "FLG_VS_RIDE"             :B1                                 # {7}
SYM   6FB "FLG_TP_RIDE"             :B2                                 # {7}
SYM   6FB "FLG_LOAD_RIDE"           :B3                                 # {7}
SYM   6FB "FLG_GEAR_RIDE"           :B4                                 # {7}
SYM   6FB "ACL_DCL"                 :B5                                 # {7}
SYM   6FB "ACL2_PLSE"               :B6                                 # {7}
SYM   6FB "ACL2_FLG"                :B7                                 # {7}

SYM   6FC "PFS1_CNTS"               #[UW]                               # {7}
SYM   6FE "PFS2_CNTS"               #[UW]                               # {7}

SYM   700 "ECT_FIL_MAX"             #[UY]                               # {7}
SYM   701 "ACT_FIL_MAX"             #[UY]                               # {7}
SYM   702 "TP_FIL_MAX"              #[UY]                               # {7}
SYM   703 "MAF_FIL_MAX"             #[UY]                               # {7}
SYM   704 "SAPW_DES_??"                #[  ]                 #US 0-65535   #HDR SPARK PW (CLOCK TICKS) - DESIRED, AN INTERMEDIATE VALUE Init. Value: 0 Resolution: 1 {7}
#SYM   704 "VS_FIL_MAX"              #[UY]                               # {7}
SYM   70A "KCAT_MONF_EX1"           #[UY]                               # {7}
SYM   70A "KCAT_DN1_FLG"            :B6                                 # {7}
SYM   70A "KCAT1_FAILED"            :B7                                 # {7}
SYM   70B "KCAT_MONF_EX2"           #[UY]                               # {7}
SYM   70B "KCAT_DN2_FLG"            :B6                                 # {7}
SYM   70B "KCAT2_FAILED"            :B7                                 # {7}
SYM   70C "R_BIAS_AVG1"             #[SW]                               # {7}
SYM   70E "R_BIAS_AVG2"             #[SW]                               # {7}

SYM   725 "HEGO_11_FLG2"            #[UY]                               # {7}
SYM   725 "EGO_STAT11"              :B0                                 # {7}
SYM   725 "EGO_US11"                :B2                                 # {7}
SYM   726 "VEGO_AMP11"              #[UW]                               # {7}

SYM   72F "FAILED_BANK"             #[UY]                               # {7}

SYM   747 "HEGO_21_FLG2"            #[UY]                               # {7}
SYM   747 "EGO_STAT21"              :B0                                 # {7}
SYM   747 "EGO_US21"                :B2                                 # {7}
SYM   748 "VEGO_AMP21"              #[UW]                               # {7}

SYM   751 "MIL_ON_FLAG2"            #[UY]                               # {7}
SYM   751 "COOL_MIL_ON"             :B0                                 # {7}
SYM   751 "CL_MIL_ON"               :B1                                 # {7}
SYM   751 "DRIVE_CYCLE"             :B2                                 # {7}
SYM   751 "P0456_MIL_ON"            :B3                                 # {7}
SYM   751 "FCAP_MIL_ON"             :B4                                 # {7}



SYM   758 "BG_TMR"                  #[UW]                               # {7}
SYM   75A "CLOCK_SEC"               #[UW]                               # {7}
SYM   75C "NDBAR"                   #[UW]                               # {7}
SYM   75E "ACSTRT_ACCUM"            #[SW]                               # {7}

SYM   760 "VBATW"                   #[UW]                               # {7}
SYM   761 "vBAT"                    #[??=flo(X*1)]       #Volts         #Battery voltage reference. {3}
SYM   762 "ACSTRT"                  #[SY]                               # {7}
SYM   763 "ATMR1_LST"               #[UY]                               # {0}
SYM   764 "MULT_BP212A"             #[UY]                               # {7}
SYM   765 "N_BYTE"                  #[UY]                               # {7}
SYM   766 "IBAP"                    #[UY]                               # {7}
SYM   767 "KNK_THRESH_1"            #[UY]                               # {7}
SYM   768 "KNK_THRESH_2??"            #[UY]                               # {7}
SYM   769 "KNK_THRESH_3??"            #[UY]                               # {7}
SYM   76A "KNK_THRESH_4??"            #[UY]                               # {7}
SYM   76B "KNK_THRESH_5??"            #[UY]                               # {7}
SYM   76C "KNK_THRESH_6??"            #[UY]                               # {7}
SYM   76D "KNK_THRESH_7??"            #[UY]                               # {7}
SYM   76E "KNK_THRESH_8??"            #[UY]                               # {7}
SYM   76F "KNK_THRESH_9??"            #[UY]                               # {7}
SYM   770 "KNK_THRESH10??"            #[UY]                               # {7}

SYM   771 "DN_EV_CONST"             #[UY]                               # {7}
SYM   772 "UP_EV_CONST"             #[UY]                               # {7}
SYM   773 "DN_EV_PREV"              #[UY]                               # {7}
SYM   774 "UP_EV_PREV"              #[UY]                               # {7}
SYM   775 "KNK_FAST_CTR"            #[UY]                               # {7}

SYM   77A "FF_CODE"                 #[UW]                               # {7}
SYM   77C "FF_KAMREF1"              #[UW]                               # {7}
SYM   77E "FF_KAMREF2"              #[UW]                               # {7}
SYM   780 "FF_LAMBSE1"              #[UW]                               # {7}
SYM   782 "FF_LAMBSE2"              #[UW]                               # {7}
SYM   784 "FF_LOAD"                 #[UW]                               # {7}
SYM   786 "FF_N"                    #[UW]                               # {7}
SYM   788 "FF_ECT"                  #[UW]                               # {7}
SYM   78A "FF_VSBAR"                #[UW]                               # {7}


SYM   78B "NUM_CODES"               #[UY]                               # {7}
SYM   78C "CAT_COUNT"               #[UY]                               # {1}
SYM   78D "PURG_COUNT"              #[UY]                               # {1}
SYM   78E "SAIR_COUNT"              #[UY]                               # {1}
SYM   78F "EGO_COUNT"               #[UY]                               # {1}
SYM   790 "EGR_COUNT"               #[UY]                               # {1}
SYM   791 "TRIP_COUNT"              #[UY]                               # {1}
SYM   792 "DRIVE_COUNT"             #[UW]                               # {7}
SYM   794 "CODES_COUNT"             #[UY]                               # {7}
SYM   795 "OD_CODE_CNT"             #[UY]                               # {7}
SYM   796 "MIS_FF_CODE"             #[UW]                               # {7}
SYM   798 "UNK_MIS_CODE"            #[UW]                               # {7}
SYM   79A "RATKAM"                  #[UW]                               # {7}
SYM   79C "ISCKAM0"                 #[SW]             #LBM/MIN -8-7.999756#isckam[NUM_ISCKAM_CELLS] IDLE SPEED KAM IPSIBR CELL 1 {7}
SYM   79E "ISCKAM1"                 #[SW]             #LBM/MIN -8-7.999756# {7}
SYM   7A0 "ISCKAM2"                 #[SW]             #LBM/MIN -8-7.999756# {7}
SYM   7A2 "ISCKAM3"                 #[SW]             #LBM/MIN -8-7.999756# {7}
SYM   7A4 "ISKSUM"                  #[SW]             #LBM/MIN -8-7.999756#IDEL ADAPTIVE AIRFLOW CHECK SUM {7}
SYM   7A6 "EPTZER"                  #[UW]                               # {7}
SYM   7A8 "EPTZER_OFF"              #[UW]                               # {7}
SYM   7AA "ALC_STRT_KAM"            #[UW]                               #Word in KAM whose high byte is NO_OF_STARTS and whose low byte is NO_START_CHK (ONLY DO WORD WRITES) {7}
#SYM   7AA "NO_START_CHK"            #[UY]                              #1's cmpl of  valid  NO_OF_STARTS.   Lo  byte  of  ALC_STRT_KAM.   Modify  only  with  WORD  write  to ALC_STRT_KAM  {7}
#SYM   7AB "NO_OF_STARTS"            #[UY]                              #Number of starts using alternative calibration. Hi byte of  ALC_STRT_KAM. Modify only with WORD write {7}
SYM   7AC "RT_NOVS_KAM"             #[UW]                               # {7}
SYM   7AE "KWUCTR"                  #[UY]                               # {7}
SYM   7AF "GR_CM_KAM"               #[UY]                               # {7}
SYM   7B0 "CHKSUM"                  #[UW]                               # {7}
SYM   7B2 "KAMRF[BANK1]"            #[UW]             #X 0-255.996094   #HEGO11 Adaptive Fuel correction factor, used in the Fuel/Air ratio calculation for bank 1.Init. Value: 0 Resolution: 0.003906 {7}
SYM   7B4 "KAMRF[BANK2]"            #[UW]             #X 0-255.996094   #HEGO21 Adaptive Fuel correction factor, used in the Fuel/Air ratio calculation for bank 2.Init. Value: 0 Resolution: 0.003906 {7}
SYM   7B6 "KAM_BAR[BANK1]"          #[UW]             #X 0-255.996094   #Filtered average of KAMRF1 Init. Value: 1.0 Resolution: 0.003906 {7}
SYM   7B8 "KAM_BAR[BANK2]"          #[UW]             #X 0-255.996094   #Filtered average of KAMRF2 Init. Value: 1.0 Resolution: 0.003906 {7}
SYM   7BA "LAM_BAR[BANK1]"          #[UW]             #NORM_AF 0-1.99   #BANK1 Average LAMBSE value for the fuel monitor Init. Value: 1.0 Resolution: 0.000031{7}
SYM   7BC "LAM_BAR[BANK2]"          #[UW]             #NORM_AF 0-1.99   #BANK2 Average LAMBSE value for the fuel monitor Init. Value: 1.0 Resolution: 0.000031{7}
SYM   7BE "SOAK_TIME"               #[UW]                               # {7}
SYM   7C0 "ACTOFF"                  #[SY]                               # {7}
SYM   7C1 "ECTOFF"                  #[SY]                               # {7}

SYM   7C2 "SYS_READY"               #[UY]                               #36.1.1.1.17  Sys_READY Flags {7}
SYM   7C2 "CAT_READY"               :B0                                 # {7}
SYM   7C2 "PURG_READY"              :B2                                 # {7}
SYM   7C2 "SAIR_READY"              :B3                                 # {7}
SYM   7C2 "EGO_READY"               :B5                                 # {7}
SYM   7C2 "EGR_READY"               :B6                                 # {7}
SYM   7C2 "MIL_ON"                  :B7                                 # {7}

SYM   7C3 "SYS_MIL_ON"              #[UY]                               #36.1.1.1.19  Sys_MIL_ON Flags {7}
SYM   7C3 "CAT_MIL_ON"              :B0                                 # {7}
SYM   7C3 "CCM_MIL_ON"              :B1                                 # {7}
SYM   7C3 "PURG_MIL_ON"             :B2                                 # {7}
SYM   7C3 "SAIR_MIL_ON"             :B3                                 # {7}
SYM   7C3 "FUEL_MIL_ON"             :B4                                 # {7}
SYM   7C3 "EGO_MIL_ON"              :B5                                 # {7}
SYM   7C3 "EGR_MIL_ON"              :B6                                 # {7}
SYM   7C3 "MIS_MIL_ON"              :B7                                 # {7}

SYM   7C4 "SOAK_CAT"                #[UW]                               # {7}
SYM   7C6 "SOAK_HICOMP"             #[UW]                               # {7}
SYM   7C8 "BP_WORD"                 #[UW]                               # {7}
SYM   7C9 "BP"                      #[UY]                               # {7}
SYM   7CA "BYLDST"                  #[UW]                               # {7}
SYM   7CC "BYMAST"                  #[UW]                               # {7}
SYM   7CE "DELTOTLD"                #[UW]                               # {7}
SYM   7D0 "PCT_LOAD"                #[UW]                               # {7}
SYM   7D4 "TOTLDST"                 #[UW]                               # {7}
SYM   7D6 "TPLDST"                  #[UW]                               # {7}


SYM   7D8 "KAM_FLAGS"               #[UY]                               # {7}
SYM   7D8 "MIS_MON_KAM"             :B0                                 #same as MIS_MON but stored in KAM {7}
SYM   7D8 "FLG_NOV_KAM"             :B2                                 #FLAG INDICATING AT LEAST ONE UPDATE OF RT_NOVS_KAM HAS OCCURRED SINCE KAM INITILIZATION {7}
SYM   7D8 "FLG_DIS_CSM"             :B3                                 #Disable cont. slip mode flag. 0 - cont. slip enabled, 1 - cont. slip disabled {7}
SYM   7D8 "ACC_KAM_FLG"             :B4                                 #KAM Flag to signify that AC has been engaged {7}
SYM   7D8 "KNK_FMEM_FLG"            :B5                                 #Knock sensor failure flag {7}
SYM   7D8 "CL_SEEN"                 :B6                                 #Flag indicating if closed-loop fuel operation has been seen this driving cycle {7}
SYM   7D8 "LEGOFG11"                :B7                                 #Lack of HEGO11 switching {7}

SYM   7D9 "KAM_FLAGS1"              #[UY]                               # {7}  MAY HAVE FF_OL_HOLD, FF_OL_FDBACK, FF_OL_DM, FF_OL_FAULT, FF_OL_FMEM, FF_FUEL_MIS
SYM   7D9 "FF_FUEL_MIS"             :B6                                 # {7}
SYM   7D9 "LEGOFG21"                :B7                                 #Lack of HEGO21 switching {7}

SYM   7DA "KAM_FLAGS3"              #[UY]                               # {7}
SYM   7DA "CHT_CRIT_FLG"            :B4                                 #CHT is in the critical temperature region flag {7}
SYM   7DA "IMRCLAST_KAM"            :B5                                 #IMRC cycled on previous trip? 1->yes {7}
SYM   7DA "FLI_STK_DONE"            :B7                                 #Fuel level sensor stuck check complete flag, stored in KAM; 1 -> stuck check complete. {7}

SYM   7DB "KAM_FLAGS_FG"            #[UY]                               # {7}
SYM   7DB "INF_LOOP_KAM"            :B7                                 # {7}
SYM   7DC "INFAMB_KAM"              #[SW]               #Deg -1024-1023 #Inferred ambient air temperature, used to initialize the cat. temp. model {7}

SYM   7DE "EXT_FL"                  #[SW]                               # {7}
SYM   7DE "EXT_FL_B4"               :B4                                 # {7}
SYM   7DE "EXT_FL_B7"               :B7                                 # {7}

SYM   7E0 "EXT_FEU"                 #[SW]               #Deg -4095-4096 #Inferred unheated  tip  temperature  at  the  front  HEGO sensor location. Init. Value: 0 Resolution: 0.125 {7}
SYM   7E2 "EXT_FEH"                 #[SW]               #DegF -4095-4096#Inferred heat rise in front EGO tip temperature due to heater on. Init. Value: 0 Resolution: 0.125 {7}

SYM   7E6 "EXT_REU"                 #[SW]               #DegF -4095-4096#Inferred unheated  tip  temperature  at  the  rear  HEGO sensor location.Init. Value: 0 Resolution: 0.125 {7}

SYM   7EA "EXT_CMD"                 #[SW]               #Deg -4095-4096 #Signed inferred catalyst midbed gas temperature {7}
SYM   7EE "HTR_RET_MX11"            #[UY]                               # {7}
SYM   7EF "HTR_RET_MX21"            #[UY]                               # {7}
SYM   7F0 "HTR_RET_MX12"            #[UY]                               # {7}
SYM   7F1 "HTR_RET_MX22"            #[UY]                               # {7}
SYM   7F2 "HTRCM[BANK2][DNS]"       #[UW]                               # {7}
SYM   7F4 "HTRCM[BANK1][DNS]"       #[UW]                               # {7}
SYM   7F6 "HTRCM[BANK2][UPS]"       #[UW]                               # {7}
SYM   7F8 "HTRCM[BANK1][UPS]"       #[UW]                               # {7}

SYM   7FC "ATMR1_LSTKAM"            #[UY]                               # {7}

SYM   800 "MFF_N"                   #[UW]                               # {7}
SYM   802 "MFF_LOAD"                #[UW]                               # {7}
SYM   804 "MFF_EGR"                 #[UW]                               # {7}
SYM   806 "MFF_SOAKTIME"            #[UW]                               # {7}
SYM   808 "MFF_TRIP_CNT"            #[UW]                               # {7}
SYM   80A "MFF_RATE1000"            #[UW]                               # {7}
SYM   80C "MFF_THRS1000"            #[UW]                               # {7}
SYM   80E "MFF_RATE200"             #[UW]                               # {7}
SYM   810 "MFF_THRS200"             #[UW]                               # {7}
SYM   812 "MFF_THRESH"              #[UW]                               # {7}
SYM   814 "MFF_TP"                  #[UW]                               # {7}
SYM   816 "MFF_RUNTIME"             #[UY]                               # {7}
SYM   817 "MFF_ACT"                 #[SY]                               # {7}
SYM   818 "MFF_VSBAR"               #[UY]                               # {7}
SYM   81A "MFF_RATE_1"              #[UW]                               # {7}
SYM   81C "MFF_RATE_2"              #[UW]                               # {7}
SYM   81E "MFF_RATE_3"              #[UW]                               # {7}
SYM   820 "MFF_RATE_4"              #[UW]                               # {7}
SYM   822 "PGM_RUN_CTK"             #[UY]                               # {7}

#SYM   822 "MFF_RATE_5"              #[UW]                               # {7}
SYM   824 "MFF_RATE_6"              #[UW]                               # {7}
SYM   826 "MFF_RATE_7"              #[UW]                               # {7}
SYM   828 "MFF_RATE_8"              #[UW]                               # {7}
#SYM   82A "CF_BITS_TMP"             #[UW]                               # {7}
SYM   82A "HDR_CF[num_tmp]"         #[UW]                               # {7} L_98652


SYM   872 "HDR_TRIP_CNT"            #[UW]                               # {7}
SYM   882 "PGM_RUN_CTK"             #[UY]                               # {7}


SYM   8CE "PGM_P0_PRSK"             #[SW]              #INH20 -64-63.990002#Value of PGM_TANK_PRS stored to KAM in phase 0 for SCP reporting  Resolution: 0.00195 Init. Value: 0 {7}



SYM   8D4 "PGM_BLD_DLTK"            #[SW]                               # {7}

SYM   8D8 "FLI_KAMN"                #[UW]              #X 0-1.99        #Minimum fuel level, stored in KAM, during FLI sensor FMEM test, % fill Init. Value: 0 Resolution: 0.000031 {7}
SYM   8DA "FLI_KAMX"                #[UW]              #X 0-1.99        #Maximum fuel level, stored in KAM, during FLI sensor FMEM test, % fill Init. Value: 0 Resolution: 0.000031 {7}
SYM   8DC "FLI_KAM_TMR_??"          #[UW]              #Sec 0-65535     #Cummulative time, stored in KAM, that FLI sensor has not moved within a specified tolerance band, sec. Init. Value: 0 Resolution: 1 {7}
SYM   8DE "P1463_CNT"               #[UW]              #EVENTS 0-255    #Counter for fault code 1463, Indicates number of consecutive failures of Insufficient A/C head pressure rise Init. Value: 0 Resolution: 1 {7}

SYM   8E0 "VEGO11_FIL2"             #[UW]               #VOLT 0-5       #Second order filtered value of bank1 upstream HEGO voltage Resolution: 0.001 {7}
SYM   8E2 "VEGO21_FIL2"             #[UW]               #VOLT 0-5       #Second order filtered value of bank2 upstream HEGO voltage.Resolution: 0.001 {7}
SYM   8E4 "VEGO12_FIL2"             #[UW]               #VOLT 0-5       #Second order filtered value of bank 1 downstream HEGO voltage.Resolution: 0.001 {7}
SYM   8E6 "SAIR_TMRKW1"             #[UW]               #Sec 0-8191.875 #KAM snapshot of SAIR_LNW_TMR at completion of upstream thermactor flow test. Resolution: 0.125 {7}
SYM   8E8 "SAIR_TMRKW2"             #[UW]               #Sec 0-8191.875 #KAM snapshot of SAIR_LNW_TMR at completion of downstream thermactor flow test Resolution: 0.125 {7}




SYM   8EA "DELPR_FLW"               #[SW]                               # {7}
SYM   8EC "EPTBAR_HOSE"             #[UW]                               # {7}
SYM   8EE "EGRDC_FLW"               #[UW]                               # {7}
SYM   8F0 "EPTBAR_OPN"              #[UW]                               # {7}
SYM   8F2 "EPT_OPN_MAX"             #[UW]                               # {7}
SYM   8F4 "MIN_DELPR_FL"            #[SW]                               # {7}
SYM   8F6 "EXT_FL_MF"               #[SW]                #Deg -4095-4096#Instantaneous inferred exhaust gas flange temperature including misfires Init. Value: 0 Resolution: 0.125 {7}
SYM   8F8 "EXT_CMD_MF"              #[SW]                               # {7}

SYM   900 02000 0D83A "p0107_RECORD"   #[??=flo(X*1)]       #
SYM   900 0D83B 0E6C1 "MIL_CODE_TABLE" #[ W]                #           #MIL CODE TABLE START ADDRESS {7}
SYM   900 0E6C2 0FFFF "p0107_RECORD"   #[??=flo(X*1)]       # 
SYM   900 12000 1FFFF "p0107_RECORD"   #[??=flo(X*1)]       #
SYM   900 82000 8FFFF "p0107_RECORD"   #[??=flo(X*1)]       #
SYM   900 92000 9FFFF "p0107_RECORD"   #[??=flo(X*1)]       #           #Related with OBDII Code P0107. Manifold Absolute Pressure/Barometric Pressure Circuit Low Input {3}
SYM   900 "p0107MIL_ON"             :B4                  #              #p0107MIL_ON {3}
SYM   900 "p0107FAULT"              :B5                  #              #p0107FAULT {3}
SYM   900 "p0107UPDATED"            :B6                  #              #p0107UPDATED {3}
SYM   900 "p0107MALF"               :B7                  #              #p0107MALF {3}
SYM   901 "p0107CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0107. Manifold Absolute Pressure/Barometric Pressure Circuit Low Input {3}
SYM   901 "p0107FAULT_A"            :B7                  #              #p0107FAULT_A {3}
SYM   902 "p0108_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0108. Manifold Absolute Pressure/Barometric Pressure Circuit High Input {3}
SYM   902 "p0108MIL_ON"             :B4                  #              #p0108MIL_ON {3}
SYM   902 "p0108FAULT"              :B5                  #              #p0108FAULT {3}
SYM   902 "p0108UPDATED"            :B6                  #              #p0108UPDATED {3}
SYM   902 "p0108MALF"               :B7                  #              #p0108MALF {3}
SYM   903 "p0108CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0108. Manifold Absolute Pressure/Barometric Pressure Circuit High Input {3}
SYM   903 "p0108FAULT_A"            :B7                  #              #p0108FAULT_A {3}
SYM   904 "p0106_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0106. Manifold Absolute Pressure/Barometric Pressure Circuit Range/Performance Problem {3}
SYM   904 "p0106MIL_ON"             :B4                  #              #p0106MIL_ON {3}
SYM   904 "p0106FAULT"              :B5                  #              #p0106FAULT {3}
SYM   904 "p0106UPDATED"            :B6                  #              #p0106UPDATED {3}
SYM   904 "p0106MALF"               :B7                  #              #p0106MALF {3}
SYM   905 "p0106CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0106. Manifold Absolute Pressure/Barometric Pressure Circuit Range/Performance Problem {3}
SYM   905 "p0106FAULT_A"            :B7                  #              #p0106FAULT_A {3}
SYM   906 "p0112_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0112. Intake Air Temperature Circuit Low Input {3}
SYM   906 "p0112MIL_ON"             :B4                  #              #p0112MIL_ON {3}
SYM   906 "p0112FAULT"              :B5                  #              #p0112FAULT {3}
SYM   906 "p0112UPDATED"            :B6                  #              #p0112UPDATED {3}
SYM   906 "p0112MALF"               :B7                  #              #p0112MALF {3}
SYM   907 "p0112CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0112. Intake Air Temperature Circuit Low Input {3}
SYM   907 "p0112FAULT_A"            :B7                  #              #p0112FAULT_A {3}
SYM   908 "p0113_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0113. Intake Air Temperature Circuit High Input {3}
SYM   908 "p0113MIL_ON"             :B4                  #              #p0113MIL_ON {3}
SYM   908 "p0113FAULT"              :B5                  #              #p0113FAULT {3}
SYM   908 "p0113UPDATED"            :B6                  #              #p0113UPDATED {3}
SYM   908 "p0113MALF"               :B7                  #              #p0113MALF {3}
SYM   909 "p0113CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0113. Intake Air Temperature Circuit High Input {3}
SYM   909 "p0113FAULT_A"            :B7                  #              #p0113FAULT_A {3}
SYM   90A "p0117_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0117. Engine Coolant Temperature Circuit Low Input {3}
SYM   90A "p0117MIL_ON"             :B4                  #              #p0117MIL_ON {3}
SYM   90A "p0117FAULT"              :B5                  #              #p0117FAULT {3}
SYM   90A "p0117UPDATED"            :B6                  #              #p0117UPDATED {3}
SYM   90A "p0117MALF"               :B7                  #              #p0117MALF {3}
SYM   90B "p0117CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0117. Engine Coolant Temperature Circuit Low Input {3}
SYM   90B "p0117FAULT_A"            :B7                  #              #p0117FAULT_A {3}
SYM   90C "p0118_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0118. Engine Coolant Temperature Circuit High Input {3}
SYM   90C "p0118MIL_ON"             :B4                  #              #p0118MIL_ON {3}
SYM   90C "p0118FAULT"              :B5                  #              #p0118FAULT {3}
SYM   90C "p0118UPDATED"            :B6                  #              #p0118UPDATED {3}
SYM   90C "p0118MALF"               :B7                  #              #p0118MALF {3}
SYM   90D "p0118CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0118. Engine Coolant Temperature Circuit High Input {3}
SYM   90D "p0118FAULT_A"            :B7                  #              #p0118FAULT_A {3}
SYM   90E "p0125_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0125. Insufficient Coolant Temperature for Closed Loop Fuel Control; {3}
SYM   90E "p0125MIL_ON"             :B4                  #              #p0125MIL_ON {3}
SYM   90E "p0125FAULT"              :B5                  #              #p0125FAULT {3}
SYM   90E "p0125UPDATED"            :B6                  #              #p0125UPDATED {3}
SYM   90E "p0125MALF"               :B7                  #              #p0125MALF {3}
SYM   90F "p0125CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0125. Insufficient Coolant Temperature for Closed Loop Fuel Control; {3}
SYM   90F "p0125FAULT_A"            :B7                  #              #p0125FAULT_A {3}
SYM   910 "p1714_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1714. Clutch Switch Circuit Malfunction {3}
SYM   910 "p1714MIL_ON"             :B4                  #              #p1714MIL_ON {3}
SYM   910 "p1714FAULT"              :B5                  #              #p1714FAULT {3}
SYM   910 "p1714UPDATED"            :B6                  #              #p1714UPDATED {3}
SYM   910 "p1714MALF"               :B7                  #              #p1714MALF {3}
SYM   911 "p1714CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1714. Clutch Switch Circuit Malfunction {3}
SYM   911 "p1714FAULT_A"            :B7                  #              #p1714FAULT_A {3}
SYM   912 "p1715_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1715. PNP Switch Out Of Self Test Range {3}
SYM   912 "p1715MIL_ON"             :B4                  #              #p1715MIL_ON {3}
SYM   912 "p1715FAULT"              :B5                  #              #p1715FAULT {3}
SYM   912 "p1715UPDATED"            :B6                  #              #p1715UPDATED {3}
SYM   912 "p1715MALF"               :B7                  #              #p1715MALF {3}
SYM   913 "p1715CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1715. PNP Switch Out Of Self Test Range {3}
SYM   913 "p1715FAULT_A"            :B7                  #              #p1715FAULT_A {3}
SYM   914 "p1740_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1740. First Gear Switch Circuit Malfunction {3}
SYM   914 "p1740MIL_ON"             :B4                  #              #p1740MIL_ON {3}
SYM   914 "p1740FAULT"              :B5                  #              #p1740FAULT {3}
SYM   914 "p1740UPDATED"            :B6                  #              #p1740UPDATED {3}
SYM   914 "p1740MALF"               :B7                  #              #p1740MALF {3}
SYM   915 "p1740CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1740. First Gear Switch Circuit Malfunction {3}
SYM   915 "p1740FAULT_A"            :B7                  #              #p1740FAULT_A {3}
SYM   916 "p1742_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1742. Lockup Solenoid System {3}
SYM   916 "p1742MIL_ON"             :B4                  #              #p1742MIL_ON {3}
SYM   916 "p1742FAULT"              :B5                  #              #p1742FAULT {3}
SYM   916 "p1742UPDATED"            :B6                  #              #p1742UPDATED {3}
SYM   916 "p1742MALF"               :B7                  #              #p1742MALF {3}
SYM   917 "p1742CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1742. Lockup Solenoid System {3}
SYM   917 "p1742FAULT_A"            :B7                  #              #p1742FAULT_A {3}
SYM   918 "p1744_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1744. Slip Solenoid System {3}
SYM   918 "p1744MIL_ON"             :B4                  #              #p1744MIL_ON {3}
SYM   918 "p1744FAULT"              :B5                  #              #p1744FAULT {3}
SYM   918 "p1744UPDATED"            :B6                  #              #p1744UPDATED {3}
SYM   918 "p1744MALF"               :B7                  #              #p1744MALF {3}
SYM   919 "p1744CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1744. Slip Solenoid System {3}
SYM   919 "p1744FAULT_A"            :B7                  #              #p1744FAULT_A {3}
SYM   91A "p1747_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1747. Torque Converter Clutch Solenoid Failed On {3}
SYM   91A "p1747MIL_ON"             :B4                  #              #p1747MIL_ON {3}
SYM   91A "p1747FAULT"              :B5                  #              #p1747FAULT {3}
SYM   91A "p1747UPDATED"            :B6                  #              #p1747UPDATED {3}
SYM   91A "p1747MALF"               :B7                  #              #p1747MALF {3}
SYM   91B "p1747CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1747. Torque Converter Clutch Solenoid Failed On {3}
SYM   91B "p1747FAULT_A"            :B7                  #              #p1747FAULT_A {3}
SYM   91C "p0750_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0750. Pressure Control Solenoid Intermittent {3}
SYM   91C "p0750MIL_ON"             :B4                  #              #p0750MIL_ON {3}
SYM   91C "p0750FAULT"              :B5                  #              #p0750FAULT {3}
SYM   91C "p0750UPDATED"            :B6                  #              #p0750UPDATED {3}
SYM   91C "p0750MALF"               :B7                  #              #p0750MALF {3}
SYM   91D "p0750CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0750. Pressure Control Solenoid Intermittent {3}
SYM   91D "p0750FAULT_A"            :B7                  #              #p0750FAULT_A {3}
SYM   91E "p0751_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0751. Shift Solenoid A Malfunction {3}
SYM   91E "p0751MIL_ON"             :B4                  #              #p0751MIL_ON {3}
SYM   91E "p0751FAULT"              :B5                  #              #p0751FAULT {3}
SYM   91E "p0751UPDATED"            :B6                  #              #p0751UPDATED {3}
SYM   91E "p0751MALF"               :B7                  #              #p0751MALF {3}
SYM   91F "p0751CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0751. Shift Solenoid A Malfunction {3}
SYM   91F "p0751FAULT_A"            :B7                  #              #p0751FAULT_A {3}
SYM   920 "p0755_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0755. Shift Solenoid A Electrical/ {3}
SYM   920 "p0755MIL_ON"             :B4                  #              #p0755MIL_ON {3}
SYM   920 "p0755FAULT"              :B5                  #              #p0755FAULT {3}
SYM   920 "p0755UPDATED"            :B6                  #              #p0755UPDATED {3}
SYM   920 "p0755MALF"               :B7                  #              #p0755MALF {3}
SYM   921 "p0755CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0755. Shift Solenoid A Electrical/ {3}
SYM   921 "p0755FAULT_A"            :B7                  #              #p0755FAULT_A {3}
SYM   922 "p0756_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0756. 1-2 Shift Solenoid Circuit Electrical {3}
SYM   922 "p0756MIL_ON"             :B4                  #              #p0756MIL_ON {3}
SYM   922 "p0756FAULT"              :B5                  #              #p0756FAULT {3}
SYM   922 "p0756UPDATED"            :B6                  #              #p0756UPDATED {3}
SYM   922 "p0756MALF"               :B7                  #              #p0756MALF {3}
SYM   923 "p0756CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0756. 1-2 Shift Solenoid Circuit Electrical {3}
SYM   923 "p0756FAULT_A"            :B7                  #              #p0756FAULT_A {3}
SYM   924 "p0102_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0102. Mass or Volume Air Flow Circuit Low Input {3}
SYM   924 "p0102MIL_ON"             :B4                  #              #p0102MIL_ON {3}
SYM   924 "p0102FAULT"              :B5                  #              #p0102FAULT {3}
SYM   924 "p0102UPDATED"            :B6                  #              #p0102UPDATED {3}
SYM   924 "p0102MALF"               :B7                  #              #p0102MALF {3}
SYM   925 "p0102CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0102. Mass or Volume Air Flow Circuit Low Input {3}
SYM   925 "p0102FAULT_A"            :B7                  #              #p0102FAULT_A {3}
SYM   926 "p0103_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0103. Mass or Volume Air Flow Circuit High Input {3}
SYM   926 "p0103MIL_ON"             :B4                  #              #p0103MIL_ON {3}
SYM   926 "p0103FAULT"              :B5                  #              #p0103FAULT {3}
SYM   926 "p0103UPDATED"            :B6                  #              #p0103UPDATED {3}
SYM   926 "p0103MALF"               :B7                  #              #p0103MALF {3}
SYM   927 "p0103CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0103. Mass or Volume Air Flow Circuit High Input {3}
SYM   927 "p0103FAULT_A"            :B7                  #              #p0103FAULT_A {3}
SYM   928 "p1120_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1120. Engine Coolant Temperature (ECT) Sensor Circuit Intermittent High Voltage/IAT - B Circuit High Input {3}
SYM   928 "p1120MIL_ON"             :B4                  #              #p1120MIL_ON {3}
SYM   928 "p1120FAULT"              :B5                  #              #p1120FAULT {3}
SYM   928 "p1120UPDATED"            :B6                  #              #p1120UPDATED {3}
SYM   928 "p1120MALF"               :B7                  #              #p1120MALF {3}
SYM   929 "p1120CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1120. Engine Coolant Temperature (ECT) Sensor Circuit Intermittent High Voltage/IAT - B Circuit High Input {3}
SYM   929 "p1120FAULT_A"            :B7                  #              #p1120FAULT_A {3}
SYM   92A "p0122_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0122. Throttle Position Sensor/Switch A Circuit Low Input {3}
SYM   92A "p0122MIL_ON"             :B4                  #              #p0122MIL_ON {3}
SYM   92A "p0122FAULT"              :B5                  #              #p0122FAULT {3}
SYM   92A "p0122UPDATED"            :B6                  #              #p0122UPDATED {3}
SYM   92A "p0122MALF"               :B7                  #              #p0122MALF {3}
SYM   92B "p0122CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0122. Throttle Position Sensor/Switch A Circuit Low Input {3}
SYM   92B "p0122FAULT_A"            :B7                  #              #p0122FAULT_A {3}
SYM   92C "p0123_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0123. Throttle Position Sensor/Switch A Circuit High Input {3}
SYM   92C "p0123MIL_ON"             :B4                  #              #p0123MIL_ON {3}
SYM   92C "p0123FAULT"              :B5                  #              #p0123FAULT {3}
SYM   92C "p0123UPDATED"            :B6                  #              #p0123UPDATED {3}
SYM   92C "p0123MALF"               :B7                  #              #p0123MALF {3}
SYM   92D "p0123CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0123. Throttle Position Sensor/Switch A Circuit High Input {3}
SYM   92D "p0123FAULT_A"            :B7                  #              #p0123FAULT_A {3}
SYM   92E "p0720_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0720. Torque Converter/Brake Switch B Circuit Low {3}
SYM   92E "p0720MIL_ON"             :B4                  #              #p0720MIL_ON {3}
SYM   92E "p0720FAULT"              :B5                  #              #p0720FAULT {3}
SYM   92E "p0720UPDATED"            :B6                  #              #p0720UPDATED {3}
SYM   92E "p0720MALF"               :B7                  #              #p0720MALF {3}
SYM   92F "p0720CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0720. Torque Converter/Brake Switch B Circuit Low {3}
SYM   92F "p0720FAULT_A"            :B7                  #              #p0720FAULT_A {3}
SYM   930 "p1121_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1121. Engine Coolant sensor out of range/ECT Sensor Out Of Self Test Range {3}
SYM   930 "p1121MIL_ON"             :B4                  #              #p1121MIL_ON {3}
SYM   930 "p1121FAULT"              :B5                  #              #p1121FAULT {3}
SYM   930 "p1121UPDATED"            :B6                  #              #p1121UPDATED {3}#SYM   930 "p1121MALF"               :B7                  #              #p1121MALF {3}
SYM   931 "p1121CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1121. Engine Coolant sensor out of range/ECT Sensor Out Of Self Test Range {3}
SYM   931 "p1121FAULT_A"            :B7                  #              #p1121FAULT_A {3}
SYM   932 "p0500_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0500. Cooling Fan Power/Ground Circuit Malfunction {3}
SYM   932 "p0500MIL_ON"             :B4                  #              #p0500MIL_ON {3}
SYM   932 "p0500FAULT"              :B5                  #              #p0500FAULT {3}
SYM   932 "p0500UPDATED"            :B6                  #              #p0500UPDATED {3}
SYM   932 "p0500MALF"               :B7                  #              #p0500MALF {3}
SYM   933 "p0500CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0500. Cooling Fan Power/Ground Circuit Malfunction {3}
SYM   933 "p0500FAULT_A"            :B7                  #              #p0500FAULT_A {3}
SYM   934 "p0705_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0705. Clutch Switch Input Circuit Malfunction {3}
SYM   934 "p0705MIL_ON"             :B4                  #              #p0705MIL_ON {3}
SYM   934 "p0705FAULT"              :B5                  #              #p0705FAULT {3}
SYM   934 "p0705UPDATED"            :B6                  #              #p0705UPDATED {3}
SYM   934 "p0705MALF"               :B7                  #              #p0705MALF {3}
SYM   935 "p0705CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0705. Clutch Switch Input Circuit Malfunction {3}
SYM   935 "p0705FAULT_A"            :B7                  #              #p0705FAULT_A {3}
SYM   936 "p0707_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0707. Transmission Range Sensor Circuit Range/Performance {3}
SYM   936 "p0707MIL_ON"             :B4                  #              #p0707MIL_ON {3}
SYM   936 "p0707FAULT"              :B5                  #              #p0707FAULT {3}
SYM   936 "p0707UPDATED"            :B6                  #              #p0707UPDATED {3}
SYM   936 "p0707MALF"               :B7                  #              #p0707MALF {3}
SYM   937 "p0707CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0707. Transmission Range Sensor Circuit Range/Performance {3}
SYM   937 "p0707FAULT_A"            :B7                  #              #p0707FAULT_A {3}
SYM   938 "p0708_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0708. Transmission Range Sensor Circuit Low Input {3}
SYM   938 "p0708MIL_ON"             :B4                  #              #p0708MIL_ON {3}
SYM   938 "p0708FAULT"              :B5                  #              #p0708FAULT {3}
SYM   938 "p0708UPDATED"            :B6                  #              #p0708UPDATED {3}
SYM   938 "p0708MALF"               :B7                  #              #p0708MALF {3}
SYM   939 "p0708CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0708. Transmission Range Sensor Circuit Low Input {3}
SYM   939 "p0708FAULT_A"            :B7                  #              #p0708FAULT_A {3}
SYM   93A "p0743_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0743. Torque Converter Clutch Circuit Stuck On {3}
SYM   93A "p0743MIL_ON"             :B4                  #              #p0743MIL_ON {3}
SYM   93A "p0743FAULT"              :B5                  #              #p0743FAULT {3}
SYM   93A "p0743UPDATED"            :B6                  #              #p0743UPDATED {3}
SYM   93A "p0743MALF"               :B7                  #              #p0743MALF {3}
SYM   93B "p0743CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0743. Torque Converter Clutch Circuit Stuck On {3}
SYM   93B "p0743FAULT_A"            :B7                  #              #p0743FAULT_A {3}
SYM   93C "p1704_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1704. Turbo Charge Relief Circuit Malfunction {3}
SYM   93C "p1704MIL_ON"             :B4                  #              #p1704MIL_ON {3}
SYM   93C "p1704FAULT"              :B5                  #              #p1704FAULT {3}
SYM   93C "p1704UPDATED"            :B6                  #              #p1704UPDATED {3}
SYM   93C "p1704MALF"               :B7                  #              #p1704MALF {3}
SYM   93D "p1704CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1704. Turbo Charge Relief Circuit Malfunction {3}
SYM   93D "p1704FAULT_A"            :B7                  #              #p1704FAULT_A {3}
SYM   93E "p0320_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0320. Cylinder 12 Misfire Detected {3}
SYM   93E "p0320MIL_ON"             :B4                  #              #p0320MIL_ON {3}
SYM   93E "p0320FAULT"              :B5                  #              #p0320FAULT {3}
SYM   93E "p0320UPDATED"            :B6                  #              #p0320UPDATED {3}
SYM   93E "p0320MALF"               :B7                  #              #p0320MALF {3}
SYM   93F "p0320CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0320. Cylinder 12 Misfire Detected {3}
SYM   93F "p0320FAULT_A"            :B7                  #              #p0320FAULT_A {3}
SYM   940 "p0340_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0340. Crankshaft Position Sensor A Circuit Intermittent {3}
SYM   940 "p0340MIL_ON"             :B4                  #              #p0340MIL_ON {3}
SYM   940 "p0340FAULT"              :B5                  #              #p0340FAULT {3}
SYM   940 "p0340UPDATED"            :B6                  #              #p0340UPDATED {3}
SYM   940 "p0340MALF"               :B7                  #              #p0340MALF {3}
SYM   941 "p0340CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0340. Crankshaft Position Sensor A Circuit Intermittent {3}
SYM   941 "p0340FAULT_A"            :B7                  #              #p0340FAULT_A {3}
SYM   942 "p0351_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0351. Ignition Coil Primary/Secondary Circuit Malfunction {3}
SYM   942 "p0351MIL_ON"             :B4                  #              #p0351MIL_ON {3}
SYM   942 "p0351FAULT"              :B5                  #              #p0351FAULT {3}
SYM   942 "p0351UPDATED"            :B6                  #              #p0351UPDATED {3}
SYM   942 "p0351MALF"               :B7                  #              #p0351MALF {3}
SYM   943 "p0351CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0351. Ignition Coil Primary/Secondary Circuit Malfunction {3}
SYM   943 "p0351FAULT_A"            :B7                  #              #p0351FAULT_A {3}
SYM   944 "p0352_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0352. Ignition Coil A Primary/Secondary Circuit Malfunction {3}
SYM   944 "p0352MIL_ON"             :B4                  #              #p0352MIL_ON {3}
SYM   944 "p0352FAULT"              :B5                  #              #p0352FAULT {3}
SYM   944 "p0352UPDATED"            :B6                  #              #p0352UPDATED {3}
SYM   944 "p0352MALF"               :B7                  #              #p0352MALF {3}
SYM   945 "p0352CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0352. Ignition Coil A Primary/Secondary Circuit Malfunction {3}
SYM   945 "p0352FAULT_A"            :B7                  #              #p0352FAULT_A {3}
SYM   946 "p0353_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0353. Ignition Coil B Primary/Secondary Circuit Malfunction {3}
SYM   946 "p0353MIL_ON"             :B4                  #              #p0353MIL_ON {3}
SYM   946 "p0353FAULT"              :B5                  #              #p0353FAULT {3}
SYM   946 "p0353UPDATED"            :B6                  #              #p0353UPDATED {3}
SYM   946 "p0353MALF"               :B7                  #              #p0353MALF {3}
SYM   947 "p0353CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0353. Ignition Coil B Primary/Secondary Circuit Malfunction {3}
SYM   947 "p0353FAULT_A"            :B7                  #              #p0353FAULT_A {3}
SYM   948 "p0354_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0354. Ignition Coil C Primary/Secondary Circuit Malfunction {3}
SYM   948 "p0354MIL_ON"             :B4                  #              #p0354MIL_ON {3}
SYM   948 "p0354FAULT"              :B5                  #              #p0354FAULT {3}
SYM   948 "p0354UPDATED"            :B6                  #              #p0354UPDATED {3}
SYM   948 "p0354MALF"               :B7                  #              #p0354MALF {3}
SYM   949 "p0354CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0354. Ignition Coil C Primary/Secondary Circuit Malfunction {3}
SYM   949 "p0354FAULT_A"            :B7                  #              #p0354FAULT_A {3}
SYM   94A "p0355_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0355. Ignition Coil D Primary/Secondary Circuit Malfunction {3}
SYM   94A "p0355MIL_ON"             :B4                  #              #p0355MIL_ON {3}
SYM   94A "p0355FAULT"              :B5                  #              #p0355FAULT {3}
SYM   94A "p0355UPDATED"            :B6                  #              #p0355UPDATED {3}
SYM   94A "p0355MALF"               :B7                  #              #p0355MALF {3}
SYM   94B "p0355CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0355. Ignition Coil D Primary/Secondary Circuit Malfunction {3}
SYM   94B "p0355FAULT_A"            :B7                  #              #p0355FAULT_A {3}
SYM   94C "p0356_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0356. Ignition Coil E Primary/Secondary Circuit Malfunction {3}
SYM   94C "p0356MIL_ON"             :B4                  #              #p0356MIL_ON {3}
SYM   94C "p0356FAULT"              :B5                  #              #p0356FAULT {3}
SYM   94C "p0356UPDATED"            :B6                  #              #p0356UPDATED {3}
SYM   94C "p0356MALF"               :B7                  #              #p0356MALF {3}
SYM   94D "p0356CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0356. Ignition Coil E Primary/Secondary Circuit Malfunction {3}
SYM   94D "p0356FAULT_A"            :B7                  #              #p0356FAULT_A {3}
SYM   94E "p0357_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0357. Ignition Coil F Primary/Secondary Circuit Malfunction {3}
SYM   94E "p0357MIL_ON"             :B4                  #              #p0357MIL_ON {3}
SYM   94E "p0357FAULT"              :B5                  #              #p0357FAULT {3}
SYM   94E "p0357UPDATED"            :B6                  #              #p0357UPDATED {3}
SYM   94E "p0357MALF"               :B7                  #              #p0357MALF {3}
SYM   94F "p0357CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0357. Ignition Coil F Primary/Secondary Circuit Malfunction {3}
SYM   94F "p0357FAULT_A"            :B7                  #              #p0357FAULT_A {3}
SYM   950 "p0358_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0358. Ignition Coil G Primary/Secondary Circuit Malfunction {3}
SYM   950 "p0358MIL_ON"             :B4                  #              #p0358MIL_ON {3}
SYM   950 "p0358FAULT"              :B5                  #              #p0358FAULT {3}
SYM   950 "p0358UPDATED"            :B6                  #              #p0358UPDATED {3}
SYM   950 "p0358MALF"               :B7                  #              #p0358MALF {3}
SYM   951 "p0358CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0358. Ignition Coil G Primary/Secondary Circuit Malfunction {3}
SYM   951 "p0358FAULT_A"            :B7                  #              #p0358FAULT_A {3}
SYM   952 "p0359_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0359. Ignition Coil H Primary/Secondary Circuit Malfunction {3}
SYM   952 "p0359MIL_ON"             :B4                  #              #p0359MIL_ON {3}
SYM   952 "p0359FAULT"              :B5                  #              #p0359FAULT {3}
SYM   952 "p0359UPDATED"            :B6                  #              #p0359UPDATED {3}
SYM   952 "p0359MALF"               :B7                  #              #p0359MALF {3}
SYM   953 "p0359CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0359. Ignition Coil H Primary/Secondary Circuit Malfunction {3}
SYM   953 "p0359FAULT_A"            :B7                  #              #p0359FAULT_A {3}
SYM   954 "p0360_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0360. Ignition Coil I Primary/Secondary Circuit Malfunction {3}
SYM   954 "p0360MIL_ON"             :B4                  #              #p0360MIL_ON {3}
SYM   954 "p0360FAULT"              :B5                  #              #p0360FAULT {3}
SYM   954 "p0360UPDATED"            :B6                  #              #p0360UPDATED {3}
SYM   954 "p0360MALF"               :B7                  #              #p0360MALF {3}
SYM   955 "p0360CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0360. Ignition Coil I Primary/Secondary Circuit Malfunction {3}
SYM   955 "p0360FAULT_A"            :B7                  #              #p0360FAULT_A {3}
SYM   956 "p0350_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0350. Camshaft Position Sensor Circuit Intermittent {3}
SYM   956 "p0350MIL_ON"             :B4                  #              #p0350MIL_ON {3}
SYM   956 "p0350FAULT"              :B5                  #              #p0350FAULT {3}
SYM   956 "p0350UPDATED"            :B6                  #              #p0350UPDATED {3}
SYM   956 "p0350MALF"               :B7                  #              #p0350MALF {3}
SYM   957 "p0350CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0350. Camshaft Position Sensor Circuit Intermittent {3}
SYM   957 "p0350FAULT_A"            :B7                  #              #p0350FAULT_A {3}
SYM   958 "p1504_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1504. TCSPL Solenoid Circuit Malfunction {3}
SYM   958 "p1504MIL_ON"             :B4                  #              #p1504MIL_ON {3}
SYM   958 "p1504FAULT"              :B5                  #              #p1504FAULT {3}
SYM   958 "p1504UPDATED"            :B6                  #              #p1504UPDATED {3}
SYM   958 "p1504MALF"               :B7                  #              #p1504MALF {3}
SYM   959 "p1504CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1504. TCSPL Solenoid Circuit Malfunction {3}
SYM   959 "p1504FAULT_A"            :B7                  #              #p1504FAULT_A {3}
SYM   95A "p1505_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1505. Vehicle Speed Sensor Intermittent {3}
SYM   95A "p1505MIL_ON"             :B4                  #              #p1505MIL_ON {3}
SYM   95A "p1505FAULT"              :B5                  #              #p1505FAULT {3}
SYM   95A "p1505UPDATED"            :B6                  #              #p1505UPDATED {3}
SYM   95A "p1505MALF"               :B7                  #              #p1505MALF {3}
SYM   95B "p1505CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1505. Vehicle Speed Sensor Intermittent {3}
SYM   95B "p1505FAULT_A"            :B7                  #              #p1505FAULT_A {3}
SYM   95C "p1506_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1506. Vehicle Speed Sensor Out Of Self Test Range {3}
SYM   95C "p1506MIL_ON"             :B4                  #              #p1506MIL_ON {3}
SYM   95C "p1506FAULT"              :B5                  #              #p1506FAULT {3}
SYM   95C "p1506UPDATED"            :B6                  #              #p1506UPDATED {3}
SYM   95C "p1506MALF"               :B7                  #              #p1506MALF {3}
SYM   95D "p1506CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1506. Vehicle Speed Sensor Out Of Self Test Range {3}
SYM   95D "p1506FAULT_A"            :B7                  #              #p1506FAULT_A {3}
SYM   95E "p1507_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1507. Vehicle Speed Sensor Intermittent Malfunction {3}
SYM   95E "p1507MIL_ON"             :B4                  #              #p1507MIL_ON {3}
SYM   95E "p1507FAULT"              :B5                  #              #p1507FAULT {3}
SYM   95E "p1507UPDATED"            :B6                  #              #p1507UPDATED {3}
SYM   95E "p1507MALF"               :B7                  #              #p1507MALF {3}
SYM   95F "p1507CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1507. Vehicle Speed Sensor Intermittent Malfunction {3}
SYM   95F "p1507FAULT_A"            :B7                  #              #p1507FAULT_A {3}
SYM   960 "p1516_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1516. Idle Switch (Electric Control Throttle) Circuit Malfunction {3}
SYM   960 "p1516MIL_ON"             :B4                  #              #p1516MIL_ON {3}
SYM   960 "p1516FAULT"              :B5                  #              #p1516FAULT {3}
SYM   960 "p1516UPDATED"            :B6                  #              #p1516UPDATED {3}
SYM   960 "p1516MALF"               :B7                  #              #p1516MALF {3}
SYM   961 "p1516CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1516. Idle Switch (Electric Control Throttle) Circuit Malfunction {3}
SYM   961 "p1516FAULT_A"            :B7                  #              #p1516FAULT_A {3}
SYM   962 "p1517_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1517. Intake Manifold Runner Control (Bank 1) Stuck Closed {3}
SYM   962 "p1517MIL_ON"             :B4                  #              #p1517MIL_ON {3}
SYM   962 "p1517FAULT"              :B5                  #              #p1517FAULT {3}
SYM   962 "p1517UPDATED"            :B6                  #              #p1517UPDATED {3}
SYM   962 "p1517MALF"               :B7                  #              #p1517MALF {3}#SYM   963 "p1517CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1517. Intake Manifold Runner Control (Bank 1) Stuck Closed {3}
SYM   963 "p1517FAULT_A"            :B7                  #              #p1517FAULT_A {3}
SYM   964 "p1518_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1518. Intake Manifold Runner Control (Bank 2) Stuck Closed {3}
SYM   964 "p1518MIL_ON"             :B4                  #              #p1518MIL_ON {3}
SYM   964 "p1518FAULT"              :B5                  #              #p1518FAULT {3}
SYM   964 "p1518UPDATED"            :B6                  #              #p1518UPDATED {3}
SYM   964 "p1518MALF"               :B7                  #              #p1518MALF {3}#SYM   965 "p1518CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1518. Intake Manifold Runner Control (Bank 2) Stuck Closed {3}
SYM   965 "p1518FAULT_A"            :B7                  #              #p1518FAULT_A {3}
SYM   966 "p1520_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1520. Electric Current Circuit Malfunction {3}
SYM   966 "p1520MIL_ON"             :B4                  #              #p1520MIL_ON {3}
SYM   966 "p1520FAULT"              :B5                  #              #p1520FAULT {3}
SYM   966 "p1520UPDATED"            :B6                  #              #p1520UPDATED {3}
SYM   966 "p1520MALF"               :B7                  #              #p1520MALF {3}
SYM   967 "p1520CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1520. Electric Current Circuit Malfunction {3}
SYM   967 "p1520FAULT_A"            :B7                  #              #p1520FAULT_A {3}
SYM   968 "p1537_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1537. IMCC Circuit Malfunction {3}
SYM   968 "p1537MIL_ON"             :B4                  #              #p1537MIL_ON {3}
SYM   968 "p1537FAULT"              :B5                  #              #p1537FAULT {3}
SYM   968 "p1537UPDATED"            :B6                  #              #p1537UPDATED {3}
SYM   968 "p1537MALF"               :B7                  #              #p1537MALF {3}
SYM   969 "p1537CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1537. IMCC Circuit Malfunction {3}
SYM   969 "p1537FAULT_A"            :B7                  #              #p1537FAULT_A {3}
SYM   96A "p1538_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1538. AAI Circuit Malfunction {3}
SYM   96A "p1538MIL_ON"             :B4                  #              #p1538MIL_ON {3}
SYM   96A "p1538FAULT"              :B5                  #              #p1538FAULT {3}
SYM   96A "p1538UPDATED"            :B6                  #              #p1538UPDATED {3}
SYM   96A "p1538MALF"               :B7                  #              #p1538MALF {3}
SYM   96B "p1538CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1538. AAI Circuit Malfunction {3}
SYM   96B "p1538FAULT_A"            :B7                  #              #p1538FAULT_A {3}
SYM   96C "p1233_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1233. Wastegate Failed Open (Under Pressure) {3}
SYM   96C "p1233MIL_ON"             :B4                  #              #p1233MIL_ON {3}
SYM   96C "p1233FAULT"              :B5                  #              #p1233FAULT {3}
SYM   96C "p1233UPDATED"            :B6                  #              #p1233UPDATED {3}
SYM   96C "p1233MALF"               :B7                  #              #p1233MALF {3}
SYM   96D "p1233CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1233. Wastegate Failed Open (Under Pressure) {3}
SYM   96D "p1233FAULT_A"            :B7                  #              #p1233FAULT_A {3}
SYM   96E "p1235_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1235. Fuel Pump Low Speed Malfunction {3}
SYM   96E "p1235MIL_ON"             :B4                  #              #p1235MIL_ON {3}
SYM   96E "p1235FAULT"              :B5                  #              #p1235FAULT {3}
SYM   96E "p1235UPDATED"            :B6                  #              #p1235UPDATED {3}
SYM   96E "p1235MALF"               :B7                  #              #p1235MALF {3}
SYM   96F "p1235CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1235. Fuel Pump Low Speed Malfunction {3}
SYM   96F "p1235FAULT_A"            :B7                  #              #p1235FAULT_A {3}
SYM   970 "p1237_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1237. Fuel Pump Speed Primary Circuit Malfunction {3}
SYM   970 "p1237MIL_ON"             :B4                  #              #p1237MIL_ON {3}
SYM   970 "p1237FAULT"              :B5                  #              #p1237FAULT {3}
SYM   970 "p1237UPDATED"            :B6                  #              #p1237UPDATED {3}
SYM   970 "p1237MALF"               :B7                  #              #p1237MALF {3}
SYM   971 "p1237CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1237. Fuel Pump Speed Primary Circuit Malfunction {3}
SYM   971 "p1237FAULT_A"            :B7                  #              #p1237FAULT_A {3}
SYM   972 "p0326_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0326. Knock Sensor 1 Circuit Malfunction (Bank 1 or Single Sensor) {3}
SYM   972 "p0326MIL_ON"             :B4                  #              #p0326MIL_ON {3}
SYM   972 "p0326FAULT"              :B5                  #              #p0326FAULT {3}
SYM   972 "p0326UPDATED"            :B6                  #              #p0326UPDATED {3}
SYM   972 "p0326MALF"               :B7                  #              #p0326MALF {3}
SYM   973 "p0326CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0326. Knock Sensor 1 Circuit Malfunction (Bank 1 or Single Sensor) {3}
SYM   973 "p0326FAULT_A"            :B7                  #              #p0326FAULT_A {3}
SYM   974 "U1039_RECORD"            #[??=flo(X*1)]       #              # {3}
SYM   974 "U1039MIL_ON"             :B4                  #              #U1039MIL_ON {3}
SYM   974 "U1039FAULT"              :B5                  #              #U1039FAULT {3}
SYM   974 "U1039UPDATED"            :B6                  #              #U1039UPDATED {3}
SYM   974 "U1039MALF"               :B7                  #              #U1039MALF {3}
SYM   975 "U1039CNT"                #[??=flo(X*1)]       #              # {3}
SYM   975 "U1039FAULT_A"            :B7                  #              #U1039FAULT_A {3}
SYM   976 "p0190_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0190. Fuel Temperature Sensor B Circuit Intermittent {3}
SYM   976 "p0190MIL_ON"             :B4                  #              #p0190MIL_ON {3}
SYM   976 "p0190FAULT"              :B5                  #              #p0190FAULT {3}
SYM   976 "p0190UPDATED"            :B6                  #              #p0190UPDATED {3}
SYM   976 "p0190MALF"               :B7                  #              #p0190MALF {3}
SYM   977 "p0190CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0190. Fuel Temperature Sensor B Circuit Intermittent {3}
SYM   977 "p0190FAULT_A"            :B7                  #              #p0190FAULT_A {3}
SYM   978 "p0192_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0192. Fuel Rail Pressure Sensor Circuit Range/Performance {3}
SYM   978 "p0192MIL_ON"             :B4                  #              #p0192MIL_ON {3}
SYM   978 "p0192FAULT"              :B5                  #              #p0192FAULT {3}
SYM   978 "p0192UPDATED"            :B6                  #              #p0192UPDATED {3}
SYM   978 "p0192MALF"               :B7                  #              #p0192MALF {3}
SYM   979 "p0192CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0192. Fuel Rail Pressure Sensor Circuit Range/Performance {3}
SYM   979 "p0192FAULT_A"            :B7                  #              #p0192FAULT_A {3}
SYM   97A "p0193_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0193. Fuel Rail Pressure Sensor Circuit Low Input {3}
SYM   97A "p0193MIL_ON"             :B4                  #              #p0193MIL_ON {3}
SYM   97A "p0193FAULT"              :B5                  #              #p0193FAULT {3}
SYM   97A "p0193UPDATED"            :B6                  #              #p0193UPDATED {3}
SYM   97A "p0193MALF"               :B7                  #              #p0193MALF {3}
SYM   97B "p0193CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0193. Fuel Rail Pressure Sensor Circuit Low Input {3}
SYM   97B "p0193FAULT_A"            :B7                  #              #p0193FAULT_A {3}
SYM   97C "p0442_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0442. Evaporative Emission Control System Incorrect Purge Flow {3}
SYM   97C "p0442MIL_ON"             :B4                  #              #p0442MIL_ON {3}
SYM   97C "p0442FAULT"              :B5                  #              #p0442FAULT {3}
SYM   97C "p0442UPDATED"            :B6                  #              #p0442UPDATED {3}
SYM   97C "p0442MALF"               :B7                  #              #p0442MALF {3}
SYM   97D "p0442CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0442. Evaporative Emission Control System Incorrect Purge Flow {3}
SYM   97D "p0442FAULT_A"            :B7                  #              #p0442FAULT_A {3}
SYM   97E "p0443_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0443. Evaporative Emission Control System Leak Detected (small leak) {3}
SYM   97E "p0443MIL_ON"             :B4                  #              #p0443MIL_ON {3}
SYM   97E "p0443FAULT"              :B5                  #              #p0443FAULT {3}
SYM   97E "p0443UPDATED"            :B6                  #              #p0443UPDATED {3}
SYM   97E "p0443MALF"               :B7                  #              #p0443MALF {3}
SYM   97F "p0443CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0443. Evaporative Emission Control System Leak Detected (small leak) {3}
SYM   97F "p0443FAULT_A"            :B7                  #              #p0443FAULT_A {3}
SYM   980 "p0446_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0446. Evaporative Emission Control System Purge Control Valve Circuit Shorted {3}
SYM   980 "p0446MIL_ON"             :B4                  #              #p0446MIL_ON {3}
SYM   980 "p0446FAULT"              :B5                  #              #p0446FAULT {3}
SYM   980 "p0446UPDATED"            :B6                  #              #p0446UPDATED {3}
SYM   980 "p0446MALF"               :B7                  #              #p0446MALF {3}
SYM   981 "p0446CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0446. Evaporative Emission Control System Purge Control Valve Circuit Shorted {3}
SYM   981 "p0446FAULT_A"            :B7                  #              #p0446FAULT_A {3}
SYM   982 "p0452_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0452. Evaporative Emission Control System Pressure Sensor Range/Performance {3}
SYM   982 "p0452MIL_ON"             :B4                  #              #p0452MIL_ON {3}
SYM   982 "p0452FAULT"              :B5                  #              #p0452FAULT {3}
SYM   982 "p0452UPDATED"            :B6                  #              #p0452UPDATED {3}
SYM   982 "p0452MALF"               :B7                  #              #p0452MALF {3}
SYM   983 "p0452CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0452. Evaporative Emission Control System Pressure Sensor Range/Performance {3}
SYM   983 "p0452FAULT_A"            :B7                  #              #p0452FAULT_A {3}
SYM   984 "p0453_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0453. Evaporative Emission Control System Pressure Sensor Low Input {3}
SYM   984 "p0453MIL_ON"             :B4                  #              #p0453MIL_ON {3}
SYM   984 "p0453FAULT"              :B5                  #              #p0453FAULT {3}
SYM   984 "p0453UPDATED"            :B6                  #              #p0453UPDATED {3}
SYM   984 "p0453MALF"               :B7                  #              #p0453MALF {3}
SYM   985 "p0453CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0453. Evaporative Emission Control System Pressure Sensor Low Input {3}
SYM   985 "p0453FAULT_A"            :B7                  #              #p0453FAULT_A {3}
SYM   986 "p0455_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0455. Evaporative Emission Control System Pressure Sensor Intermittent {3}
SYM   986 "p0455MIL_ON"             :B4                  #              #p0455MIL_ON {3}
SYM   986 "p0455FAULT"              :B5                  #              #p0455FAULT {3}
SYM   986 "p0455UPDATED"            :B6                  #              #p0455UPDATED {3}
SYM   986 "p0455MALF"               :B7                  #              #p0455MALF {3}
SYM   987 "p0455CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0455. Evaporative Emission Control System Pressure Sensor Intermittent {3}
SYM   987 "p0455FAULT_A"            :B7                  #              #p0455FAULT_A {3}
SYM   988 "p1443_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1443. Floor Temperature Switch Circuit Malfunction {3}
SYM   988 "p1443MIL_ON"             :B4                  #              #p1443MIL_ON {3}
SYM   988 "p1443FAULT"              :B5                  #              #p1443FAULT {3}
SYM   988 "p1443UPDATED"            :B6                  #              #p1443UPDATED {3}
SYM   988 "p1443MALF"               :B7                  #              #p1443MALF {3}
SYM   989 "p1443CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1443. Floor Temperature Switch Circuit Malfunction {3}
SYM   989 "p1443FAULT_A"            :B7                  #              #p1443FAULT_A {3}
SYM   98A "p1444_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1444. Purge Valve Stuck Open {3}
SYM   98A "p1444MIL_ON"             :B4                  #              #p1444MIL_ON {3}
SYM   98A "p1444FAULT"              :B5                  #              #p1444FAULT {3}
SYM   98A "p1444UPDATED"            :B6                  #              #p1444UPDATED {3}
SYM   98A "p1444MALF"               :B7                  #              #p1444MALF {3}
SYM   98B "p1444CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1444. Purge Valve Stuck Open {3}
SYM   98B "p1444FAULT_A"            :B7                  #              #p1444FAULT_A {3}
SYM   98C "p1445_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1445. Evaporative Emission (EVAP) System Flow During Non-Purge Chevrolet Only {3}
SYM   98C "p1445MIL_ON"             :B4                  #              #p1445MIL_ON {3}
SYM   98C "p1445FAULT"              :B5                  #              #p1445FAULT {3}
SYM   98C "p1445UPDATED"            :B6                  #              #p1445UPDATED {3}
SYM   98C "p1445MALF"               :B7                  #              #p1445MALF {3}
SYM   98D "p1445CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1445. Evaporative Emission (EVAP) System Flow During Non-Purge Chevrolet Only {3}
SYM   98D "p1445FAULT_A"            :B7                  #              #p1445FAULT_A {3}
SYM   98E "p1450_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1450. Purge Flow Sensor Circuit High Input {3}
SYM   98E "p1450MIL_ON"             :B4                  #              #p1450MIL_ON {3}
SYM   98E "p1450FAULT"              :B5                  #              #p1450FAULT {3}
SYM   98E "p1450UPDATED"            :B6                  #              #p1450UPDATED {3}
SYM   98E "p1450MALF"               :B7                  #              #p1450MALF {3}
SYM   98F "p1450CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1450. Purge Flow Sensor Circuit High Input {3}
SYM   98F "p1450FAULT_A"            :B7                  #              #p1450FAULT_A {3}
SYM   990 "p1451_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1451. Evaporative Vac Solenoid Circuit Malfunction {3}
SYM   990 "p1451MIL_ON"             :B4                  #              #p1451MIL_ON {3}
SYM   990 "p1451FAULT"              :B5                  #              #p1451FAULT {3}
SYM   990 "p1451UPDATED"            :B6                  #              #p1451UPDATED {3}
SYM   990 "p1451MALF"               :B7                  #              #p1451MALF {3}
SYM   991 "p1451CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1451. Evaporative Vac Solenoid Circuit Malfunction {3}
SYM   991 "p1451FAULT_A"            :B7                  #              #p1451FAULT_A {3}
SYM   992 "p0411_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0411. Secondary Air Injection System Malfunction {3}
SYM   992 "p0411MIL_ON"             :B4                  #              #p0411MIL_ON {3}
SYM   992 "p0411FAULT"              :B5                  #              #p0411FAULT {3}
SYM   992 "p0411UPDATED"            :B6                  #              #p0411UPDATED {3}
SYM   992 "p0411MALF"               :B7                  #              #p0411MALF {3}
SYM   993 "p0411CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0411. Secondary Air Injection System Malfunction {3}
SYM   993 "p0411FAULT_A"            :B7                  #              #p0411FAULT_A {3}
SYM   994 "p0412_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0412. Secondary Air Injection System Incorrect Flow Detected {3}
SYM   994 "p0412MIL_ON"             :B4                  #              #p0412MIL_ON {3}
SYM   994 "p0412FAULT"              :B5                  #              #p0412FAULT {3}
SYM   994 "p0412UPDATED"            :B6                  #              #p0412UPDATED {3}
SYM   994 "p0412MALF"               :B7                  #              #p0412MALF {3}
SYM   995 "p0412CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0412. Secondary Air Injection System Incorrect Flow Detected {3}
SYM   995 "p0412FAULT_A"            :B7                  #              #p0412FAULT_A {3}
SYM   996 "p1413_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1413. Exhaust Gas Recirculation (EGR) Position Sensor Performance {3}
SYM   996 "p1413MIL_ON"             :B4                  #              #p1413MIL_ON {3}
SYM   996 "p1413FAULT"              :B5                  #              #p1413FAULT {3}
SYM   996 "p1413UPDATED"            :B6                  #              #p1413UPDATED {3}
SYM   996 "p1413MALF"               :B7                  #              #p1413MALF {3}
SYM   997 "p1413CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1413. Exhaust Gas Recirculation (EGR) Position Sensor Performance {3}
SYM   997 "p1413FAULT_A"            :B7                  #              #p1413FAULT_A {3}
SYM   998 "p1414_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1414. EGR No Flow Detected {3}
SYM   998 "p1414MIL_ON"             :B4                  #              #p1414MIL_ON {3}
SYM   998 "p1414FAULT"              :B5                  #              #p1414FAULT {3}
SYM   998 "p1414UPDATED"            :B6                  #              #p1414UPDATED {3}
SYM   998 "p1414MALF"               :B7                  #              #p1414MALF {3}
SYM   999 "p1414CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1414. EGR No Flow Detected {3}
SYM   999 "p1414FAULT_A"            :B7                  #              #p1414FAULT_A {3}
SYM   99A "p0130_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0130. Coolant Thermostat Malfunction {3}
SYM   99A "p0130MIL_ON"             :B4                  #              #p0130MIL_ON {3}
SYM   99A "p0130FAULT"              :B5                  #              #p0130FAULT {3}
SYM   99A "p0130UPDATED"            :B6                  #              #p0130UPDATED {3}
SYM   99A "p0130MALF"               :B7                  #              #p0130MALF {3}
SYM   99B "p0130CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0130. Coolant Thermostat Malfunction {3}
SYM   99B "p0130FAULT_A"            :B7                  #              #p0130FAULT_A {3}
SYM   99C "p0131_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0131. O2 Sensor Circuit Malfunction (Bank 1 Sensor 1) {3}
SYM   99C "p0131MIL_ON"             :B4                  #              #p0131MIL_ON {3}
SYM   99C "p0131FAULT"              :B5                  #              #p0131FAULT {3}
SYM   99C "p0131UPDATED"            :B6                  #              #p0131UPDATED {3}
SYM   99C "p0131MALF"               :B7                  #              #p0131MALF {3}
SYM   99D "p0131CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0131. O2 Sensor Circuit Malfunction (Bank 1 Sensor 1) {3}
SYM   99D "p0131FAULT_A"            :B7                  #              #p0131FAULT_A {3}
SYM   99E "p0132_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0132. O2 Sensor Circuit Low Voltage (Bank 1 Sensor 1) {3}
SYM   99E "p0132MIL_ON"             :B4                  #              #p0132MIL_ON {3}
SYM   99E "p0132FAULT"              :B5                  #              #p0132FAULT {3}
SYM   99E "p0132UPDATED"            :B6                  #              #p0132UPDATED {3}
SYM   99E "p0132MALF"               :B7                  #              #p0132MALF {3}
SYM   99F "p0132CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0132. O2 Sensor Circuit Low Voltage (Bank 1 Sensor 1) {3}
SYM   99F "p0132FAULT_A"            :B7                  #              #p0132FAULT_A {3}
SYM   9A0 "p0133_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0133. O2 Sensor Circuit High Voltage (Bank 1 Sensor 1) {3}
SYM   9A0 "p0133MIL_ON"             :B4                  #              #p0133MIL_ON {3}
SYM   9A0 "p0133FAULT"              :B5                  #              #p0133FAULT {3}
SYM   9A0 "p0133UPDATED"            :B6                  #              #p0133UPDATED {3}
SYM   9A0 "p0133MALF"               :B7                  #              #p0133MALF {3}
SYM   9A1 "p0133CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0133. O2 Sensor Circuit High Voltage (Bank 1 Sensor 1) {3}
SYM   9A1 "p0133FAULT_A"            :B7                  #              #p0133FAULT_A {3}
SYM   9A2 "p0135_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0135. O2 Sensor Circuit No Activity Detected (Bank 1 Sensor 1) {3}
SYM   9A2 "p0135MIL_ON"             :B4                  #              #p0135MIL_ON {3}
SYM   9A2 "p0135FAULT"              :B5                  #              #p0135FAULT {3}
SYM   9A2 "p0135UPDATED"            :B6                  #              #p0135UPDATED {3}
SYM   9A2 "p0135MALF"               :B7                  #              #p0135MALF {3}
SYM   9A3 "p0135CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0135. O2 Sensor Circuit No Activity Detected (Bank 1 Sensor 1) {3}
SYM   9A3 "p0135FAULT_A"            :B7                  #              #p0135FAULT_A {3}
SYM   9A4 "p0136_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0136. O2 Sensor Heater Circuit Malfunction (Bank 1 Sensor 1) {3}
SYM   9A4 "p0136MIL_ON"             :B4                  #              #p0136MIL_ON {3}
SYM   9A4 "p0136FAULT"              :B5                  #              #p0136FAULT {3}
SYM   9A4 "p0136UPDATED"            :B6                  #              #p0136UPDATED {3}
SYM   9A4 "p0136MALF"               :B7                  #              #p0136MALF {3}
SYM   9A5 "p0136CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0136. O2 Sensor Heater Circuit Malfunction (Bank 1 Sensor 1) {3}
SYM   9A5 "p0136FAULT_A"            :B7                  #              #p0136FAULT_A {3}
SYM   9A6 "p0138_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0138. O2 Sensor Circuit Low Voltage (Bank 1 Sensor 2) {3}
SYM   9A6 "p0138MIL_ON"             :B4                  #              #p0138MIL_ON {3}
SYM   9A6 "p0138FAULT"              :B5                  #              #p0138FAULT {3}
SYM   9A6 "p0138UPDATED"            :B6                  #              #p0138UPDATED {3}
SYM   9A6 "p0138MALF"               :B7                  #              #p0138MALF {3}
SYM   9A7 "p0138CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0138. O2 Sensor Circuit Low Voltage (Bank 1 Sensor 2) {3}
SYM   9A7 "p0138FAULT_A"            :B7                  #              #p0138FAULT_A {3}
SYM   9A8 "p0141_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0141. O2 Sensor Circuit No Activity Detected (Bank 1 Sensor 2) {3}
SYM   9A8 "p0141MIL_ON"             :B4                  #              #p0141MIL_ON {3}
SYM   9A8 "p0141FAULT"              :B5                  #              #p0141FAULT {3}
SYM   9A8 "p0141UPDATED"            :B6                  #              #p0141UPDATED {3}
SYM   9A8 "p0141MALF"               :B7                  #              #p0141MALF {3}
SYM   9A9 "p0141CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0141. O2 Sensor Circuit No Activity Detected (Bank 1 Sensor 2) {3}
SYM   9A9 "p0141FAULT_A"            :B7                  #              #p0141FAULT_A {3}
SYM   9AA "p0150_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0150. O2 Sensor Heater Circuit Malfunction (Bank 1 Sensor 3) {3}
SYM   9AA "p0150MIL_ON"             :B4                  #              #p0150MIL_ON {3}
SYM   9AA "p0150FAULT"              :B5                  #              #p0150FAULT {3}
SYM   9AA "p0150UPDATED"            :B6                  #              #p0150UPDATED {3}
SYM   9AA "p0150MALF"               :B7                  #              #p0150MALF {3}
SYM   9AB "p0150CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0150. O2 Sensor Heater Circuit Malfunction (Bank 1 Sensor 3) {3}
SYM   9AB "p0150FAULT_A"            :B7                  #              #p0150FAULT_A {3}
SYM   9AC "p0151_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0151. O2 Sensor Circuit Malfunction (Bank 2 Sensor 1) {3}
SYM   9AC "p0151MIL_ON"             :B4                  #              #p0151MIL_ON {3}
SYM   9AC "p0151FAULT"              :B5                  #              #p0151FAULT {3}
SYM   9AC "p0151UPDATED"            :B6                  #              #p0151UPDATED {3}
SYM   9AC "p0151MALF"               :B7                  #              #p0151MALF {3}
SYM   9AD "p0151CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0151. O2 Sensor Circuit Malfunction (Bank 2 Sensor 1) {3}
SYM   9AD "p0151FAULT_A"            :B7                  #              #p0151FAULT_A {3}
SYM   9AE "p0152_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0152. O2 Sensor Circuit Low Voltage (Bank 2 Sensor 1) {3}
SYM   9AE "p0152MIL_ON"             :B4                  #              #p0152MIL_ON {3}
SYM   9AE "p0152FAULT"              :B5                  #              #p0152FAULT {3}
SYM   9AE "p0152UPDATED"            :B6                  #              #p0152UPDATED {3}
SYM   9AE "p0152MALF"               :B7                  #              #p0152MALF {3}
SYM   9AF "p0152CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0152. O2 Sensor Circuit Low Voltage (Bank 2 Sensor 1) {3}
SYM   9AF "p0152FAULT_A"            :B7                  #              #p0152FAULT_A {3}
SYM   9B0 "p0153_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0153. O2 Sensor Circuit High Voltage (Bank 2 Sensor 1) {3}
SYM   9B0 "p0153MIL_ON"             :B4                  #              #p0153MIL_ON {3}
SYM   9B0 "p0153FAULT"              :B5                  #              #p0153FAULT {3}
SYM   9B0 "p0153UPDATED"            :B6                  #              #p0153UPDATED {3}
SYM   9B0 "p0153MALF"               :B7                  #              #p0153MALF {3}
SYM   9B1 "p0153CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0153. O2 Sensor Circuit High Voltage (Bank 2 Sensor 1) {3}
SYM   9B1 "p0153FAULT_A"            :B7                  #              #p0153FAULT_A {3}
SYM   9B2 "p0155_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0155. O2 Sensor Circuit No Activity Detected (Bank 2 Sensor 1) {3}
SYM   9B2 "p0155MIL_ON"             :B4                  #              #p0155MIL_ON {3}
SYM   9B2 "p0155FAULT"              :B5                  #              #p0155FAULT {3}
SYM   9B2 "p0155UPDATED"            :B6                  #              #p0155UPDATED {3}
SYM   9B2 "p0155MALF"               :B7                  #              #p0155MALF {3}
SYM   9B3 "p0155CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0155. O2 Sensor Circuit No Activity Detected (Bank 2 Sensor 1) {3}
SYM   9B3 "p0155FAULT_A"            :B7                  #              #p0155FAULT_A {3}
SYM   9B4 "p0156_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0156. O2 Sensor Heater Circuit Malfunction (Bank 2 Sensor 1) {3}
SYM   9B4 "p0156MIL_ON"             :B4                  #              #p0156MIL_ON {3}
SYM   9B4 "p0156FAULT"              :B5                  #              #p0156FAULT {3}
SYM   9B4 "p0156UPDATED"            :B6                  #              #p0156UPDATED {3}
SYM   9B4 "p0156MALF"               :B7                  #              #p0156MALF {3}
SYM   9B5 "p0156CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0156. O2 Sensor Heater Circuit Malfunction (Bank 2 Sensor 1) {3}
SYM   9B5 "p0156FAULT_A"            :B7                  #              #p0156FAULT_A {3}
SYM   9B6 "p0158_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0158. O2 Sensor Circuit Low Voltage (Bank 2 Sensor 2) {3}
SYM   9B6 "p0158MIL_ON"             :B4                  #              #p0158MIL_ON {3}
SYM   9B6 "p0158FAULT"              :B5                  #              #p0158FAULT {3}
SYM   9B6 "p0158UPDATED"            :B6                  #              #p0158UPDATED {3}
SYM   9B6 "p0158MALF"               :B7                  #              #p0158MALF {3}
SYM   9B7 "p0158CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0158. O2 Sensor Circuit Low Voltage (Bank 2 Sensor 2) {3}
SYM   9B7 "p0158FAULT_A"            :B7                  #              #p0158FAULT_A {3}
SYM   9B8 "p0161_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0161. O2 Sensor Circuit No Activity Detected (Bank 2 Sensor 2) {3}
SYM   9B8 "p0161MIL_ON"             :B4                  #              #p0161MIL_ON {3}
SYM   9B8 "p0161FAULT"              :B5                  #              #p0161FAULT {3}
SYM   9B8 "p0161UPDATED"            :B6                  #              #p0161UPDATED {3}
SYM   9B8 "p0161MALF"               :B7                  #              #p0161MALF {3}
SYM   9B9 "p0161CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0161. O2 Sensor Circuit No Activity Detected (Bank 2 Sensor 2) {3}
SYM   9B9 "p0161FAULT_A"            :B7                  #              #p0161FAULT_A {3}
SYM   9BA "p1133_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1133. Upstream Heated O2 Sensors Swapped {3}
SYM   9BA "p1133MIL_ON"             :B4                  #              #p1133MIL_ON {3}
SYM   9BA "p1133FAULT"              :B5                  #              #p1133FAULT {3}
SYM   9BA "p1133UPDATED"            :B6                  #              #p1133UPDATED {3}
SYM   9BA "p1133MALF"               :B7                  #              #p1133MALF {3}
SYM   9BB "p1133CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1133. Upstream Heated O2 Sensors Swapped {3}
SYM   9BB "p1133FAULT_A"            :B7                  #              #p1133FAULT_A {3}
SYM   9BC "p1134_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1134. Downstream Heated O2 Sensors Swapped {3}
SYM   9BC "p1134MIL_ON"             :B4                  #              #p1134MIL_ON {3}
SYM   9BC "p1134FAULT"              :B5                  #              #p1134FAULT {3}
SYM   9BC "p1134UPDATED"            :B6                  #              #p1134UPDATED {3}
SYM   9BC "p1134MALF"               :B7                  #              #p1134MALF {3}
SYM   9BD "p1134CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1134. Downstream Heated O2 Sensors Swapped {3}
SYM   9BD "p1134FAULT_A"            :B7                  #              #p1134FAULT_A {3}
SYM   9BE "p1153_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1153. Air Assist Control Valve Range/Performance {3}
SYM   9BE "p1153MIL_ON"             :B4                  #              #p1153MIL_ON {3}
SYM   9BE "p1153FAULT"              :B5                  #              #p1153FAULT {3}
SYM   9BE "p1153UPDATED"            :B6                  #              #p1153UPDATED {3}
SYM   9BE "p1153MALF"               :B7                  #              #p1153MALF {3}
SYM   9BF "p1153CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1153. Air Assist Control Valve Range/Performance {3}
SYM   9BF "p1153FAULT_A"            :B7                  #              #p1153FAULT_A {3}
SYM   9C0 "p1154_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1154. Air Assist Control Valve Circuit Malfunction {3}
SYM   9C0 "p1154MIL_ON"             :B4                  #              #p1154MIL_ON {3}
SYM   9C0 "p1154FAULT"              :B5                  #              #p1154FAULT {3}
SYM   9C0 "p1154UPDATED"            :B6                  #              #p1154UPDATED {3}
SYM   9C0 "p1154MALF"               :B7                  #              #p1154MALF {3}
SYM   9C1 "p1154CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1154. Air Assist Control Valve Circuit Malfunction {3}
SYM   9C1 "p1154FAULT_A"            :B7                  #              #p1154FAULT_A {3}
SYM   9C2 "p0400_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0400. Crankshaft Position Sensor B Circuit Intermittent {3}
SYM   9C2 "p0400MIL_ON"             :B4                  #              #p0400MIL_ON {3}
SYM   9C2 "p0400FAULT"              :B5                  #              #p0400FAULT {3}
SYM   9C2 "p0400UPDATED"            :B6                  #              #p0400UPDATED {3}
SYM   9C2 "p0400MALF"               :B7                  #              #p0400MALF {3}
SYM   9C3 "p0400CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0400. Crankshaft Position Sensor B Circuit Intermittent {3}
SYM   9C3 "p0400FAULT_A"            :B7                  #              #p0400FAULT_A {3}
SYM   9C4 "p0401_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0401. Exhaust Gas Recirculation Flow Malfunction {3}
SYM   9C4 "p0401MIL_ON"             :B4                  #              #p0401MIL_ON {3}
SYM   9C4 "p0401FAULT"              :B5                  #              #p0401FAULT {3}
SYM   9C4 "p0401UPDATED"            :B6                  #              #p0401UPDATED {3}
SYM   9C4 "p0401MALF"               :B7                  #              #p0401MALF {3}
SYM   9C5 "p0401CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0401. Exhaust Gas Recirculation Flow Malfunction {3}
SYM   9C5 "p0401FAULT_A"            :B7                  #              #p0401FAULT_A {3}
SYM   9C6 "p0402_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0402. Exhaust Gas Recirculation Flow Insufficient Detected {3}
SYM   9C6 "p0402MIL_ON"             :B4                  #              #p0402MIL_ON {3}
SYM   9C6 "p0402FAULT"              :B5                  #              #p0402FAULT {3}
SYM   9C6 "p0402UPDATED"            :B6                  #              #p0402UPDATED {3}
SYM   9C6 "p0402MALF"               :B7                  #              #p0402MALF {3}
SYM   9C7 "p0402CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0402. Exhaust Gas Recirculation Flow Insufficient Detected {3}
SYM   9C7 "p0402FAULT_A"            :B7                  #              #p0402FAULT_A {3}
SYM   9C8 "p1400_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1400. Glow Plug Monitor Fault (Bank #1) {3}
SYM   9C8 "p1400MIL_ON"             :B4                  #              #p1400MIL_ON {3}
SYM   9C8 "p1400FAULT"              :B5                  #              #p1400FAULT {3}
SYM   9C8 "p1400UPDATED"            :B6                  #              #p1400UPDATED {3}
SYM   9C8 "p1400MALF"               :B7                  #              #p1400MALF {3}
SYM   9C9 "p1400CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1400. Glow Plug Monitor Fault (Bank #1) {3}
SYM   9C9 "p1400FAULT_A"            :B7                  #              #p1400FAULT_A {3}
SYM   9CA "p1401_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1401. Glow Plug Monitor Fault (Bank #2) {3}
SYM   9CA "p1401MIL_ON"             :B4                  #              #p1401MIL_ON {3}
SYM   9CA "p1401FAULT"              :B5                  #              #p1401FAULT {3}
SYM   9CA "p1401UPDATED"            :B6                  #              #p1401UPDATED {3}
SYM   9CA "p1401MALF"               :B7                  #              #p1401MALF {3}
SYM   9CB "p1401CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1401. Glow Plug Monitor Fault (Bank #2) {3}
SYM   9CB "p1401FAULT_A"            :B7                  #              #p1401FAULT_A {3}
SYM   9CC "p1405_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1405. DPFE Circuit Low Input {3}
SYM   9CC "p1405MIL_ON"             :B4                  #              #p1405MIL_ON {3}
SYM   9CC "p1405FAULT"              :B5                  #              #p1405FAULT {3}
SYM   9CC "p1405UPDATED"            :B6                  #              #p1405UPDATED {3}
SYM   9CC "p1405MALF"               :B7                  #              #p1405MALF {3}
SYM   9CD "p1405CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1405. DPFE Circuit Low Input {3}
SYM   9CD "p1405FAULT_A"            :B7                  #              #p1405FAULT_A {3}
SYM   9CE "p1406_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1406. DPFE Circuit High Input {3}
SYM   9CE "p1406MIL_ON"             :B4                  #              #p1406MIL_ON {3}
SYM   9CE "p1406FAULT"              :B5                  #              #p1406FAULT {3}
SYM   9CE "p1406UPDATED"            :B6                  #              #p1406UPDATED {3}
SYM   9CE "p1406MALF"               :B7                  #              #p1406MALF {3}
SYM   9CF "p1406CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1406. DPFE Circuit High Input {3}
SYM   9CF "p1406FAULT_A"            :B7                  #              #p1406FAULT_A {3}
SYM   9D0 "p1409_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1409. IAT - B Circuit Malfunction/ Exhaust Gas Recirculation Closed Position Performance {3}
SYM   9D0 "p1409MIL_ON"             :B4                  #              #p1409MIL_ON {3}
SYM   9D0 "p1409FAULT"              :B5                  #              #p1409FAULT {3}
SYM   9D0 "p1409UPDATED"            :B6                  #              #p1409UPDATED {3}
SYM   9D0 "p1409MALF"               :B7                  #              #p1409MALF {3}
SYM   9D1 "p1409CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1409. IAT - B Circuit Malfunction/ Exhaust Gas Recirculation Closed Position Performance {3}
SYM   9D1 "p1409FAULT_A"            :B7                  #              #p1409FAULT_A {3}
SYM   9D2 "p1299_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1299. Injector High Side Open - Bank 2/Target idle not reached {3}
SYM   9D2 "p1299MIL_ON"             :B4                  #              #p1299MIL_ON {3}
SYM   9D2 "p1299FAULT"              :B5                  #              #p1299FAULT {3}
SYM   9D2 "p1299UPDATED"            :B6                  #              #p1299UPDATED {3}
SYM   9D2 "p1299MALF"               :B7                  #              #p1299MALF {3}
SYM   9D3 "p1299CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1299. Injector High Side Open - Bank 2/Target idle not reached {3}
SYM   9D3 "p1299FAULT_A"            :B7                  #              #p1299FAULT_A {3}
SYM   9D4 "p0420_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0420. Secondary Air Injection System Relay "B" Circuit Malfunction {3}
SYM   9D4 "p0420MIL_ON"             :B4                  #              #p0420MIL_ON {3}
SYM   9D4 "p0420FAULT"              :B5                  #              #p0420FAULT {3}
SYM   9D4 "p0420UPDATED"            :B6                  #              #p0420UPDATED {3}
SYM   9D4 "p0420MALF"               :B7                  #              #p0420MALF {3}
SYM   9D5 "p0420CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0420. Secondary Air Injection System Relay "B" Circuit Malfunction {3}
SYM   9D5 "p0420FAULT_A"            :B7                  #              #p0420FAULT_A {3}
SYM   9D6 "p0430_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0430. Catalyst Temperature Sensor High Input (Bank 1) {3}
SYM   9D6 "p0430MIL_ON"             :B4                  #              #p0430MIL_ON {3}
SYM   9D6 "p0430FAULT"              :B5                  #              #p0430FAULT {3}
SYM   9D6 "p0430UPDATED"            :B6                  #              #p0430UPDATED {3}
SYM   9D6 "p0430MALF"               :B7                  #              #p0430MALF {3}
SYM   9D7 "p0430CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0430. Catalyst Temperature Sensor High Input (Bank 1) {3}
SYM   9D7 "p0430FAULT_A"            :B7                  #              #p0430FAULT_A {3}
SYM   9D8 "p1130_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1130. Throttle position sensor intermittent {3}
SYM   9D8 "p1130MIL_ON"             :B4                  #              #p1130MIL_ON {3}
SYM   9D8 "p1130FAULT"              :B5                  #              #p1130FAULT {3}
SYM   9D8 "p1130UPDATED"            :B6                  #              #p1130UPDATED {3}
SYM   9D8 "p1130MALF"               :B7                  #              #p1130MALF {3}
SYM   9D9 "p1130CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1130. Throttle position sensor intermittent {3}
SYM   9D9 "p1130FAULT_A"            :B7                  #              #p1130FAULT_A {3}
SYM   9DA "p1131_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1131. Throttle Position (Narrow Range) Sensor Circuit Malfunction {3}
SYM   9DA "p1131MIL_ON"             :B4                  #              #p1131MIL_ON {3}
SYM   9DA "p1131FAULT"              :B5                  #              #p1131FAULT {3}
SYM   9DA "p1131UPDATED"            :B6                  #              #p1131UPDATED {3}
SYM   9DA "p1131MALF"               :B7                  #              #p1131MALF {3}
SYM   9DB "p1131CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1131. Throttle Position (Narrow Range) Sensor Circuit Malfunction {3}
SYM   9DB "p1131FAULT_A"            :B7                  #              #p1131FAULT_A {3}
SYM   9DC "p1132_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1132. Exhaust Not Warm {3}
SYM   9DC "p1132MIL_ON"             :B4                  #              #p1132MIL_ON {3}
SYM   9DC "p1132FAULT"              :B5                  #              #p1132FAULT {3}
SYM   9DC "p1132UPDATED"            :B6                  #              #p1132UPDATED {3}
SYM   9DC "p1132MALF"               :B7                  #              #p1132MALF {3}
SYM   9DD "p1132CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1132. Exhaust Not Warm {3}
SYM   9DD "p1132FAULT_A"            :B7                  #              #p1132FAULT_A {3}
SYM   9DE "p1150_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1150. Water In Fuel Condition {3}
SYM   9DE "p1150MIL_ON"             :B4                  #              #p1150MIL_ON {3}
SYM   9DE "p1150FAULT"              :B5                  #              #p1150FAULT {3}
SYM   9DE "p1150UPDATED"            :B6                  #              #p1150UPDATED {3}
SYM   9DE "p1150MALF"               :B7                  #              #p1150MALF {3}
SYM   9DF "p1150CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1150. Water In Fuel Condition {3}
SYM   9DF "p1150FAULT_A"            :B7                  #              #p1150FAULT_A {3}
SYM   9E0 "p1151_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1151. Fuel Restriction Indicator Circuit Malfunction {3}
SYM   9E0 "p1151MIL_ON"             :B4                  #              #p1151MIL_ON {3}
SYM   9E0 "p1151FAULT"              :B5                  #              #p1151FAULT {3}
SYM   9E0 "p1151UPDATED"            :B6                  #              #p1151UPDATED {3}
SYM   9E0 "p1151MALF"               :B7                  #              #p1151MALF {3}
SYM   9E1 "p1151CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1151. Fuel Restriction Indicator Circuit Malfunction {3}
SYM   9E1 "p1151FAULT_A"            :B7                  #              #p1151FAULT_A {3}
SYM   9E2 "p1152_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1152. Fuel Restriction Condition {3}
SYM   9E2 "p1152MIL_ON"             :B4                  #              #p1152MIL_ON {3}
SYM   9E2 "p1152FAULT"              :B5                  #              #p1152FAULT {3}
SYM   9E2 "p1152UPDATED"            :B6                  #              #p1152UPDATED {3}
SYM   9E2 "p1152MALF"               :B7                  #              #p1152MALF {3}
SYM   9E3 "p1152CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1152. Fuel Restriction Condition {3}
SYM   9E3 "p1152FAULT_A"            :B7                  #              #p1152FAULT_A {3}
SYM   9E4 "p1309_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1309. EGR Calibration High {3}
SYM   9E4 "p1309MIL_ON"             :B4                  #              #p1309MIL_ON {3}
SYM   9E4 "p1309FAULT"              :B5                  #              #p1309FAULT {3}
SYM   9E4 "p1309UPDATED"            :B6                  #              #p1309UPDATED {3}
SYM   9E4 "p1309MALF"               :B7                  #              #p1309MALF {3}
SYM   9E5 "p1309CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1309. EGR Calibration High {3}
SYM   9E5 "p1309FAULT_A"            :B7                  #              #p1309FAULT_A {3}
SYM   9E6 "p0300_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0300. Cylinder 12 Contribution/Range Fault {3}
SYM   9E6 "p0300MIL_ON"             :B4                  #              #p0300MIL_ON {3}
SYM   9E6 "p0300FAULT"              :B5                  #              #p0300FAULT {3}
SYM   9E6 "p0300UPDATED"            :B6                  #              #p0300UPDATED {3}
SYM   9E6 "p0300MALF"               :B7                  #              #p0300MALF {3}
SYM   9E7 "p0300CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0300. Cylinder 12 Contribution/Range Fault {3}
SYM   9E7 "p0300FAULT_A"            :B7                  #              #p0300FAULT_A {3}
SYM   9E8 "p0301_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0301. Random/Multiple Cylinder Misfire Detected {3}
SYM   9E8 "p0301MIL_ON"             :B4                  #              #p0301MIL_ON {3}
SYM   9E8 "p0301FAULT"              :B5                  #              #p0301FAULT {3}
SYM   9E8 "p0301UPDATED"            :B6                  #              #p0301UPDATED {3}
SYM   9E8 "p0301MALF"               :B7                  #              #p0301MALF {3}
SYM   9E9 "p0301CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0301. Random/Multiple Cylinder Misfire Detected {3}
SYM   9E9 "p0301FAULT_A"            :B7                  #              #p0301FAULT_A {3}
SYM   9EA "p0302_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0302. Cylinder 1 Misfire Detected {3}
SYM   9EA "p0302MIL_ON"             :B4                  #              #p0302MIL_ON {3}
SYM   9EA "p0302FAULT"              :B5                  #              #p0302FAULT {3}
SYM   9EA "p0302UPDATED"            :B6                  #              #p0302UPDATED {3}
SYM   9EA "p0302MALF"               :B7                  #              #p0302MALF {3}
SYM   9EB "p0302CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0302. Cylinder 1 Misfire Detected {3}
SYM   9EB "p0302FAULT_A"            :B7                  #              #p0302FAULT_A {3}
SYM   9EC "p0303_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0303. Cylinder 2 Misfire Detected {3}
SYM   9EC "p0303MIL_ON"             :B4                  #              #p0303MIL_ON {3}
SYM   9EC "p0303FAULT"              :B5                  #              #p0303FAULT {3}
SYM   9EC "p0303UPDATED"            :B6                  #              #p0303UPDATED {3}
SYM   9EC "p0303MALF"               :B7                  #              #p0303MALF {3}
SYM   9ED "p0303CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0303. Cylinder 2 Misfire Detected {3}
SYM   9ED "p0303FAULT_A"            :B7                  #              #p0303FAULT_A {3}
SYM   9EE "p0304_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0304. Cylinder 3 Misfire Detected {3}
SYM   9EE "p0304MIL_ON"             :B4                  #              #p0304MIL_ON {3}
SYM   9EE "p0304FAULT"              :B5                  #              #p0304FAULT {3}
SYM   9EE "p0304UPDATED"            :B6                  #              #p0304UPDATED {3}
SYM   9EE "p0304MALF"               :B7                  #              #p0304MALF {3}
SYM   9EF "p0304CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0304. Cylinder 3 Misfire Detected {3}
SYM   9EF "p0304FAULT_A"            :B7                  #              #p0304FAULT_A {3}
SYM   9F0 "p0305_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0305. Cylinder 4 Misfire Detected {3}
SYM   9F0 "p0305MIL_ON"             :B4                  #              #p0305MIL_ON {3}
SYM   9F0 "p0305FAULT"              :B5                  #              #p0305FAULT {3}
SYM   9F0 "p0305UPDATED"            :B6                  #              #p0305UPDATED {3}
SYM   9F0 "p0305MALF"               :B7                  #              #p0305MALF {3}
SYM   9F1 "p0305CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0305. Cylinder 4 Misfire Detected {3}
SYM   9F1 "p0305FAULT_A"            :B7                  #              #p0305FAULT_A {3}
SYM   9F2 "p0306_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0306. Cylinder 5 Misfire Detected {3}
SYM   9F2 "p0306MIL_ON"             :B4                  #              #p0306MIL_ON {3}
SYM   9F2 "p0306FAULT"              :B5                  #              #p0306FAULT {3}
SYM   9F2 "p0306UPDATED"            :B6                  #              #p0306UPDATED {3}
SYM   9F2 "p0306MALF"               :B7                  #              #p0306MALF {3}
SYM   9F3 "p0306CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0306. Cylinder 5 Misfire Detected {3}
SYM   9F3 "p0306FAULT_A"            :B7                  #              #p0306FAULT_A {3}
SYM   9F4 "p0307_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0307. Cylinder 6 Misfire Detected {3}
SYM   9F4 "p0307MIL_ON"             :B4                  #              #p0307MIL_ON {3}
SYM   9F4 "p0307FAULT"              :B5                  #              #p0307FAULT {3}
SYM   9F4 "p0307UPDATED"            :B6                  #              #p0307UPDATED {3}
SYM   9F4 "p0307MALF"               :B7                  #              #p0307MALF {3}
SYM   9F5 "p0307CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0307. Cylinder 6 Misfire Detected {3}
SYM   9F5 "p0307FAULT_A"            :B7                  #              #p0307FAULT_A {3}
SYM   9F6 "p0308_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0308. Cylinder 7 Misfire Detected {3}
SYM   9F6 "p0308MIL_ON"             :B4                  #              #p0308MIL_ON {3}
SYM   9F6 "p0308FAULT"              :B5                  #              #p0308FAULT {3}
SYM   9F6 "p0308UPDATED"            :B6                  #              #p0308UPDATED {3}
SYM   9F6 "p0308MALF"               :B7                  #              #p0308MALF {3}
SYM   9F7 "p0308CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0308. Cylinder 7 Misfire Detected {3}
SYM   9F7 "p0308FAULT_A"            :B7                  #              #p0308FAULT_A {3}
SYM   9F8 "p0171_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0171. Fuel Trim Malfunction (Bank 1) {3}
SYM   9F8 "p0171MIL_ON"             :B4                  #              #p0171MIL_ON {3}
SYM   9F8 "p0171FAULT"              :B5                  #              #p0171FAULT {3}
SYM   9F8 "p0171UPDATED"            :B6                  #              #p0171UPDATED {3}
SYM   9F8 "p0171MALF"               :B7                  #              #p0171MALF {3}
SYM   9F9 "p0171CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0171. Fuel Trim Malfunction (Bank 1) {3}
SYM   9F9 "p0171FAULT_A"            :B7                  #              #p0171FAULT_A {3}
SYM   9FA "p0172_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0172. Fuel Trim System Lean (Bank 1) {3}
SYM   9FA "p0172MIL_ON"             :B4                  #              #p0172MIL_ON {3}
SYM   9FA "p0172FAULT"              :B5                  #              #p0172FAULT {3}
SYM   9FA "p0172UPDATED"            :B6                  #              #p0172UPDATED {3}
SYM   9FA "p0172MALF"               :B7                  #              #p0172MALF {3}
SYM   9FB "p0172CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0172. Fuel Trim System Lean (Bank 1) {3}
SYM   9FB "p0172FAULT_A"            :B7                  #              #p0172FAULT_A {3}
SYM   9FC "p0174_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0174. Fuel Trim Malfunction (Bank 2) {3}
SYM   9FC "p0174MIL_ON"             :B4                  #              #p0174MIL_ON {3}
SYM   9FC "p0174FAULT"              :B5                  #              #p0174FAULT {3}
SYM   9FC "p0174UPDATED"            :B6                  #              #p0174UPDATED {3}
SYM   9FC "p0174MALF"               :B7                  #              #p0174MALF {3}
SYM   9FD "p0174CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0174. Fuel Trim Malfunction (Bank 2) {3}
SYM   9FD "p0174FAULT_A"            :B7                  #              #p0174FAULT_A {3}
SYM   9FE "p0175_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0175. Fuel Trim too Lean (Bank 2) {3}
SYM   9FE "p0175MIL_ON"             :B4                  #              #p0175MIL_ON {3}
SYM   9FE "p0175FAULT"              :B5                  #              #p0175FAULT {3}
SYM   9FE "p0175UPDATED"            :B6                  #              #p0175UPDATED {3}
SYM   9FE "p0175MALF"               :B7                  #              #p0175MALF {3}
SYM   9FF "p0175CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0175. Fuel Trim too Lean (Bank 2) {3}
SYM   9FF "p0175FAULT_A"            :B7                  #              #p0175FAULT_A {3}
SYM   A00 "p0503_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0503. Vehicle Speed Sensor Low Input {3}
SYM   A00 "p0503MIL_ON"             :B4                  #              #p0503MIL_ON {3}
SYM   A00 "p0503FAULT"              :B5                  #              #p0503FAULT {3}
SYM   A00 "p0503UPDATED"            :B6                  #              #p0503UPDATED {3}
SYM   A00 "p0503MALF"               :B7                  #              #p0503MALF {3}
SYM   A01 "p0503CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0503. Vehicle Speed Sensor Low Input {3}
SYM   A01 "p0503FAULT_A"            :B7                  #              #p0503FAULT_A {3}
SYM   A02 "p0505_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0505. Vehicle Speed Sensor Intermittent/Erratic/High {3}
SYM   A02 "p0505MIL_ON"             :B4                  #              #p0505MIL_ON {3}
SYM   A02 "p0505FAULT"              :B5                  #              #p0505FAULT {3}
SYM   A02 "p0505UPDATED"            :B6                  #              #p0505UPDATED {3}
SYM   A02 "p0505MALF"               :B7                  #              #p0505MALF {3}
SYM   A03 "p0505CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0505. Vehicle Speed Sensor Intermittent/Erratic/High {3}
SYM   A03 "p0505FAULT_A"            :B7                  #              #p0505FAULT_A {3}
SYM   A04 "p0605_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0605. Internal Control Module Random Access Memory (RAM) Error {3}
SYM   A04 "p0605MIL_ON"             :B4                  #              #p0605MIL_ON {3}
SYM   A04 "p0605FAULT"              :B5                  #              #p0605FAULT {3}
SYM   A04 "p0605UPDATED"            :B6                  #              #p0605UPDATED {3}
SYM   A04 "p0605MALF"               :B7                  #              #p0605MALF {3}
SYM   A05 "p0605CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0605. Internal Control Module Random Access Memory (RAM) Error {3}
SYM   A05 "p0605FAULT_A"            :B7                  #              #p0605FAULT_A {3}
SYM   A06 "p0703_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0703. Transmission Control System Electrical {3}
SYM   A06 "p0703MIL_ON"             :B4                  #              #p0703MIL_ON {3}
SYM   A06 "p0703FAULT"              :B5                  #              #p0703FAULT {3}
SYM   A06 "p0703UPDATED"            :B6                  #              #p0703UPDATED {3}
SYM   A06 "p0703MALF"               :B7                  #              #p0703MALF {3}
SYM   A07 "p0703CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0703. Transmission Control System Electrical {3}
SYM   A07 "p0703FAULT_A"            :B7                  #              #p0703FAULT_A {3}
SYM   A08 "p0325_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0325. Ignition/Distributor Engine Speed Input Circuit Intermittent {3}
SYM   A08 "p0325MIL_ON"             :B4                  #              #p0325MIL_ON {3}
SYM   A08 "p0325FAULT"              :B5                  #              #p0325FAULT {3}
SYM   A08 "p0325UPDATED"            :B6                  #              #p0325UPDATED {3}
SYM   A08 "p0325MALF"               :B7                  #              #p0325MALF {3}
SYM   A09 "p0325CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0325. Ignition/Distributor Engine Speed Input Circuit Intermittent {3}
SYM   A09 "p0325FAULT_A"            :B7                  #              #p0325FAULT_A {3}
SYM   A0A "p0460_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0460. Evaporative Emission Control System Leak Detected (gross leak) {3}
SYM   A0A "p0460MIL_ON"             :B4                  #              #p0460MIL_ON {3}
SYM   A0A "p0460FAULT"              :B5                  #              #p0460FAULT {3}
SYM   A0A "p0460UPDATED"            :B6                  #              #p0460UPDATED {3}
SYM   A0A "p0460MALF"               :B7                  #              #p0460MALF {3}
SYM   A0B "p0460CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0460. Evaporative Emission Control System Leak Detected (gross leak) {3}
SYM   A0B "p0460FAULT_A"            :B7                  #              #p0460FAULT_A {3}
SYM   A0C "p0602_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0602. Control Module Read Only Memory(ROM) {3}
SYM   A0C "p0602MIL_ON"             :B4                  #              #p0602MIL_ON {3}
SYM   A0C "p0602FAULT"              :B5                  #              #p0602FAULT {3}
SYM   A0C "p0602UPDATED"            :B6                  #              #p0602UPDATED {3}
SYM   A0C "p0602MALF"               :B7                  #              #p0602MALF {3}
SYM   A0D "p0602CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0602. Control Module Read Only Memory(ROM) {3}
SYM   A0D "p0602FAULT_A"            :B7                  #              #p0602FAULT_A {3}
SYM   A0E "p0704_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0704. Torque Converter/Brake Switch B Circuit Malfunction {3}
SYM   A0E "p0704MIL_ON"             :B4                  #              #p0704MIL_ON {3}
SYM   A0E "p0704FAULT"              :B5                  #              #p0704FAULT {3}
SYM   A0E "p0704UPDATED"            :B6                  #              #p0704UPDATED {3}
SYM   A0E "p0704MALF"               :B7                  #              #p0704MALF {3}
SYM   A0F "p0704CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0704. Torque Converter/Brake Switch B Circuit Malfunction {3}
SYM   A0F "p0704FAULT_A"            :B7                  #              #p0704FAULT_A {3}
SYM   A10 "p0712_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0712. Transmission Fluid Temperature Sensor Circuit Range/Performance {3}
SYM   A10 "p0712MIL_ON"             :B4                  #              #p0712MIL_ON {3}
SYM   A10 "p0712FAULT"              :B5                  #              #p0712FAULT {3}
SYM   A10 "p0712UPDATED"            :B6                  #              #p0712UPDATED {3}
SYM   A10 "p0712MALF"               :B7                  #              #p0712MALF {3}
SYM   A11 "p0712CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0712. Transmission Fluid Temperature Sensor Circuit Range/Performance {3}
SYM   A11 "p0712FAULT_A"            :B7                  #              #p0712FAULT_A {3}
SYM   A12 "p0713_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0713. Transmission Fluid Temperature Sensor Circuit Low Input {3}
SYM   A12 "p0713MIL_ON"             :B4                  #              #p0713MIL_ON {3}
SYM   A12 "p0713FAULT"              :B5                  #              #p0713FAULT {3}
SYM   A12 "p0713UPDATED"            :B6                  #              #p0713UPDATED {3}
SYM   A12 "p0713MALF"               :B7                  #              #p0713MALF {3}
SYM   A13 "p0713CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0713. Transmission Fluid Temperature Sensor Circuit Low Input {3}
SYM   A13 "p0713FAULT_A"            :B7                  #              #p0713FAULT_A {3}
SYM   A14 "p0721_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0721. Output Speed Sensor Circuit Malfunction {3}
SYM   A14 "p0721MIL_ON"             :B4                  #              #p0721MIL_ON {3}
SYM   A14 "p0721FAULT"              :B5                  #              #p0721FAULT {3}
SYM   A14 "p0721UPDATED"            :B6                  #              #p0721UPDATED {3}
SYM   A14 "p0721MALF"               :B7                  #              #p0721MALF {3}
SYM   A15 "p0721CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0721. Output Speed Sensor Circuit Malfunction {3}
SYM   A15 "p0721FAULT_A"            :B7                  #              #p0721FAULT_A {3}
SYM   A16 "p0741_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0741. Torque Converter Clutch Circuit Malfuction {3}
SYM   A16 "p0741MIL_ON"             :B4                  #              #p0741MIL_ON {3}
SYM   A16 "p0741FAULT"              :B5                  #              #p0741FAULT {3}
SYM   A16 "p0741UPDATED"            :B6                  #              #p0741UPDATED {3}
SYM   A16 "p0741MALF"               :B7                  #              #p0741MALF {3}
SYM   A17 "p0741CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0741. Torque Converter Clutch Circuit Malfuction {3}
SYM   A17 "p0741FAULT_A"            :B7                  #              #p0741FAULT_A {3}
SYM   A18 "p0781_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0781. Pressure Control Solenoid B Stuck On {3}
SYM   A18 "p0781MIL_ON"             :B4                  #              #p0781MIL_ON {3}
SYM   A18 "p0781FAULT"              :B5                  #              #p0781FAULT {3}
SYM   A18 "p0781UPDATED"            :B6                  #              #p0781UPDATED {3}
SYM   A18 "p0781MALF"               :B7                  #              #p0781MALF {3}
SYM   A19 "p0781CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0781. Pressure Control Solenoid B Stuck On {3}
SYM   A19 "p0781FAULT_A"            :B7                  #              #p0781FAULT_A {3}
SYM   A1A "p0782_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0782. Pressure Control Solenoid B Electrical {3}
SYM   A1A "p0782MIL_ON"             :B4                  #              #p0782MIL_ON {3}
SYM   A1A "p0782FAULT"              :B5                  #              #p0782FAULT {3}
SYM   A1A "p0782UPDATED"            :B6                  #              #p0782UPDATED {3}
SYM   A1A "p0782MALF"               :B7                  #              #p0782MALF {3}
SYM   A1B "p0782CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0782. Pressure Control Solenoid B Electrical {3}
SYM   A1B "p0782FAULT_A"            :B7                  #              #p0782FAULT_A {3}
SYM   A1C "p0783_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0783. Pressure Control Solenoid B Intermittent {3}
SYM   A1C "p0783MIL_ON"             :B4                  #              #p0783MIL_ON {3}
SYM   A1C "p0783FAULT"              :B5                  #              #p0783FAULT {3}
SYM   A1C "p0783UPDATED"            :B6                  #              #p0783UPDATED {3}
SYM   A1C "p0783MALF"               :B7                  #              #p0783MALF {3}
SYM   A1D "p0783CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0783. Pressure Control Solenoid B Intermittent {3}
SYM   A1D "p0783FAULT_A"            :B7                  #              #p0783FAULT_A {3}
SYM   A1E "p1000_RECORD"            #[??=flo(X*1)]       #              # {3}
SYM   A1E "p1000MIL_ON"             :B4                  #              #p1000MIL_ON {3}
SYM   A1E "p1000FAULT"              :B5                  #              #p1000FAULT {3}
SYM   A1E "p1000UPDATED"            :B6                  #              #p1000UPDATED {3}
SYM   A1E "p1000MALF"               :B7                  #              #p1000MALF {3}
SYM   A1F "p1000CNT"                #[??=flo(X*1)]       #              # {3}
SYM   A1F "p1000FAULT_A"            :B7                  #              #p1000FAULT_A {3}
SYM   A20 "p1100_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1100. Normal/Performance Switch Circuit Malfunction {3}
SYM   A20 "p1100MIL_ON"             :B4                  #              #p1100MIL_ON {3}
SYM   A20 "p1100FAULT"              :B5                  #              #p1100FAULT {3}
SYM   A20 "p1100UPDATED"            :B6                  #              #p1100UPDATED {3}
SYM   A20 "p1100MALF"               :B7                  #              #p1100MALF {3}
SYM   A21 "p1100CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1100. Normal/Performance Switch Circuit Malfunction {3}
SYM   A21 "p1100FAULT_A"            :B7                  #              #p1100FAULT_A {3}
SYM   A22 "p0230_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0230. Throttle/Petal Position Sensor/Switch C Circuit Intermittent {3}
SYM   A22 "p0230MIL_ON"             :B4                  #              #p0230MIL_ON {3}
SYM   A22 "p0230FAULT"              :B5                  #              #p0230FAULT {3}
SYM   A22 "p0230UPDATED"            :B6                  #              #p0230UPDATED {3}
SYM   A22 "p0230MALF"               :B7                  #              #p0230MALF {3}
SYM   A23 "p0230CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0230. Throttle/Petal Position Sensor/Switch C Circuit Intermittent {3}
SYM   A23 "p0230FAULT_A"            :B7                  #              #p0230FAULT_A {3}
SYM   A24 "p0231_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0231. Fuel Pump Primary Circuit Malfunction {3}
SYM   A24 "p0231MIL_ON"             :B4                  #              #p0231MIL_ON {3}
SYM   A24 "p0231FAULT"              :B5                  #              #p0231FAULT {3}
SYM   A24 "p0231UPDATED"            :B6                  #              #p0231UPDATED {3}
SYM   A24 "p0231MALF"               :B7                  #              #p0231MALF {3}
SYM   A25 "p0231CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0231. Fuel Pump Primary Circuit Malfunction {3}
SYM   A25 "p0231FAULT_A"            :B7                  #              #p0231FAULT_A {3}
SYM   A26 "p0232_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0232. Fuel Pump Secondary Circuit Low {3}
SYM   A26 "p0232MIL_ON"             :B4                  #              #p0232MIL_ON {3}
SYM   A26 "p0232FAULT"              :B5                  #              #p0232FAULT {3}
SYM   A26 "p0232UPDATED"            :B6                  #              #p0232UPDATED {3}
SYM   A26 "p0232MALF"               :B7                  #              #p0232MALF {3}
SYM   A27 "p0232CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0232. Fuel Pump Secondary Circuit Low {3}
SYM   A27 "p0232FAULT_A"            :B7                  #              #p0232FAULT_A {3}
SYM   A28 "p0121_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0121. Throttle Position Sensor/Switch A Circuit Range/Performance Problem {3}
SYM   A28 "p0121MIL_ON"             :B4                  #              #p0121MIL_ON {3}
SYM   A28 "p0121FAULT"              :B5                  #              #p0121FAULT {3}
SYM   A28 "p0121UPDATED"            :B6                  #              #p0121UPDATED {3}
SYM   A28 "p0121MALF"               :B7                  #              #p0121MALF {3}
SYM   A29 "p0121CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0121. Throttle Position Sensor/Switch A Circuit Range/Performance Problem {3}
SYM   A29 "p0121FAULT_A"            :B7                  #              #p0121FAULT_A {3}
SYM   A2A "p1260_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1260. Pedal Correlation PDS2 and LPDS Low {3}
SYM   A2A "p1260MIL_ON"             :B4                  #              #p1260MIL_ON {3}
SYM   A2A "p1260FAULT"              :B5                  #              #p1260FAULT {3}
SYM   A2A "p1260UPDATED"            :B6                  #              #p1260UPDATED {3}
SYM   A2A "p1260MALF"               :B7                  #              #p1260MALF {3}
SYM   A2B "p1260CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1260. Pedal Correlation PDS2 and LPDS Low {3}
SYM   A2B "p1260FAULT_A"            :B7                  #              #p1260FAULT_A {3}
SYM   A2C "p1270_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1270. Cylinder #5 High To Low Side Short {3}
SYM   A2C "p1270MIL_ON"             :B4                  #              #p1270MIL_ON {3}
SYM   A2C "p1270FAULT"              :B5                  #              #p1270FAULT {3}
SYM   A2C "p1270UPDATED"            :B6                  #              #p1270UPDATED {3}
SYM   A2C "p1270MALF"               :B7                  #              #p1270MALF {3}
SYM   A2D "p1270CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1270. Cylinder #5 High To Low Side Short {3}
SYM   A2D "p1270FAULT_A"            :B7                  #              #p1270FAULT_A {3}
SYM   A2E "p1288_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1288. IPR Circuit Failure {3}
SYM   A2E "p1288MIL_ON"             :B4                  #              #p1288MIL_ON {3}
SYM   A2E "p1288FAULT"              :B5                  #              #p1288FAULT {3}
SYM   A2E "p1288UPDATED"            :B6                  #              #p1288UPDATED {3}
SYM   A2E "p1288MALF"               :B7                  #              #p1288MALF {3}
SYM   A2F "p1288CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1288. IPR Circuit Failure {3}
SYM   A2F "p1288FAULT_A"            :B7                  #              #p1288FAULT_A {3}
SYM   A30 "p1289_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1289. Aborted KOER - ICP Failure {3}
SYM   A30 "p1289MIL_ON"             :B4                  #              #p1289MIL_ON {3}
SYM   A30 "p1289FAULT"              :B5                  #              #p1289FAULT {3}
SYM   A30 "p1289UPDATED"            :B6                  #              #p1289UPDATED {3}
SYM   A30 "p1289MALF"               :B7                  #              #p1289MALF {3}
SYM   A31 "p1289CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1289. Aborted KOER - ICP Failure {3}
SYM   A31 "p1289FAULT_A"            :B7                  #              #p1289FAULT_A {3}
SYM   A32 "p1290_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1290. Cylinder head over temp sensed {3}
SYM   A32 "p1290MIL_ON"             :B4                  #              #p1290MIL_ON {3}
SYM   A32 "p1290FAULT"              :B5                  #              #p1290FAULT {3}
SYM   A32 "p1290UPDATED"            :B6                  #              #p1290UPDATED {3}
SYM   A32 "p1290MALF"               :B7                  #              #p1290MALF {3}
SYM   A33 "p1290CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1290. Cylinder head over temp sensed {3}
SYM   A33 "p1290FAULT_A"            :B7                  #              #p1290FAULT_A {3}
SYM   A34 "p1112_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1112. Dual Alternator Lower Circuit Malfunction/ Manifold Absolute Pressure (MAP) Sensor Circuit Intermittent Low Voltage {3}
SYM   A34 "p1112MIL_ON"             :B4                  #              #p1112MIL_ON {3}
SYM   A34 "p1112FAULT"              :B5                  #              #p1112FAULT {3}
SYM   A34 "p1112UPDATED"            :B6                  #              #p1112UPDATED {3}
SYM   A34 "p1112MALF"               :B7                  #              #p1112MALF {3}
SYM   A35 "p1112CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1112. Dual Alternator Lower Circuit Malfunction/ Manifold Absolute Pressure (MAP) Sensor Circuit Intermittent Low Voltage {3}
SYM   A35 "p1112FAULT_A"            :B7                  #              #p1112FAULT_A {3}
SYM   A36 "p1117_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1117. Intake Air Temperature (IAT) Sensor Circuit Intermittent Low Voltage {3}
SYM   A36 "p1117MIL_ON"             :B4                  #              #p1117MIL_ON {3}
SYM   A36 "p1117FAULT"              :B5                  #              #p1117FAULT {3}
SYM   A36 "p1117UPDATED"            :B6                  #              #p1117UPDATED {3}
SYM   A36 "p1117MALF"               :B7                  #              #p1117MALF {3}
SYM   A37 "p1117CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1117. Intake Air Temperature (IAT) Sensor Circuit Intermittent Low Voltage {3}
SYM   A37 "p1117FAULT_A"            :B7                  #              #p1117FAULT_A {3}
SYM   A38 "p1125_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1125. Throttle position sensor out of range {3}
SYM   A38 "p1125MIL_ON"             :B4                  #              #p1125MIL_ON {3}
SYM   A38 "p1125FAULT"              :B5                  #              #p1125FAULT {3}
SYM   A38 "p1125UPDATED"            :B6                  #              #p1125UPDATED {3}
SYM   A38 "p1125MALF"               :B7                  #              #p1125MALF {3}
SYM   A39 "p1125CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1125. Throttle position sensor out of range {3}
SYM   A39 "p1125FAULT_A"            :B7                  #              #p1125FAULT_A {3}
SYM   A3A "p1127_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1127. Throttle Position (TP) Sensor Circuit Intermittent Low Voltage {3}
SYM   A3A "p1127MIL_ON"             :B4                  #              #p1127MIL_ON {3}
SYM   A3A "p1127FAULT"              :B5                  #              #p1127FAULT {3}
SYM   A3A "p1127UPDATED"            :B6                  #              #p1127UPDATED {3}
SYM   A3A "p1127MALF"               :B7                  #              #p1127MALF {3}
SYM   A3B "p1127CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1127. Throttle Position (TP) Sensor Circuit Intermittent Low Voltage {3}
SYM   A3B "p1127FAULT_A"            :B7                  #              #p1127FAULT_A {3}
SYM   A3C "p1128_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1128. Throttle Position Sensor In Range But Higher Than Expected {3}
SYM   A3C "p1128MIL_ON"             :B4                  #              #p1128MIL_ON {3}
SYM   A3C "p1128FAULT"              :B5                  #              #p1128FAULT {3}
SYM   A3C "p1128UPDATED"            :B6                  #              #p1128UPDATED {3}
SYM   A3C "p1128MALF"               :B7                  #              #p1128MALF {3}
SYM   A3D "p1128CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1128. Throttle Position Sensor In Range But Higher Than Expected {3}
SYM   A3D "p1128FAULT_A"            :B7                  #              #p1128FAULT_A {3}
SYM   A3E "p1129_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1129. Throttle Position Sensor Out Of Self Test Range {3}
SYM   A3E "p1129MIL_ON"             :B4                  #              #p1129MIL_ON {3}
SYM   A3E "p1129FAULT"              :B5                  #              #p1129FAULT {3}
SYM   A3E "p1129UPDATED"            :B6                  #              #p1129UPDATED {3}
SYM   A3E "p1129MALF"               :B7                  #              #p1129MALF {3}
SYM   A3F "p1129CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1129. Throttle Position Sensor Out Of Self Test Range {3}
SYM   A3F "p1129FAULT_A"            :B7                  #              #p1129FAULT_A {3}
SYM   A40 "p1137_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1137. Lack Of HO2S Switch - Sensor Indicates Rich {3}
SYM   A40 "p1137MIL_ON"             :B4                  #              #p1137MIL_ON {3}
SYM   A40 "p1137FAULT"              :B5                  #              #p1137FAULT {3}
SYM   A40 "p1137UPDATED"            :B6                  #              #p1137UPDATED {3}
SYM   A40 "p1137MALF"               :B7                  #              #p1137MALF {3}
SYM   A41 "p1137CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1137. Lack Of HO2S Switch - Sensor Indicates Rich {3}
SYM   A41 "p1137FAULT_A"            :B7                  #              #p1137FAULT_A {3}
SYM   A42 "p1138_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1138. HO2S Insufficient Switching Sensor 1 {3}
SYM   A42 "p1138MIL_ON"             :B4                  #              #p1138MIL_ON {3}
SYM   A42 "p1138FAULT"              :B5                  #              #p1138FAULT {3}
SYM   A42 "p1138UPDATED"            :B6                  #              #p1138UPDATED {3}
SYM   A42 "p1138MALF"               :B7                  #              #p1138MALF {3}
SYM   A43 "p1138CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1138. HO2S Insufficient Switching Sensor 1 {3}
SYM   A43 "p1138FAULT_A"            :B7                  #              #p1138FAULT_A {3}
SYM   A44 "p1157_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1157. Lack Of HO2S21 Switch - Sensor Indicates Rich {3}
SYM   A44 "p1157MIL_ON"             :B4                  #              #p1157MIL_ON {3}
SYM   A44 "p1157FAULT"              :B5                  #              #p1157FAULT {3}
SYM   A44 "p1157UPDATED"            :B6                  #              #p1157UPDATED {3}
SYM   A44 "p1157MALF"               :B7                  #              #p1157MALF {3}
SYM   A45 "p1157CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1157. Lack Of HO2S21 Switch - Sensor Indicates Rich {3}
SYM   A45 "p1157FAULT_A"            :B7                  #              #p1157FAULT_A {3}
SYM   A46 "p1158_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1158. Bank 2 Fuel Control Shifted Lean {3}
SYM   A46 "p1158MIL_ON"             :B4                  #              #p1158MIL_ON {3}
SYM   A46 "p1158FAULT"              :B5                  #              #p1158FAULT {3}
SYM   A46 "p1158UPDATED"            :B6                  #              #p1158UPDATED {3}
SYM   A46 "p1158MALF"               :B7                  #              #p1158MALF {3}
SYM   A47 "p1158CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1158. Bank 2 Fuel Control Shifted Lean {3}
SYM   A47 "p1158FAULT_A"            :B7                  #              #p1158FAULT_A {3}
SYM   A48 "p1232_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1232. Wastegate Failed Closed (Over Pressure) {3}
SYM   A48 "p1232MIL_ON"             :B4                  #              #p1232MIL_ON {3}
SYM   A48 "p1232FAULT"              :B5                  #              #p1232FAULT {3}
SYM   A48 "p1232UPDATED"            :B6                  #              #p1232UPDATED {3}
SYM   A48 "p1232MALF"               :B7                  #              #p1232MALF {3}
SYM   A49 "p1232CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1232. Wastegate Failed Closed (Over Pressure) {3}
SYM   A49 "p1232FAULT_A"            :B7                  #              #p1232FAULT_A {3}
SYM   A4A "p1234_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1234. Intercooler Pump Driver Fault {3}
SYM   A4A "p1234MIL_ON"             :B4                  #              #p1234MIL_ON {3}
SYM   A4A "p1234FAULT"              :B5                  #              #p1234FAULT {3}
SYM   A4A "p1234UPDATED"            :B6                  #              #p1234UPDATED {3}
SYM   A4A "p1234MALF"               :B7                  #              #p1234MALF {3}
SYM   A4B "p1234CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1234. Intercooler Pump Driver Fault {3}
SYM   A4B "p1234FAULT_A"            :B7                  #              #p1234FAULT_A {3}
SYM   A4C "p1236_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1236. Fuel Pump Secondary Circuit Low {3}
SYM   A4C "p1236MIL_ON"             :B4                  #              #p1236MIL_ON {3}
SYM   A4C "p1236FAULT"              :B5                  #              #p1236FAULT {3}
SYM   A4C "p1236UPDATED"            :B6                  #              #p1236UPDATED {3}
SYM   A4C "p1236MALF"               :B7                  #              #p1236MALF {3}
SYM   A4D "p1236CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1236. Fuel Pump Secondary Circuit Low {3}
SYM   A4D "p1236FAULT_A"            :B7                  #              #p1236FAULT_A {3}
SYM   A4E "p1238_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1238. Fuel Pump Driver Module Off Line {3}
SYM   A4E "p1238MIL_ON"             :B4                  #              #p1238MIL_ON {3}
SYM   A4E "p1238FAULT"              :B5                  #              #p1238FAULT {3}
SYM   A4E "p1238UPDATED"            :B6                  #              #p1238UPDATED {3}
SYM   A4E "p1238MALF"               :B7                  #              #p1238MALF {3}
SYM   A4F "p1238CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1238. Fuel Pump Driver Module Off Line {3}
SYM   A4F "p1238FAULT_A"            :B7                  #              #p1238FAULT_A {3}
SYM   A50 "p1408_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1408. DPFE Sensor Hoses Reversed {3}
SYM   A50 "p1408MIL_ON"             :B4                  #              #p1408MIL_ON {3}
SYM   A50 "p1408FAULT"              :B5                  #              #p1408FAULT {3}
SYM   A50 "p1408UPDATED"            :B6                  #              #p1408UPDATED {3}
SYM   A50 "p1408MALF"               :B7                  #              #p1408MALF {3}
SYM   A51 "p1408CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1408. DPFE Sensor Hoses Reversed {3}
SYM   A51 "p1408FAULT_A"            :B7                  #              #p1408FAULT_A {3}
SYM   A52 "p1460_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1460. Fuel Tank Pressure Relief Valve Malfunction {3}
SYM   A52 "p1460MIL_ON"             :B4                  #              #p1460MIL_ON {3}
SYM   A52 "p1460FAULT"              :B5                  #              #p1460FAULT {3}
SYM   A52 "p1460UPDATED"            :B6                  #              #p1460UPDATED {3}
SYM   A52 "p1460MALF"               :B7                  #              #p1460MALF {3}
SYM   A53 "p1460CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1460. Fuel Tank Pressure Relief Valve Malfunction {3}
SYM   A53 "p1460FAULT_A"            :B7                  #              #p1460FAULT_A {3}
SYM   A54 "p1469_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1469. A/C Demand Out of Self Test Range {3}
SYM   A54 "p1469MIL_ON"             :B4                  #              #p1469MIL_ON {3}
SYM   A54 "p1469FAULT"              :B5                  #              #p1469FAULT {3}
SYM   A54 "p1469UPDATED"            :B6                  #              #p1469UPDATED {3}
SYM   A54 "p1469MALF"               :B7                  #              #p1469MALF {3}
SYM   A55 "p1469CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1469. A/C Demand Out of Self Test Range {3}
SYM   A55 "p1469FAULT_A"            :B7                  #              #p1469FAULT_A {3}
SYM   A56 "p1474_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1474. Low A/C Cycling Period {3}
SYM   A56 "p1474MIL_ON"             :B4                  #              #p1474MIL_ON {3}
SYM   A56 "p1474FAULT"              :B5                  #              #p1474FAULT {3}
SYM   A56 "p1474UPDATED"            :B6                  #              #p1474UPDATED {3}
SYM   A56 "p1474MALF"               :B7                  #              #p1474MALF {3}
SYM   A57 "p1474CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1474. Low A/C Cycling Period {3}
SYM   A57 "p1474FAULT_A"            :B7                  #              #p1474FAULT_A {3}
SYM   A58 "p1484_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1484. High Fan Control Primary Circuit Malfunction {3}
SYM   A58 "p1484MIL_ON"             :B4                  #              #p1484MIL_ON {3}
SYM   A58 "p1484FAULT"              :B5                  #              #p1484FAULT {3}
SYM   A58 "p1484UPDATED"            :B6                  #              #p1484UPDATED {3}
SYM   A58 "p1484MALF"               :B7                  #              #p1484MALF {3}
SYM   A59 "p1484CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1484. High Fan Control Primary Circuit Malfunction {3}
SYM   A59 "p1484FAULT_A"            :B7                  #              #p1484FAULT_A {3}
SYM   A5A "p1479_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1479. Low Fan Control Primary Circuit Malfunction {3}
SYM   A5A "p1479MIL_ON"             :B4                  #              #p1479MIL_ON {3}
SYM   A5A "p1479FAULT"              :B5                  #              #p1479FAULT {3}
SYM   A5A "p1479UPDATED"            :B6                  #              #p1479UPDATED {3}
SYM   A5A "p1479MALF"               :B7                  #              #p1479MALF {3}
SYM   A5B "p1479CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1479. Low Fan Control Primary Circuit Malfunction {3}
SYM   A5B "p1479FAULT_A"            :B7                  #              #p1479FAULT_A {3}
SYM   A5C "p1500_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1500. Secondary Switch Solenoid Circuit Malfunction {3}
SYM   A5C "p1500MIL_ON"             :B4                  #              #p1500MIL_ON {3}
SYM   A5C "p1500FAULT"              :B5                  #              #p1500FAULT {3}
SYM   A5C "p1500UPDATED"            :B6                  #              #p1500UPDATED {3}
SYM   A5C "p1500MALF"               :B7                  #              #p1500MALF {3}
SYM   A5D "p1500CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1500. Secondary Switch Solenoid Circuit Malfunction {3}
SYM   A5D "p1500FAULT_A"            :B7                  #              #p1500FAULT_A {3}
SYM   A5E "p1502_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1502. RCNT Solenoid Circuit Malfunction {3}
SYM   A5E "p1502MIL_ON"             :B4                  #              #p1502MIL_ON {3}
SYM   A5E "p1502FAULT"              :B5                  #              #p1502FAULT {3}
SYM   A5E "p1502UPDATED"            :B6                  #              #p1502UPDATED {3}
SYM   A5E "p1502MALF"               :B7                  #              #p1502MALF {3}
SYM   A5F "p1502CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1502. RCNT Solenoid Circuit Malfunction {3}
SYM   A5F "p1502FAULT_A"            :B7                  #              #p1502FAULT_A {3}
SYM   A60 "p1512_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1512. Idle Air Control Underspeed Error {3}
SYM   A60 "p1512MIL_ON"             :B4                  #              #p1512MIL_ON {3}
SYM   A60 "p1512FAULT"              :B5                  #              #p1512FAULT {3}
SYM   A60 "p1512UPDATED"            :B6                  #              #p1512UPDATED {3}
SYM   A60 "p1512MALF"               :B7                  #              #p1512MALF {3}
SYM   A61 "p1512CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1512. Idle Air Control Underspeed Error {3}
SYM   A61 "p1512FAULT_A"            :B7                  #              #p1512FAULT_A {3}
SYM   A62 "p1513_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1513. Idle Control System Circuit Open {3}
SYM   A62 "p1513MIL_ON"             :B4                  #              #p1513MIL_ON {3}
SYM   A62 "p1513FAULT"              :B5                  #              #p1513FAULT {3}
SYM   A62 "p1513UPDATED"            :B6                  #              #p1513UPDATED {3}
SYM   A62 "p1513MALF"               :B7                  #              #p1513MALF {3}
SYM   A63 "p1513CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1513. Idle Control System Circuit Open {3}
SYM   A63 "p1513FAULT_A"            :B7                  #              #p1513FAULT_A {3}
SYM   A64 "p1519_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1519. High Load Neutral/Drive Fault {3}
SYM   A64 "p1519MIL_ON"             :B4                  #              #p1519MIL_ON {3}
SYM   A64 "p1519FAULT"              :B5                  #              #p1519FAULT {3}
SYM   A64 "p1519UPDATED"            :B6                  #              #p1519UPDATED {3}
SYM   A64 "p1519MALF"               :B7                  #              #p1519MALF {3}
SYM   A65 "p1519CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1519. High Load Neutral/Drive Fault {3}
SYM   A65 "p1519FAULT_A"            :B7                  #              #p1519FAULT_A {3}
SYM   A66 "p0603_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0603. Control Module Programming Error {3}
SYM   A66 "p0603MIL_ON"             :B4                  #              #p0603MIL_ON {3}
SYM   A66 "p0603FAULT"              :B5                  #              #p0603FAULT {3}
SYM   A66 "p0603UPDATED"            :B6                  #              #p0603UPDATED {3}
SYM   A66 "p0603MALF"               :B7                  #              #p0603MALF {3}
SYM   A67 "p0603CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0603. Control Module Programming Error {3}
SYM   A67 "p0603FAULT_A"            :B7                  #              #p0603FAULT_A {3}
SYM   A68 "p0501_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0501. Vehicle Speed Sensor Malfunction {3}
SYM   A68 "p0501MIL_ON"             :B4                  #              #p0501MIL_ON {3}
SYM   A68 "p0501FAULT"              :B5                  #              #p0501FAULT {3}
SYM   A68 "p0501UPDATED"            :B6                  #              #p0501UPDATED {3}
SYM   A68 "p0501MALF"               :B7                  #              #p0501MALF {3}
SYM   A69 "p0501CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0501. Vehicle Speed Sensor Malfunction {3}
SYM   A69 "p0501FAULT_A"            :B7                  #              #p0501FAULT_A {3}


SYM   A6A "U1051_RECORD"            #[UW]                               # {7}
SYM   A6A "U1051MIL_ON"             :B4                                 # {7}
SYM   A6A "U1051FAULT"              :B5                                 # {7}
SYM   A6A "U1051UPDATED"            :B6                                 # {7}
SYM   A6A "U1051MALF"               :B7                                 # {7}
SYM   A6B "U1051CNT"                #[UY]                               # {7}
SYM   A6B "U1051FAULT_A"            :B7                                 # {7}



#SYM   A6A "pd051_RECORD"            #[??=flo(X*1)]       #              # {3}
#SYM   A6A "pd051MIL_ON"             :B4                  #              #pd051MIL_ON {3}
#SYM   A6A "pd051FAULT"              :B5                  #              #pd051FAULT {3}
#SYM   A6A "pd051UPDATED"            :B6                  #              #pd051UPDATED {3}
#SYM   A6A "pd051MALF"               :B7                  #              #pd051MALF {3}
#SYM   A6B "pd051CNT"                #[??=flo(X*1)]       #              # {3}
#SYM   A6B "pd051FAULT_A"            :B7                  #              #pd051FAULT_A {3}


SYM   A6C "p1710_RECORD"            #[??=flo(X*1)]       #              # {3}
SYM   A6C "p1710MIL_ON"             :B4                  #              #p1710MIL_ON {3}
SYM   A6C "p1710FAULT"              :B5                  #              #p1710FAULT {3}
SYM   A6C "p1710UPDATED"            :B6                  #              #p1710UPDATED {3}
SYM   A6C "p1710MALF"               :B7                  #              #p1710MALF {3}
SYM   A6D "p1710CNT"                #[??=flo(X*1)]       #              # {3}
SYM   A6D "p1710FAULT_A"            :B7                  #              #p1710FAULT_A {3}
SYM   A6E "p1713_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1713. Transfer Case Neutral Indicator Hard Fault Present {3}
SYM   A6E "p1713MIL_ON"             :B4                  #              #p1713MIL_ON {3}
SYM   A6E "p1713FAULT"              :B5                  #              #p1713FAULT {3}
SYM   A6E "p1713UPDATED"            :B6                  #              #p1713UPDATED {3}
SYM   A6E "p1713MALF"               :B7                  #              #p1713MALF {3}
SYM   A6F "p1713CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1713. Transfer Case Neutral Indicator Hard Fault Present {3}
SYM   A6F "p1713FAULT_A"            :B7                  #              #p1713FAULT_A {3}
SYM   A70 "p1718_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1718. TFT Sensor In Range Failure Low Value {3}
SYM   A70 "p1718MIL_ON"             :B4                  #              #p1718MIL_ON {3}
SYM   A70 "p1718FAULT"              :B5                  #              #p1718FAULT {3}
SYM   A70 "p1718UPDATED"            :B6                  #              #p1718UPDATED {3}
SYM   A70 "p1718MALF"               :B7                  #              #p1718MALF {3}
SYM   A71 "p1718CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1718. TFT Sensor In Range Failure Low Value {3}
SYM   A71 "p1718FAULT_A"            :B7                  #              #p1718FAULT_A {3}
SYM   A72 "p1728_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1728. Gear 3 incorrect Ratio {3}
SYM   A72 "p1728MIL_ON"             :B4                  #              #p1728MIL_ON {3}
SYM   A72 "p1728FAULT"              :B5                  #              #p1728FAULT {3}
SYM   A72 "p1728UPDATED"            :B6                  #              #p1728UPDATED {3}
SYM   A72 "p1728MALF"               :B7                  #              #p1728MALF {3}
SYM   A73 "p1728CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1728. Gear 3 incorrect Ratio {3}
SYM   A73 "p1728FAULT_A"            :B7                  #              #p1728FAULT_A {3}
SYM   A74 "p1729_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1729. Gear 4 Incorrect Ratio {3}
SYM   A74 "p1729MIL_ON"             :B4                  #              #p1729MIL_ON {3}
SYM   A74 "p1729FAULT"              :B5                  #              #p1729FAULT {3}
SYM   A74 "p1729UPDATED"            :B6                  #              #p1729UPDATED {3}
SYM   A74 "p1729MALF"               :B7                  #              #p1729MALF {3}
SYM   A75 "p1729CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1729. Gear 4 Incorrect Ratio {3}
SYM   A75 "p1729FAULT_A"            :B7                  #              #p1729FAULT_A {3}
SYM   A76 "p1741_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1741. Second Gear Switch Circuit Malfunction {3}
SYM   A76 "p1741MIL_ON"             :B4                  #              #p1741MIL_ON {3}
SYM   A76 "p1741FAULT"              :B5                  #              #p1741FAULT {3}
SYM   A76 "p1741UPDATED"            :B6                  #              #p1741UPDATED {3}
SYM   A76 "p1741MALF"               :B7                  #              #p1741MALF {3}
SYM   A77 "p1741CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1741. Second Gear Switch Circuit Malfunction {3}
SYM   A77 "p1741FAULT_A"            :B7                  #              #p1741FAULT_A {3}
SYM   A78 "p1743_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1743. Shift Time Error {3}
SYM   A78 "p1743MIL_ON"             :B4                  #              #p1743MIL_ON {3}
SYM   A78 "p1743FAULT"              :B5                  #              #p1743FAULT {3}
SYM   A78 "p1743UPDATED"            :B6                  #              #p1743UPDATED {3}
SYM   A78 "p1743MALF"               :B7                  #              #p1743MALF {3}
SYM   A79 "p1743CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1743. Shift Time Error {3}
SYM   A79 "p1743FAULT_A"            :B7                  #              #p1743FAULT_A {3}
SYM   A7A "p1746_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1746. Torque Converter Clutch Control Error {3}
SYM   A7A "p1746MIL_ON"             :B4                  #              #p1746MIL_ON {3}
SYM   A7A "p1746FAULT"              :B5                  #              #p1746FAULT {3}
SYM   A7A "p1746UPDATED"            :B6                  #              #p1746UPDATED {3}
SYM   A7A "p1746MALF"               :B7                  #              #p1746MALF {3}
SYM   A7B "p1746CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1746. Torque Converter Clutch Control Error {3}
SYM   A7B "p1746FAULT_A"            :B7                  #              #p1746FAULT_A {3}
SYM   A7C "p1751_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1751. Line Pressure Solenoid System {3}
SYM   A7C "p1751MIL_ON"             :B4                  #              #p1751MIL_ON {3}
SYM   A7C "p1751FAULT"              :B5                  #              #p1751FAULT {3}
SYM   A7C "p1751UPDATED"            :B6                  #              #p1751UPDATED {3}
SYM   A7C "p1751MALF"               :B7                  #              #p1751MALF {3}
SYM   A7D "p1751CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1751. Line Pressure Solenoid System {3}
SYM   A7D "p1751FAULT_A"            :B7                  #              #p1751FAULT_A {3}
SYM   A7E "p1756_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1756. EPC Malfunction {3}
SYM   A7E "p1756MIL_ON"             :B4                  #              #p1756MIL_ON {3}
SYM   A7E "p1756FAULT"              :B5                  #              #p1756FAULT {3}
SYM   A7E "p1756UPDATED"            :B6                  #              #p1756UPDATED {3}
SYM   A7E "p1756MALF"               :B7                  #              #p1756MALF {3}
SYM   A7F "p1756CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1756. EPC Malfunction {3}
SYM   A7F "p1756FAULT_A"            :B7                  #              #p1756FAULT_A {3}
SYM   A80 "p1760_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1760. Pressure Control Solenoid Failed Low {3}
SYM   A80 "p1760MIL_ON"             :B4                  #              #p1760MIL_ON {3}
SYM   A80 "p1760FAULT"              :B5                  #              #p1760FAULT {3}
SYM   A80 "p1760UPDATED"            :B6                  #              #p1760UPDATED {3}
SYM   A80 "p1760MALF"               :B7                  #              #p1760MALF {3}
SYM   A81 "p1760CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1760. Pressure Control Solenoid Failed Low {3}
SYM   A81 "p1760FAULT_A"            :B7                  #              #p1760FAULT_A {3}
SYM   A82 "p1767_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1767. Shift Solenoid B Performance {3}
SYM   A82 "p1767MIL_ON"             :B4                  #              #p1767MIL_ON {3}
SYM   A82 "p1767FAULT"              :B5                  #              #p1767FAULT {3}
SYM   A82 "p1767UPDATED"            :B6                  #              #p1767UPDATED {3}
SYM   A82 "p1767MALF"               :B7                  #              #p1767MALF {3}
SYM   A83 "p1767CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1767. Shift Solenoid B Performance {3}
SYM   A83 "p1767FAULT_A"            :B7                  #              #p1767FAULT_A {3}
SYM   A84 "p1900_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1900. Engine Coolant Level Lamp Circuit Short to Ground {3}
SYM   A84 "p1900MIL_ON"             :B4                  #              #p1900MIL_ON {3}
SYM   A84 "p1900FAULT"              :B5                  #              #p1900FAULT {3}
SYM   A84 "p1900UPDATED"            :B6                  #              #p1900UPDATED {3}
SYM   A84 "p1900MALF"               :B7                  #              #p1900MALF {3}
SYM   A85 "p1900CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1900. Engine Coolant Level Lamp Circuit Short to Ground {3}
SYM   A85 "p1900FAULT_A"            :B7                  #              #p1900FAULT_A {3}
SYM   A86 "p1461_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1461. Evaporative System Vacuum Test Malfunction {3}
SYM   A86 "p1461MIL_ON"             :B4                  #              #p1461MIL_ON {3}
SYM   A86 "p1461FAULT"              :B5                  #              #p1461FAULT {3}
SYM   A86 "p1461UPDATED"            :B6                  #              #p1461UPDATED {3}
SYM   A86 "p1461MALF"               :B7                  #              #p1461MALF {3}
SYM   A87 "p1461CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1461. Evaporative System Vacuum Test Malfunction {3}
SYM   A87 "p1461FAULT_A"            :B7                  #              #p1461FAULT_A {3}
SYM   A88 "p1462_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1462. Evap  Emission Control Sys  Leak Detected (Gross Leak/No Flow) {3}
SYM   A88 "p1462MIL_ON"             :B4                  #              #p1462MIL_ON {3}
SYM   A88 "p1462FAULT"              :B5                  #              #p1462FAULT {3}
SYM   A88 "p1462UPDATED"            :B6                  #              #p1462UPDATED {3}
SYM   A88 "p1462MALF"               :B7                  #              #p1462MALF {3}
SYM   A89 "p1462CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1462. Evap  Emission Control Sys  Leak Detected (Gross Leak/No Flow) {3}
SYM   A89 "p1462FAULT_A"            :B7                  #              #p1462FAULT_A {3}
SYM   A8A "p1463_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1463. Fuel Tank Temperature Sensor Circuit Malfunction {3}
SYM   A8A "p1463MIL_ON"             :B4                  #              #p1463MIL_ON {3}
SYM   A8A "p1463FAULT"              :B5                  #              #p1463FAULT {3}
SYM   A8A "p1463UPDATED"            :B6                  #              #p1463UPDATED {3}
SYM   A8A "p1463MALF"               :B7                  #              #p1463MALF {3}
SYM   A8B "p1463CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1463. Fuel Tank Temperature Sensor Circuit Malfunction {3}
SYM   A8B "p1463FAULT_A"            :B7                  #              #p1463FAULT_A {3}
SYM   A8C "p1464_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1464. Unable To Pull Vacuum In Tank {3}
SYM   A8C "p1464MIL_ON"             :B4                  #              #p1464MIL_ON {3}
SYM   A8C "p1464FAULT"              :B5                  #              #p1464FAULT {3}
SYM   A8C "p1464UPDATED"            :B6                  #              #p1464UPDATED {3}
SYM   A8C "p1464MALF"               :B7                  #              #p1464MALF {3}
SYM   A8D "p1464CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1464. Unable To Pull Vacuum In Tank {3}
SYM   A8D "p1464FAULT_A"            :B7                  #              #p1464FAULT_A {3}
SYM   A8E "p1702_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1702. Turbo Control Solenoid Circuit Malfunction {3}
SYM   A8E "p1702MIL_ON"             :B4                  #              #p1702MIL_ON {3}
SYM   A8E "p1702FAULT"              :B5                  #              #p1702FAULT {3}
SYM   A8E "p1702UPDATED"            :B6                  #              #p1702UPDATED {3}
SYM   A8E "p1702MALF"               :B7                  #              #p1702MALF {3}
SYM   A8F "p1702CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1702. Turbo Control Solenoid Circuit Malfunction {3}
SYM   A8F "p1702FAULT_A"            :B7                  #              #p1702FAULT_A {3}
SYM   A90 "p1705_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1705. Transmission Indeterminate Failure (Failed to Neutral) {3}
SYM   A90 "p1705MIL_ON"             :B4                  #              #p1705MIL_ON {3}
SYM   A90 "p1705FAULT"              :B5                  #              #p1705FAULT {3}
SYM   A90 "p1705UPDATED"            :B6                  #              #p1705UPDATED {3}
SYM   A90 "p1705MALF"               :B7                  #              #p1705MALF {3}
SYM   A91 "p1705CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1705. Transmission Indeterminate Failure (Failed to Neutral) {3}
SYM   A91 "p1705FAULT_A"            :B7                  #              #p1705FAULT_A {3}
SYM   A92 "p1709_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1709. Digital TRS Failed to Transition States in KOEO / KOER {3}
SYM   A92 "p1709MIL_ON"             :B4                  #              #p1709MIL_ON {3}
SYM   A92 "p1709FAULT"              :B5                  #              #p1709FAULT {3}
SYM   A92 "p1709UPDATED"            :B6                  #              #p1709UPDATED {3}
SYM   A92 "p1709MALF"               :B7                  #              #p1709MALF {3}
SYM   A93 "p1709CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1709. Digital TRS Failed to Transition States in KOEO / KOER {3}
SYM   A93 "p1709FAULT_A"            :B7                  #              #p1709FAULT_A {3}
SYM   A94 "p1780_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1780. Transmission System MIL Fault {3}
SYM   A94 "p1780MIL_ON"             :B4                  #              #p1780MIL_ON {3}
SYM   A94 "p1780FAULT"              :B5                  #              #p1780FAULT {3}
SYM   A94 "p1780UPDATED"            :B6                  #              #p1780UPDATED {3}
SYM   A94 "p1780MALF"               :B7                  #              #p1780MALF {3}
SYM   A95 "p1780CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1780. Transmission System MIL Fault {3}
SYM   A95 "p1780FAULT_A"            :B7                  #              #p1780FAULT_A {3}
SYM   A96 "p1781_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1781. Ignition Retard Request Duration Fault {3}
SYM   A96 "p1781MIL_ON"             :B4                  #              #p1781MIL_ON {3}
SYM   A96 "p1781FAULT"              :B5                  #              #p1781FAULT {3}
SYM   A96 "p1781UPDATED"            :B6                  #              #p1781UPDATED {3}
SYM   A96 "p1781MALF"               :B7                  #              #p1781MALF {3}
SYM   A97 "p1781CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1781. Ignition Retard Request Duration Fault {3}
SYM   A97 "p1781FAULT_A"            :B7                  #              #p1781FAULT_A {3}
SYM   A98 "p1783_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1783. Transmission Reverse I/P Circuit Malfunction {3}
SYM   A98 "p1783MIL_ON"             :B4                  #              #p1783MIL_ON {3}
SYM   A98 "p1783FAULT"              :B5                  #              #p1783FAULT {3}
SYM   A98 "p1783UPDATED"            :B6                  #              #p1783UPDATED {3}
SYM   A98 "p1783MALF"               :B7                  #              #p1783MALF {3}
SYM   A99 "p1783CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1783. Transmission Reverse I/P Circuit Malfunction {3}
SYM   A99 "p1783FAULT_A"            :B7                  #              #p1783FAULT_A {3}
SYM   A9A "p1116_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1116. Intake Air Temperature (IAT) Sensor Circuit Intermittent High Voltage {3}
SYM   A9A "p1116MIL_ON"             :B4                  #              #p1116MIL_ON {3}
SYM   A9A "p1116FAULT"              :B5                  #              #p1116FAULT {3}
SYM   A9A "p1116UPDATED"            :B6                  #              #p1116UPDATED {3}
SYM   A9A "p1116MALF"               :B7                  #              #p1116MALF {3}
SYM   A9B "p1116CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1116. Intake Air Temperature (IAT) Sensor Circuit Intermittent High Voltage {3}
SYM   A9B "p1116FAULT_A"            :B7                  #              #p1116FAULT_A {3}
SYM   A9C "p1124_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1124. Manifold Absolute Temperature Circuit High Input {3}
SYM   A9C "p1124MIL_ON"             :B4                  #              #p1124MIL_ON {3}
SYM   A9C "p1124FAULT"              :B5                  #              #p1124FAULT {3}
SYM   A9C "p1124UPDATED"            :B6                  #              #p1124UPDATED {3}
SYM   A9C "p1124MALF"               :B7                  #              #p1124MALF {3}
SYM   A9D "p1124CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1124. Manifold Absolute Temperature Circuit High Input {3}
SYM   A9D "p1124FAULT_A"            :B7                  #              #p1124FAULT_A {3}
SYM   A9E "p1101_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1101. Reverse Inhibit Control Circuit Malfunction {3}
SYM   A9E "p1101MIL_ON"             :B4                  #              #p1101MIL_ON {3}
SYM   A9E "p1101FAULT"              :B5                  #              #p1101FAULT {3}
SYM   A9E "p1101UPDATED"            :B6                  #              #p1101UPDATED {3}
SYM   A9E "p1101MALF"               :B7                  #              #p1101MALF {3}
SYM   A9F "p1101CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1101. Reverse Inhibit Control Circuit Malfunction {3}
SYM   A9F "p1101FAULT_A"            :B7                  #              #p1101FAULT_A {3}
SYM   AA0 "p1650_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1650. Fuel Pump Primary Circuit Failure {3}
SYM   AA0 "p1650MIL_ON"             :B4                  #              #p1650MIL_ON {3}
SYM   AA0 "p1650FAULT"              :B5                  #              #p1650FAULT {3}
SYM   AA0 "p1650UPDATED"            :B6                  #              #p1650UPDATED {3}
SYM   AA0 "p1650MALF"               :B7                  #              #p1650MALF {3}
SYM   AA1 "p1650CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1650. Fuel Pump Primary Circuit Failure {3}
SYM   AA1 "p1650FAULT_A"            :B7                  #              #p1650FAULT_A {3}
SYM   AA2 "p1651_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1651. Fuel Pump Monitor Circuit High Input {3}
SYM   AA2 "p1651MIL_ON"             :B4                  #              #p1651MIL_ON {3}
SYM   AA2 "p1651FAULT"              :B5                  #              #p1651FAULT {3}
SYM   AA2 "p1651UPDATED"            :B6                  #              #p1651UPDATED {3}
SYM   AA2 "p1651MALF"               :B7                  #              #p1651MALF {3}
SYM   AA3 "p1651CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1651. Fuel Pump Monitor Circuit High Input {3}
SYM   AA3 "p1651FAULT_A"            :B7                  #              #p1651FAULT_A {3}
SYM   AA4 "p1711_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1711. Not in P or N During KOEO / KOER {3}
SYM   AA4 "p1711MIL_ON"             :B4                  #              #p1711MIL_ON {3}
SYM   AA4 "p1711FAULT"              :B5                  #              #p1711FAULT {3}
SYM   AA4 "p1711UPDATED"            :B6                  #              #p1711UPDATED {3}
SYM   AA4 "p1711MALF"               :B7                  #              #p1711MALF {3}
SYM   AA5 "p1711CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1711. Not in P or N During KOEO / KOER {3}
SYM   AA5 "p1711FAULT_A"            :B7                  #              #p1711FAULT_A {3}
SYM   AA6 "p1501_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1501. APLSOL Solenoid Circuit Malfunction {3}
SYM   AA6 "p1501MIL_ON"             :B4                  #              #p1501MIL_ON {3}
SYM   AA6 "p1501FAULT"              :B5                  #              #p1501FAULT {3}
SYM   AA6 "p1501UPDATED"            :B6                  #              #p1501UPDATED {3}
SYM   AA6 "p1501MALF"               :B7                  #              #p1501MALF {3}
SYM   AA7 "p1501CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1501. APLSOL Solenoid Circuit Malfunction {3}
SYM   AA7 "p1501FAULT_A"            :B7                  #              #p1501FAULT_A {3}
SYM   AA8 "p1001_RECORD"            #[??=flo(X*1)]       #              # {3}
SYM   AA8 "p1001MIL_ON"             :B4                  #              #p1001MIL_ON {3}
SYM   AA8 "p1001FAULT"              :B5                  #              #p1001FAULT {3}
SYM   AA8 "p1001UPDATED"            :B6                  #              #p1001UPDATED {3}
SYM   AA8 "p1001MALF"               :B7                  #              #p1001MALF {3}
SYM   AA9 "p1001CNT"                #[??=flo(X*1)]       #              # {3}
SYM   AA9 "p1001FAULT_A"            :B7                  #              #p1001FAULT_A {3}
SYM   AAA "p1285_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P1285. Injection Control Pressure Out Of Range Low {3}
SYM   AAA "p1285MIL_ON"             :B4                  #              #p1285MIL_ON {3}
SYM   AAA "p1285FAULT"              :B5                  #              #p1285FAULT {3}
SYM   AAA "p1285UPDATED"            :B6                  #              #p1285UPDATED {3}
SYM   AAA "p1285MALF"               :B7                  #              #p1285MALF {3}
SYM   AAB "p1285CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P1285. Injection Control Pressure Out Of Range Low {3}
SYM   AAB "p1285FAULT_A"            :B7                  #              #p1285FAULT_A {3}
SYM   AAC "p0180_RECORD"            #[??=flo(X*1)]       #              #Related with OBDII Code P0180. Fuel Composition Sensor Circuit High Input {3}
SYM   AAC "p0180MIL_ON"             :B4                  #              #p0180MIL_ON {3}
SYM   AAC "p0180FAULT"              :B5                  #              #p0180FAULT {3}
SYM   AAC "p0180UPDATED"            :B6                  #              #p0180UPDATED {3}
SYM   AAC "p0180MALF"               :B7                  #              #p0180MALF {3}
SYM   AAD "p0180CNT"                #[??=flo(X*1)]       #              #Related with OBDII Code P0180. Fuel Composition Sensor Circuit High Input {3}
SYM   AAD "p0180FAULT_A"            :B7                  #              #p0180FAULT_A {3}

SYM   AAE "KAMQB"                   #[UY]                #BITS 0-255    #KAM QUALIFICATION TEST REGISTER 2 Resolution: 1 (MIDDLE ADDRESS OF KAM) {7}

SYM   AAF "LTMTB1[rowtbu][coltbu]"  #[UY]                               #"LTMTB100" {7}
SYM   B04 "LTMTB2"                  #[ W]                #X 0-0.996094  #[NUM_ADAPT_FUEL_TABLE_ROWS][NUM_ADAPT_FUEL_TABLE_COLS] Resolution: 0.003906
SYM   B40 "LTMTB135"                #[UY]                               # {7}

SYM   B05 "LTMTB2[rowtbu][coltbu]"  #[UY]                               #"LTMTB200" {7}


SYM   B5C "P0316_SC_RECORD"         #[UW]                               # {7}
SYM   B5C "P0316ACTIVE"             :B0                                 # {7}
SYM   B5C "P0316SEEN"               :B1                                 # {7}
SYM   B5C "P0316TRIP_FG"            :B2                                 # {7}
SYM   B5C "P0316STATUS"             :B3                                 # {7}
SYM   B5D "P0316TRIP_CT"            #[UY]                               # {7}
SYM   B5E "P0316N"                  #[UW]                               # {7}
SYM   B60 "P0316LOAD"               #[UW]                               # {7}
SYM   B62 "P030xFAULT_SET_TMP_???"  #[  ]                               # {7}


SYM   B98 "P0171_SC_RECORD"         #[UW]                               # {7}
SYM   BA4 "P0174_SC_RECORD"         #[UW]                               # {7}

SYM   BB0 "KAMQC"                   #[UY]                #BITS 0-255    #KAM QUALIFCATION TEST REGISTER 3 {7}

SYM   C00 "DARC_DTI"                #[UW]                               # {7}  #L_02483/RZA L_026EF
SYM   C02 "DRC_DTI0_CNT"            #[UW]                               # {7}
SYM   C04 "DRC_DTI0_TMR"            #[UW]                               # {7}
SYM   C06 "DRC_DTI0_DLT"            #[UW]                               # {7}
SYM   C08 "DRC_DTI0_PDL"            #[UW]                               # {7}
SYM   C0A "DRC_DTI1_CON"            #[UW]                               # {7}
SYM   C0C "DRC_DTI1_CNT"            #[UW]                               # {7}
SYM   C0E "DRC_DTI1_TMR"            #[UW]                               # {7}
SYM   C10 "DRC_DTI1_DLT"            #[UW]                               # {7}
SYM   C12 "DRC_DTI1_PDL"            #[UW]                               # {7}
SYM   C14 "DRC_DTI2_CON"            #[UW]                               # {7}
SYM   C16 "DRC_DTI2_CNT"            #[UW]                               # {7}
SYM   C18 "DRC_DTI2_TMR"            #[UW]                               # {7}
SYM   C1A "DRC_DTI2_DLT"            #[UW]                               # {7}
SYM   C1C "DRC_DTI2_PDL"            #[UW]                               # {7}
SYM   C1E "DRC_DTI3_CON"            #[UW]                               # {7}
SYM   C20 "DRC_DTI3_CNT"            #[UW]                               # {7}
SYM   C22 "DRC_DTI3_TMR"            #[UW]                               # {7}
SYM   C24 "DRC_DTI3_DLT"            #[UW]                               # {7}
SYM   C26 "DRC_DTI3_PDL"            #[UW]                               # {7}
SYM   C28 "DRC_DTI4_CON"            #[UW]                               # {7}
SYM   C2A "DRC_DTI4_CNT"            #[UW]                               # {7}
SYM   C2C "DARC_DTI[OSS].TIMER_CAPTURE" #[UW]                           # {7}
SYM   C2D "DARC_DTI[OSS].TIMER_CAPTURE2" #[UW]                          # {7}
SYM   C2E "DARC_DTI[OSS].DELTA_TIME"#[UW]                               # {7}
SYM   C2F "DARC_DTI[OSS].DELTA_TIME2"#[UW]                              # {7}
SYM   C30 "DARC_DTI[OSS].PREV_DELTA_TIME"#[UW]                          # {7}
SYM   C31 "DARC_DTI[OSS].PREV_DELTA_TIME2"#[UW]                         # {7}
SYM   C32 "DRC_DTI5_CON"            #[UW]                               # {7}
SYM   C34 "DRC_DTI5_CNT"            #[UW]                               # {7}
SYM   C36 "DRC_DTI5_TMR"            #[UW]                               # {7}
SYM   C38 "DRC_DTI5_DLT"            #[UW]                               # {7}
SYM   C3A "DRC_DTI5_PDL"            #[UW]                               # {7}
SYM   C3C "DRC_HLOS_CNT"            #[UW]                               # {7}
SYM   C3E "DRC_TIMER"               #[UW]                               # {7}
SYM   C40 "DRC_PWM0_PDH"            #[UW]                               # {7}
SYM   C42 "DRC_PWM0_PDC"            #[UW]                               # {7}
SYM   C44 "DRC_PWM0_PWH"            #[UW]                               # {7}
SYM   C46 "DRC_PWM0_PWC"            #[UW]                               # {7}
SYM   C48 "DRC_PWM1_PDH"            #[UW]                               # {7}
SYM   C4A "DRC_PWM1_PDC"            #[UW]                               # {7}
SYM   C4C "DRC_PWM1_PWH"            #[UW]                               # {7}
SYM   C4E "DRC_PWM1_PWC"            #[UW]                               # {7}
SYM   C50 "DRC_PWM2_PDH"            #[UW]                               # {7}
SYM   C52 "DRC_PWM2_PDC"            #[UW]                               # {7}
SYM   C54 "DRC_PWM2_PWH"            #[UW]                               # {7}
SYM   C56 "DRC_PWM2_PWC"            #[UW]                               # {7}
SYM   C58 "DRC_PWM3_PDH"            #[UW]                               # {7}
SYM   C5A "DRC_PWM3_PDC"            #[UW]                               # {7}
SYM   C5C "DRC_PWM3_PWH"            #[UW]                               # {7}
SYM   C5E "DRC_PWM3_PWC"            #[UW]                               # {7}
SYM   C60 "DRC_PWM4_PDH"            #[UW]                               # {7}
SYM   C62 "DRC_PWM4_PDC"            #[UW]                               # {7}
SYM   C64 "DRC_PWM4_PWH"            #[UW]                               # {7}
SYM   C66 "DRC_PWM4_PWC"            #[UW]                               # {7}
SYM   C68 "DRC_PWM5_PDH"            #[UW]                               # {7}
SYM   C6A "DRC_PWM5_PDC"            #[UW]                               # {7}
SYM   C6C "DRC_PWM5_PWH"            #[UW]                               # {7}
SYM   C6E "DRC_PWM5_PWC"            #[UW]                               # {7}
SYM   C70 "DRC_PWM6_PDH"            #[UW]                               # {7}
SYM   C72 "DRC_PWM6_PDC"            #[UW]                               # {7}
SYM   C74 "DRC_PWM6_PWH"            #[UW]                               # {7}
SYM   C76 "DRC_PWM6_PWC"            #[UW]                               # {7}
SYM   C78 "DRC_PWM7_PDH"            #[UW]                               # {7}
SYM   C7A "DRC_PWM7_PDC"            #[UW]                               # {7}
SYM   C7C "DRC_PWM7_PWH"            #[UW]                               # {7}
SYM   C7E "DRC_PWM7_PWC"            #[UW]                               # {7}
SYM   C80 "DRC_KEY2"                #[UY]                               # {7}
SYM   C82 "DRC_SDR_LSB"             #[UY]                               # {7}
SYM   C83 "DRC_SDR_MSB"             #[UY]                               # {7}
SYM   C84 "DRC_PDR"                 #[UY]                               # {7}
SYM   C85 "DRC_PDDR"                #[UY]                               # {7}
SYM   C86 "DRC_BTR"                 #[UY]                               # {7}
SYM   C87 "DRC_HLOS_DATA"           #[UY]                               # {7}
SYM   C88 "DRC_KEY1"                #[UY]                               # {7}
SYM   C8A "DRC_CONTROL"             #[UY]                               # {7}
SYM   C8A "B3_DRC_CONTROL"          :B3                                 # {7}
SYM   C8B "DARC_MPP_??"              #[UY]                               # {7}
SYM   C8B "SPI2_CONTROL_??"         :B6                #X 0-255          #SPI-2 Control/Status Register, 1-Byte, contains the busy, collision, and size bits. Init. Value: 1 Resolution: 1 {7}
#SYM   C8B "DRC_MP_LSB"              #[UY]                               # {7}
SYM   C8D "DRC_MP_MSB"              #[UY]                               # {7}
SYM   C8E "DTIREM"                  #[UY]                               # {7}
SYM   C8F "DRC_MPD_LSB"             #[UY]                               # {7}
SYM   C90 "DTIFEM"                  #[UY]                               # {7}
SYM   C91 "DRC_MPD_MSB"             #[UY]                               # {7}
SYM   C92 "SPI2_SDR"                #[  ]               #X 0-65535      #SPI2 port Serial Data Register,  16 bits. Init. Value: 0.Resolution: 1 {7}
SYM   C95 "SPI_BUSY_??"                #[  ]                               # {7}
SYM   C95 "SPI_COLLISION_BIT_TMP_???"   :B2                                 # 12.3.7.1 {7}             
SYM   C95 "SPI_BUSY_BIT_TMP_???"        :B3                                 # 12.3.7.1 {7}             
SYM   D00 "TRQLST[tq_pointer]"      #[UW]                               # {7}
SYM   D02 "TRQLST1"                 #[UW]                               # {7}
SYM   D04 "TRQLST2"                 #[UW]                               # {7}
SYM   D06 "TRQLST3"                 #[UW]                               # {7}
SYM   D08 "TRQLST4"                 #[UW]                               # {7}
SYM   D0A "TRQLST5"                 #[UW]                               # {7}
SYM   D0C "TRQLST6"                 #[UW]                               # {7}
SYM   D0E "TRQLST7"                 #[UW]                               # {7}
SYM   D10 "TRQLST8"                 #[UW]                               # {7}
SYM   D12 "TRQLST9"                 #[UW]                               # {7}
SYM   D14 "TRQLST10"                #[UW]                               # {7}
SYM   D16 "TRQLST11"                #[UW]                               # {7}
SYM   D18 "TRQLST12"                #[UW]                               # {7}
SYM   D1A "TRQLST13"                #[UW]                               # {7}
SYM   D1C "TRQLST14"                #[UW]                               # {7}
SYM   D1E "TRQLST15"                #[UW]                               # {7}
SYM   D20 "TRQLST16"                #[UW]                               # {7}
SYM   D22 "TRQLST17"                #[UW]                               # {7}
SYM   D24 "TRQLST18"                #[UW]                               # {7}
SYM   D26 "TRQLST19"                #[UW]                               # {7}
SYM   D28 "TRQLST20"                #[UW]                               # {7}

SYM   D36 "VMIS_TOT1000"            #[UW]                               # {7}
SYM   D38 "VMIS_TOT200"             #[UW]                               # {7}
SYM   D3A "V_MIS1000_[n_tmp]"       #[UW]                               # {7}
SYM   D3C "V_MIS1000_2"             #[UW]                               # {7}
SYM   D3E "V_MIS1000_3"             #[UW]                               # {7}
SYM   D40 "V_MIS1000_4"             #[UW]                               # {7}
SYM   D42 "V_MIS1000_5"             #[UW]                               # {7}
SYM   D44 "V_MIS1000_6"             #[UW]                               # {7}
SYM   D46 "V_MIS1000_7"             #[UW]                               # {7}
SYM   D48 "V_MIS1000_8"             #[UW]                               # {7}
SYM   D4A "V_MIS200_[n_tmp]"        #[UW]                               # {7}
SYM   D4C "V_MIS200_2"              #[UW]                               # {7}
SYM   D4E "V_MIS200_3"              #[UW]                               # {7}
SYM   D50 "V_MIS200_4"              #[UW]                               # {7}
SYM   D52 "V_MIS200_5"              #[UW]                               # {7}
SYM   D54 "V_MIS200_6"              #[UW]                               # {7}
SYM   D56 "V_MIS200_7"              #[UW]                               # {7}
SYM   D58 "V_MIS200_8"              #[UW]                               # {7}
SYM   D5A "V_CYL_MIS[n_tmp]"        #[UY]                               # {7}
SYM   D5B "V_CYL_TOT1"              #[UY]                               # {7}
SYM   D5C "V_CYL_MIS2"              #[UY]                               # {7}
SYM   D5D "V_CYL_TOT2"              #[UY]                               # {7}
SYM   D5E "V_CYL_MIS3"              #[UY]                               # {7}
SYM   D5F "V_CYL_TOT3"              #[UY]                               # {7}
SYM   D60 "V_CYL_MIS4"              #[UY]                               # {7}
SYM   D61 "V_CYL_TOT4"              #[UY]                               # {7}
SYM   D62 "V_CYL_MIS5"              #[UY]                               # {7}
SYM   D63 "V_CYL_TOT5"              #[UY]                               # {7}
SYM   D64 "V_CYL_MIS6"              #[UY]                               # {7}
SYM   D65 "V_CYL_TOT6"              #[UY]                               # {7}
SYM   D66 "V_CYL_MIS7"              #[UY]                               # {7}
SYM   D67 "V_CYL_TOT7"              #[UY]                               # {7}
SYM   D68 "V_CYL_MIS8"              #[UY]                               # {7}
SYM   D69 "V_CYL_TOT8"              #[UY]                               # {7}



SYM   D72 "POTN_FL_MSKL"            #[UW]                               # {7}
SYM   D74 "POTN_FL_MSKH"            #[UW]                               # {7}
SYM   D76 "MISACTDLY"               #[UW]             #Sec 0-65535      #Number of seconds to delay Misfire monitoring based on ACT Resolution: 1 {7}
SYM   D78 "MISECTDLY"               #[UW]             #Sec 0-65535      #Number of seconds to delay Misfire monitoring based on ECT Resolution: 1 {7}
SYM   D7A "MISTOTDLY"               #[UW]             #Sec 0-65535      #Total time delay after startup before enabling misfire Resolution: 1 {7}
SYM   D7C "V_MIS_TSTCNT_??"            #[UW]                               # {7}
#SYM   D7C "MIS_EVENTS_??"           #[  ]             #                 # {7} L_97D59 CRAI8 37.1.1.2  Mis_clear_event_counters
SYM   D82 "RD82"                    #[ W]             #                 # {7} L_98F6F
SYM   D84 "FN1615_DATA"             #[  ]             #                 # {7}
#SYM   D86 "V_MIS_TSTCNT"            #[UW]                               # {7}
SYM   D88 "TOTMISFIL"               #[UW]                               # {7}

SYM   D90 "PIP_EVNT_CTR"            #[UW]                               # {7}

SYM   D92 "CF_FC"                   #[UW]                               # {7}
SYM   D94 "CF_RETRY"                #[UY]                               # {7}
SYM   D96 "MISFIRES1000"            #[U ]             #EVENTS 0-65535   #Accumulated misfires over 1000 revolutions {7}
SYM   D9C "MISOFFSET200"            #[U ]             #X 0-0.999985     #Offset to the type A misfire threshold to de-sensitize the monitor during hot/cold starts Resolution: 0.000015 {7}
SYM   DA0 "MISTHRES1000"            #[U ]             #X 0-0.999985     #Misfire rate per 1000 revs threshold, based on emissions Resolution: 0.000015 {7}
SYM   DA4 "MIS_RATE1000"            #[U ]             #X 0-0.999985     #Misfire rate calculation used by the 1000 rev test, sum of all cylinder rates.  {7}

SYM   DA6 "MIS_TQ_THRES"            #[SW]             #LBF*FT -1024-1023.968994#Misfire negative engine torque threshold, below which misfire monitoring is disabled. Resolution: 0.03125 {7}
SYM   DA8 "MIS_TQ_DELTA"            #[SW]                               # {7}
SYM   DAA "MIS_TQ_LAST"             #[SW]                               # {7}
SYM   DAC "POTN_FAIL"               #[UW]                               # {7} L_98F19 CRAI8 37.1.6.5
SYM   DAE "POTN_HFAIL"              #[UW]                               # {7} L_98F1E CRAI8 37.1.6.5
#SYM   DAC "POTN_HFAIL_L"            #[UW]                               # {7}
#SYM   DAE "POTN_HFAIL_H"            #[UW]                               # {7}
#SYM   DB0 "POTN_FAIL_L"             #[UW]                               # {7}
#SYM   DB2 "POTN_FAIL_H"             #[UW]                               # {7}
SYM   DB4 "RDB4"                    #[ W]             #                 # {7} L_96D9A
SYM   DB8 "BANKMISFIL1"             #[UW]             #X 0-0.999985     #Rolling average misfire rate for bank 1 {7}
SYM   DBA "BANKMISFIL2"             #[UW]             #X 0-0.999985     #Rolling average misfire rate for bank 2 {7}
SYM   DBD "TQ_POINTER"              #[UY]                               # {1}

SYM   DBF "TOTBGTOBG"               #[UY]                               # {7}
SYM   DC3 "MIS_SYNC"                #[ Y]                               # {7}
SYM   DC4 "NOISE_COUNT"             #[UY]                               # {7}
SYM   DC5 "V_MIS_LOOPS"             #[UY]                               # {7}
SYM   DC6 "FNMISOK_DATA"            #[UY]                               # {7}
SYM   DC7 "FNMISID_DATA"            #[UY]                               # {7}
SYM   DC8 "MIS_NOCALL"              #[UY]                               # {7}
SYM   DCB "RDCB"                    #[ Y]                               # {7} L_98F78

SYM   DCE "MIS200FLG"               #[UY]                               # {7}
SYM   DCE "MIS200FLG_1"             :B0                                 # {7}
SYM   DCE "MIS200FLG_2"             :B1                                 # {7}
SYM   DCE "MIS200FLG_3"             :B2                                 # {7}
SYM   DCE "MIS200FLG_4"             :B3                                 # {7}
SYM   DCE "MIS200FLG_5"             :B4                                 # {7}
SYM   DCE "MIS200FLG_6"             :B5                                 # {7}
SYM   DCE "MIS200FLG_7"             :B6                                 # {7}
SYM   DCE "MIS200FLG_8"             :B7                                 # {7}
SYM   DCF "MIS200FLG_EXT"           #[UY]                               # {7}
SYM   DCF "MIS200FLG_9"             :B0                                 # {7}
SYM   DCF "MIS200FLG_10"            :B1                                 # {7}

SYM   DD0 "MIL_200_[10]"            #[UY]                               #Type A misfire flags, set for each cylinder with a misfire rate exceeding catalyst damage {7}

SYM   DD2 "MIL_1000_[10]"           #[UY]                               #Type B misfire flags, set for each cylinder with a misfire rate exceeding emissions thresholds {7}

SYM   DD4 "MIS_FLG_FG1"             #[UY]                               # {7}
SYM   DD4 "NEW_CF_DATA"             :B5                                 #indicates to bg profile logic that fg has updated data array since last bg  {7}

SYM   DD5 "MIS_FLG_BG5"             #[UY]                               # {7}
SYM   DD5 "CF_STOP_FLAG"            :B0                                 # {7} L_97e10 L_97e16
SYM   DD5 "MISBG_BYPS"              :B1                                 # {7}
SYM   DD5 "CF_KAM_ERROR"            :B2                                 # {7}
SYM   DD5 "MIS_CAT_RDY"             :B3                                 # {7}
SYM   DD5 "CF_DFSO"                 :B4                                 # {7} L_97dff
SYM   DD5 "B5_MIS_FLG_BG5"          :B5                                 # {7}
SYM   DD5 "CF_RDY"                  :B6                                 # {7}
SYM   DD5 "MIS_OT_FMEM"             :B7                                 # {7}

SYM   DD6 "MIS_FLG_BG?"             #[UY]                               # {7}
SYM   DD6 "MISHOTSTART"             :B0                                 # {7}
SYM   DD6 "MIS_ACC_FLG_??"             :B1                                 # {7}
SYM   DD6 "MIS_NTQ_FLG"             :B2                                 # {7}
SYM   DD6 "MIS_DLY_FLG"             :B3                                 #Flag set while misfire startup delay not complete.  Feeds into the misfire test ready logic.  {7}
SYM   DD6 "MIS_BYP_FLG"             :B4                                 # {7}
SYM   DD6 "MIS_OFF_FLG_??"             :B5                                 # {7}
SYM   DD6 "MISDLYFLG"               :B6                                 #Flag which enables a one time calculation of the time delay after startup before enabling misfire {7}

SYM   DD7 "MIS_FLG_BG3"             #[UY]                               # {7}
SYM   DD7 "MIS_ENA_FRST"            :B1                                 # {7} L_97D2F
SYM   DD7 "MIS_HW_ERR"              :B2                                 # {7} L_96CD7
SYM   DD7 "MIS1000_FLG"             :B3                                 #Flag set upon completion of a 1000 event misfire test {7}
SYM   DD7 "MIS_REINIT"              :B4                                 # {7} L_96CE4
SYM   DD7 "MIS_MON_OLD"             :B5                                 # {7}
SYM   DD7 "MISID_200"               :B6                                 # {7}
SYM   DD7 "MISID_1000"              :B7                                 # {7}

SYM   DD8 "MIS_FLG_DD8"             #[UY]                               # {7}
SYM   DD8 "CF_KAM_MTRO"             :B0                                 # {7} L_97D3E
SYM   DD8 "HDR_LPF_SWAP"            :B1                                 #Flag set when new set of HDR misfire Low Pass filter coeffs are sent to AICE after speed-load table crosses boundary point {7}
SYM   DD8 "MSS_NDSFLG"              :B3                                 # {7}
SYM   DD8 "MSS_PRET_FLG"            :B4                                 # {7}
SYM   DD8 "MSS_POST_FLG"            :B5                                 # {7}
SYM   DD8 "MFF_PRET_FLG"            :B6                                 # {7}
SYM   DD8 "MFF_POST_FLG"            :B7                                 # {7}

#SYM   DD8 "CF_KAM_MTRO_???"             :B7                                 # {7}




SYM   DDA "MSS_N"                   #[UW]                               # {7}
SYM   DDC "MSS_LOAD"                #[UW]                               # {7}
SYM   DDE "MSS_EGR"                 #[UW]                               # {7}
SYM   DE0 "MSS_TQ_DELTA"            #[SW]                               # {7}
SYM   DE2 "MSS_TQ_BRAKE"            #[SW]                               # {7}
SYM   DE4 "MSS_TP"                  #[UW]                               # {7}
SYM   DE6 "MSS_VSBAR"               #[UY]                               # {7}
SYM   DE8 "RF_YFILT"                #[UW]                               # {7}



SYM   DEA "RF_DPACT_MR"             #[UW]                               # {7}
SYM   DEC "RF_DPERR_MR"             #[SW]                               # {7}
SYM   DEE "RF_COLTBU"               #[UY]              #X 0-10          #RF adaptive feed forward column to be updated Init. Value: 0.0 Resolution: 1 {7}
SYM   DEF "RF_ROWTBU"               #[UY]              #X 0-10          #RF adaptive feed forward row to be updated Init. Value: 0.0 Resolution: 1 {7}
SYM   DF0 "RF_FF_X_FILT"            #[UW]                               # {7}
SYM   DF2 "RF_FF_Y_FILT"            #[UW]                               # {7}
SYM   DF4 "RF_LPCT1H"               #[UY]                               # {7}
SYM   DF5 "RF_LPCT1L"               #[UY]                               # {7}

SYM   DF6 "XRAM1L"                  #[UY]                               # {7}
SYM   DF7 "XRAM1H"                  #[UY]                               # {7}
SYM   DF8 "XRAM2L"                  #[UY]                               # {7}
SYM   DF9 "XRAM2H"                  #[UY]                               # {7}
SYM   DFA "XRAM3L"                  #[UY]                               # {7}
SYM   DFB "XRAM3H"                  #[UY]                               # {7}
SYM   DFC "XRAM4L"                  #[UY]                               # {7}
SYM   DFD "XRAM4H"                  #[UY]                               # {7}
SYM   DFE "CAM_ACT"                 #[SW]              #CRANK DEG -80-80#Measured cam phase angle relative to base timing Resolution: 0.0625  Init. Value: 0 {7}

#SYM   E00 "HDR_DELPER0"             #[UW]                               # {7}
SYM   E00 "HDR_NEW_CF[num_tmp]"      #[UW]                               # {7}

SYM   E38 "MIS_NMULT"               #[UW]                               # {7}

SYM   E50 "ACCEL1_N"                #[ W]               #               # {7}
SYM   E56 "ACCEL1_PC"               #[ W]               #               # {7}
SYM   E58 "ACCEL2_PC"               #[ W]               #               # {7}
SYM   E5A "ACCEL3_PC"               #[ W]               #               # {7}
SYM   E62 "MIS_T1_PC"               #[ W]               #               # {7}
SYM   E64 "MIS_T1_N"                #[ W]               #               # {7}
SYM   E66 "MIS_T2_PC"               #[ W]               #               # {7}
#SYM   E68 "ACC_LST_LEN"             #[ Y]                               # {7} L_96D00
SYM   E68 "CF_MTR_CNT"              #[UW]                               # {7} L_9864B
SYM   E6A "CF_DLY_CNT"              #[ W]                               # {7} L_982E2
SYM   E6C "CF_SKIP_CNT"             #[ W]                               # {7} L_982D8
SYM   E70 "CF_SYNC"                 #[ Y]               #               # {7}
SYM   E71 "CF_LOOPS"                #[ Y]               #               # {7}
SYM   E72 "RHDR_ACTUAL"             #[ W]               #               # {7}
SYM   E74 "RHDR_EXPECT"             #[ W]               #               # {7}
SYM   E76 "RHDR_CNT"                #[ Y]               #               # {7}
SYM   E78 "HDR_AICE_DLY"            #[UY]                               # {7}
SYM   E79 "HDR_FM_RETRY"            #[ Y]                               # {7}

SYM   E7A "HDR_FLG_FG1"             #[UY]                               # {7}
SYM   E7A "HDR_REINIT"              :B2                                 # {7}
SYM   E7A "MIS_TST_FLG"             :B3                                 # {7}
SYM   E7A "HDR_PRO_RQST"            :B4                                 # {7}
SYM   E7A "MLEARN_FLG"              :B6                                 # {7}
SYM   E7A "HDR_SCR_INIT"            :B7                                 # {7}

SYM   E7B "FLAG_RE7B"               #[UY]                               # {7}
SYM   E7B "MNORM_BYPS"              :B0                                 #Flag which bypasses misfire detection at high speeds if the pattern offsets have not been learned {7}
SYM   E7B "HDR_LPF_SAWP"            :B1                                 # {7}
SYM   E7B "CF_NEW_ERROR"            :B2                                 # {7}
SYM   E7B "HDR_AICE_FM"             :B4                                 # {7}
SYM   E7B "HDR_AICE_ERR"            :B5                                 # {7}
SYM   E7B "LPF_ORDER"               :B7                                 # {7}

SYM   E7C "FLAG_E7C"                #[UY]                               # {7}
SYM   E7C "B0_FLAG_RE7C"              :B0                                 # {7}
SYM   E7C "B1_FLAG_RE7C"            :B1                                 # {7}
SYM   E7C "MLEARN_RESET"            :B2                                 # {7}
SYM   E7C "MKAMWR_ENA"              :B3                                 # {7}
SYM   E7C "MKAMRD_ENA"              :B4                                 # {7}
SYM   E7C "MLEARN_ENA"              :B5                                 # {7}
SYM   E7C "B6_FLAG_RE7C"            :B6                                 # {7}
SYM   E7C "B7_FLAG_RE7C"            :B7                                 # {7}

SYM   E7E "ACCEL_HOFF[cyl_tmp]"     #[ W]                               # {7}

SYM   E92 "ACCEL1_NORM"             #[ W]               #               # {7}
SYM   E94 "ACCEL2_NORM"             #[ W]               #               # {7}
SYM   E96 "ACCEL3_NORM              #[ W]               #               # {7}

SYM   E9E "MLEARN_N"                #[U ]               #RPM 0-16383.75 #RPM value for the kam table cell nearest to the current speed load point Init. Value: 0 Resolution: 0.25 {7}

SYM   EA0 "ACCEL_HAVG"              #[ W]               #               # {7}
SYM   EB4 "MLEARN_LOAD"             #[U ]               #X 0-1.999969   #Load value for the kam table cell nearest to the current speed load point Init. Value: 0 Resolution: 0.000031 {7}
SYM   EB6 "MFREEZE_N"               #[ W]               #               # {7}
SYM   EB8 "MFREEZE_LOAD"            #[ W]               #               # {7}
SYM   EBB "MDELTAOK_CTR"            #[ Y]               #               # {7}
SYM   EBC "MKAMCELL"                #[ Y]               #               # {7}
SYM   EBD "MLEARN_STATE"            #[ Y]               #               # {7}


SYM   EC2 "FLAG_REC2"               #[UY]                               # {7}
SYM   EC2 "B0_FLAG_REC2"            :B0                                 # {7}
SYM   EC2 "B1_FLAG_REC2"            :B1                                 # {7}
SYM   EC2 "B2_FLAG_REC2"            :B2                                 # {7}
SYM   EC2 "B3_FLAG_REC2"            :B3                                 # {7}
SYM   EC2 "B4_FLAG_REC2"            :B4                                 # {7}
SYM   EC2 "B5_FLAG_REC2"            :B5                                 # {7}
SYM   EC2 "CF_PIP_HIGH"             :B6                                 # {7}
SYM   EC2 "B7_FLAG_REC2"            :B7                                 # {7}

SYM   EC3 "FLAG_REC3"               #[UY]                               # {7}
SYM   EC3 "B0_FLAG_REC3"            :B0                                 # {7}
SYM   EC3 "B1_FLAG_REC3"            :B1                                 # {7}
SYM   EC3 "B2_FLAG_REC3"            :B2                                 # {7}
SYM   EC3 "B3_FLAG_REC3"            :B3                                 # {7}
SYM   EC3 "B4_FLAG_REC3"            :B4                                 # {7}
SYM   EC3 "B5_FLAG_REC3"            :B5                                 # {7}
SYM   EC3 "CF_MTR_FLG"              :B6                                 # {7} L_97ea7
SYM   EC3 "B7_FLAG_REC3"            :B7                                 # {7}

SYM   EC4 "SPK_SAF_HOLD"            #[SW]             #Deg -60-60       #Value of SAF at the start of a tip-in event held through the event as a reference Init. Value: 10.0 Resolution: 0.25 {1}
SYM   EC6 "SPK_SYNC_CTR"            #[UW]             #X 0-12           #Sequence counter incremented every rising PIP edge {7}
SYM   EC8 "SPK_ENGCYL"              #[UY]             #X 0-8            #Number of cylinder events per engine revolution. Init. Value: 0.0 Resolution: 1.0 {7}
SYM   ECA "SPK_PREIGN"              #[UW]             #Deg -30-60       #Pre-ignition spark advance Init. Value: 0 Resolution: 0.25 {7}
SYM   ECC "SPK_DASP"                #[UW]             #X 0-1.9          #Spark dashpot multiplier Init. Value: 1.0 Resolution: 0.010 {7}
SYM   ECE "SPK_ABS_LIM"             #[SW]             #Deg -256-255.992096#Spark is never allowed to go above this value because of detonation, torque limitation or base spark Init. Value: 0 Resolution: 0.007812 {7}
SYM   ED0 "SPK_BASE"                #[SW]             #Deg -256-255.992096#Desired spark advance for optimal emissions and driveability Init. Value: 0 Resolution: 0.007812 {7}
SYM   ED2 "SPK_BASE_ECT"            #[SW]             #X -30-30         #Engine coolant temperature adder for base spark advance. Init. Value: 0 Resolution: 0.25 {7}
SYM   ED4 "SPK_BDL"                 #[SW]             #DEGREES CA -256-255.992096#Borderline detonation spark limit Init. Value: 0.0 Resolution: 0.007812 {7}
SYM   ED6 "SPK_BDL_OCT"             #[SW]             #Deg -30-30       #Octane switch adder for borderline spark advance Init. Value: 0 Resolution: 0.25 {7}
SYM   ED8 "SPK_FLEX_LIM"            #[SW]             #DEGREES CA -256-255.992096#This is a desirable spark limit which may be exceeded briefly by Feedback Spark or Oscmod. Init. Value: 0 Resolution: 0.007812 {7}
SYM   EDA "SPK_IDLE_FB"             #[SW]             #Deg -256-255.992096#Spark by Feedback Spark logic Init. Value: 0 Resolution: 0.007812 {7}
SYM   EDC "SPK_IFBS_MIN"            #[SW}             #Deg -30-60       #Most retarded spark allowed when in feedback spark Init. Value: 0 Resolution: 0.5 {7}
SYM   EDE "SPK_LOW_LOAD"            #[SW]             #DEGREES CA -256-255.992096#Idle emissions spark ceiling.  Lowest of Cold or Stabilized Low Load Spark calculations. Init. Value: 0 Resolution: 0.007812 {7}
SYM   EE0 "SPK_MBT_LAST"            #[SW]             #Deg -256-255.992096#Last pass value of SPK_MBT. Init. Value: 0 Resolution: 0.007812 {7}
SYM   EE2 "SPK_M_B_T"               #[SW]             #Deg -256-255.992096#Spark advance required to achieve Maximum Brake Torque. Resolution: 0.007812 {7}
SYM   EE4 "SPK_OSCMOD"              #[SW]             #Deg -256-255.992096#OSCMOD correction to other spark calculations Init. Value: 0 Resolution: 0.007812 {7}
SYM   EE6 "SPK_OSC_OFF"             #[SW]             #DEGREES CA -256-255.992096#The amount by which the base spark calculation is reduced to make room for an Oscmod increase. Init. Value: 0 Resolution: 0.007812 {7}
SYM   EE8 "SPK_TRUNC"               #[SW]             #Deg -256-255.992096#Spark ceiling when engine torque needs to be limitted. Init. Value: 0 Resolution: 0.007812 {7}
SYM   EEA "SPK_LOLD_ADD"            #[UW]             #Deg CA 0-63.999001#Spark advance adder to maintain minimum Manvac and ISCDTY during extreme retard excursions.Resolution: 0.000977  {7}
SYM   EEB "SPK_LOLD_ADD(HI_BYTE)"   #[UW]             #Deg CA 0-63.999001#Spark advance adder to maintain minimum Manvac and ISCDTY during extreme retard excursions.Resolution: 0.000977  {7}
SYM   EEC "SPK_LOLD_STB"            #[SW]             #Deg -30-60       #Stabilized low load spark value Init. Value: 60 Resolution: 0.250 {7}
SYM   EEE "SPK_LOLD_CLD"            #[SW]             #Deg -30-60       #Cold low load spark value Init. Value: 60 Resolution: 0.250 {7}
SYM   EF0 "SPK_BDL_CAL"             #[SW]             #Deg -20-70       #Borderline spark advance value modified by calibration parameters {7}
SYM   EF2 "TCF"                     #[SW]             #Vdc -1024-1023.968994#Value of the difference between Throttle position (TP) and TBART Init. Value: 0 Resolution: 0.03125 {7}
SYM   EF4 "TR_ABS"                  #[UW]                               # {7}
SYM   EF6 "TR_COR"                  #[SW]                               # {7}
SYM   EF8 "TR_RES"                  #[UW]                               # {7}
SYM   EFA "TR_RES_LAST"             #[UW]             #X 0-1            #Last pass value of TR_RES Init. Value: 0 Resolution: 0.000031 {7}
SYM   EFC "TP_LAST"                 #[UW]             #Vdc 0-1023.984009#PREVIOUS A TO D READING OF TP Resolution: 0.015625 {7}
SYM   F00 "SCP_ACB"                 #[UY]                               # {7}
SYM   F01 "SCP_DBR"                 #[UY]                               # {7}
SYM   F02 "SCP_FSTAT"               #[UY]                               # {7}
SYM   F03 "SCP_FIFOREG"             #[UY]                               # {7}
SYM   F1F "EBC_EER"                 #[UY]                               # {7}
SYM   F30 "ROMPORT_A"               #[UY]                               # {7}
SYM   F32 "ROMPORT_B"               #[UY]                               # {7}
SYM   F40 "DUCE_PRD0"               #[UW]                               # {7}
SYM   F42 "DUCE_PW0"                #[UW]                               # {7}
SYM   F44 "DUCE_PRD1"               #[UW]                               # {7}
SYM   F46 "DUCE_PW1"                #[UW]                               # {7}
SYM   F48 "DUCE_PRD2"               #[UW]                               # {7}
SYM   F4A "DUCE_PW2"                #[UW]                               # {7}
SYM   F4C "DUCE_PRD3"               #[UW]                               # {7}
SYM   F4E "DUCE_PW3"                #[UW]                               # {7}
SYM   F50 "DUCE_PRD4"               #[UW]                               # {7}
SYM   F52 "DUCE_PW4"                #[UW]                               # {7}
SYM   F54 "DUCE_PRD5"               #[UW]                               # {7}
SYM   F56 "DUCE_PW5"                #[UW]                               # {7}
SYM   F58 "DUCE_PRD6"               #[UW]                               # {7}
SYM   F5A "DUCE_PW6"                #[UW]                               # {7}
SYM   F5C "DUCE_PRD7"               #[UW]                               # {7}
SYM   F5E "DUCE_PW7"                #[UW]                               # {7}
SYM   F60 "DUCE_SPARE"              #[UY]                               # {7}
SYM   F63 "DUCE_VFS_1"              #[UY]              #COUNTS 0-255    #VFS channel 1 counts value Init. Value: 0.0 Resolution: 1.0 {7}
SYM   F64 "HLOS_ISC_PRD"            #[UW]                               # {7}
SYM   F66 "HLOS_ISC_PW"             #[UW]                               # {7}
SYM   F68 "HLOS_INJ_PW"             #[UW]                               # {7}
SYM   F6A "DUCE_CNTRL"              #[UY]                               # {7}
SYM   F6B "DUCE_STATES"             #[UY]                               # {7}
SYM   F6C "HLOS_DEFAULT"            #[UY]                               # {7}
SYM   F6F "VFS_OUT_7"               #[UY]                               # {7}
SYM   F80 "RAM_EER"                 #[UY]                               # {7}

SYM  1000 "SCP_CD_STRT_ADR"         #[UW]                               # {7}
SYM  1002 "SCP_CD_END_ADR"          #[UW]                               # {7}
SYM  1004 "DLOAD_PROG_STRT"         #[UW]                               # {7}
SYM  1006 "DLOAD_PROG_ADR"          #[UW]                               # {7}
SYM  1008 "DLOAD_PROG_CNT"          #[UW]                               # {7}
SYM  100A "DLOAD_EXEC_KEY"          #[UW]                               # {7}
SYM  100C "RATEA_PKTS"              #[UW]                               # {7}
SYM  100E "J1979_01_OE"             #[  ]                               # {7}

SYM  1010 "MODE06_MAP_PTR"          #[UW]                               # {7}
SYM  1012 "RPPKT_ARRAY_ADR"         #[UW]                               # {7}

SYM  1014 "RPPKT_TMDB_IDX"          #[UY]                               # {7}
SYM  1015 "MODE8_TESTID"            #[UY]                               # {7}
SYM  1016 "MODE8_DATA1"             #[UY]                               # {7}
SYM  1017 "MODE8_DATA2"             #[UY]                               # {7}
SYM  1018 "MODE8_DATA3"             #[UY]                               # {7}
SYM  1019 "MODE8_DATA4"             #[UY]                               # {7}
SYM  101A "MODE8_DATA5"             #[UY]                               # {7}
SYM  101B "MODE06_TESTID"           #[UY]                               # {7}
#SYM  101B "SCP_DIAG_ST"             #[UY]                               # {7}
SYM  101C "RX_MSG_BYTE_CNT"         #[UY]                               # {7}
SYM  101D "SCP_TST_REQ"             #[UY]                               # {7}
SYM  101E "SCP_RPKT_NUM"            #[UY]                               # {7}

#SYM  101F "BITMAP_KAM_1"            #[  ]             #                 # {7}
SYM  101F "bitmap_mon_1"            #[UY]                               #Bitmap flage CRAI8 5-255 {0}

SYM  1020 "SPEEDSET_SCP"            #[UY]                               # {7}
SYM  1021 "scpbitmap_1"             #[UY]                               #Bitmap flags CRAI8 5-252 {0}
#SYM  1021 "IGN_KEY_POS"             #[UY]                               # {7}
SYM  1022 "SCPBITMAP_3"                   #[UY]       #X 0-255          #Third Standardized SCP bitmap register for PID and Rapid Data use Resolution: 1 {7}
SYM  1022 "CANISTER_PURGE_SOLENOID_CANP"  :B0                           #b0: Canister Purge Solenoid, CANP {7}
SYM  1022 "PURGING_CANISTER"              :B1                           #b1: Purging Canister {7}
SYM  1022 "LOW_SPEED_FAN_STATUS_FLAG"     :B2                           #b2: Low speed fan status flag {7}
SYM  1022 "HIGH_SPEED_FAN_STATUS_FLAG"    :B3                           #b3: High speed fan status flag  {7}
SYM  1022 "INTAKE_MANIFOLD_RUNNER_CNTRL"  :B4                           #b4: Intake Manifld Runner Cntrl {7}
SYM  1022 "STATE_OF_MIL_OUTPUT"           :B5                           #b5: STATE OF MIL OUTPUT {7}
SYM  1022 "OPEN_LOOP_FLAG"                :B6                           #b6: OPEN LOOP FLAG {7}
SYM  1022 "FLAG_IND_OBDII_TRIP_COMPLETE"  :B7                           #b7: Flag indicating OBDII  trip completed {7}

SYM  1023 "SCPBITMAP_4"                    #[ Y]       #X 0-255         #Fourth Standardized SCP bitmap register for PID and Rapid Data use Resolution: 1 {7}
SYM  1023 "A/C_CLUTCH_STATUS"              :B0                          #b0: A/C CLUTCH STATUS, 0=disengaged {7}
SYM  1023 "RIDE_CNTRL_OUTPUT_STATE"        :B1                          #b1: Ride Control output state ACL OR ACL1 {7}
SYM  1023 "CNT_STATE_OF_TCIL_OUTPUT"       :B2                          #b2: Current State Of TCIL output {7}
SYM  1023 "FLAG_FORCING_TRANS_UNLOCK"      :B3                          #b3: Flag forcing trans unlock, 1=UNLOCK {7}
SYM  1023 "EAM_CNTRL_FLAG"                 :B4                          #b4: Electric Air Management Control Flag {7}
SYM  1023 "unused"                         :B5                          #b5: unused {7}
SYM  1023 "INPUT_LEVEL_OF_CID_SENSOR"      :B6                          #b6: Input Level of CID Sensor {7}
SYM  1023 "unused"                         :B7                          #b7: unused {7}

SYM  1024 "SCPBITMAP_5"                    #[ Y]       #X 0-255         #Fifth standardised bit map for PID and rapid data use Resolution: 1 {7}
SYM  1024 "PTC_HEATER_FLAG"                :B0                          #b0: Pos Temp Coeff Heater Input PTC_FLG {7}
SYM  1024 "FLG_OT_LK_PID"                  :B1                          #b1: Trans Overtemp Lockup Mode FLG_OT_LK {7}
SYM  1024 "OTEMP_FM_FLG_PID"               :B2                          #b2: Transmission overtemp FMEM OTEMP_FM_FLG {7}
SYM  1024 "TRAC_OPTION_PID"                :B3                          #b3: traction assist is present TRAC_OPTION  {7}
SYM  1024 "SS1_COMMANDED_ON"               :B4                          #b4: Shift Solenoid #1 commanded on FLG_SS_1 {7}
SYM  1024 "SS2_COMMANDED_ON"               :B5                          #b5: Shift Solenoid #2 commanded on FLG_SS_2 {7}
SYM  1024 "SS3_COMMANDED_ON"               :B6                          #b6: Shift Solenoid #3 commanded on FLG_SS_3 {7}
SYM  1024 "SS4_COMMANDED_ON"               :B7                          #b7: Shift Solenoid #4 commanded on FLG_SS_4 {7}


SYM  1025 "SCP_DIAG_ST"             #[UY]                               # {7}
SYM  1026 "SCP_DWNLD_ST"            #[UY]                               # {7}
SYM  1027 "SCP_TST_REQ"             #[UY]             #X 0-255          #Last On-Demand test which was requested by Offboard Unit (this powerup) Resolution: 1.0 {7}
SYM  1028 "SCP_RPKT_NUM"            #[UY]             #                 # {7}
SYM  1029 "SCP_DIAG_FC"             #[UY]                               # {7}
SYM  102A "SPEEDSET_SCP"            #[UY]                               # {7}
SYM  102B "IGN_KEY_POS"             #[UY]                               # {7}
SYM  102C "OSC_ENA0"                #[UY]                               # {7}

SYM  103F "OSC_ENA19"               #[UY]                               # {7}
SYM  1041 "OSC_ENA31"               #[UY]                               # {7}
SYM  1049 "OSC_ENA29"               #[UY]                               # {7}

SYM  104E "OSC_FLAG1"               #[UY]                               # {7}
SYM  104E "INJOFF_INC"              :B0                                 # {7}
SYM  104E "INJON_INC"               :B1                                 # {7}
SYM  104E "OSC_INJ_FLG"             :B2                                 # {7}
SYM  104E "OSC_SS_FLG"              :B4                                 # {7}
SYM  104E "OSC_SAF_FLG"             :B5                                 # {7}
SYM  104E "OSC_OL"                  :B6                                 # {7}
SYM  104E "OSC_INIT_FLG"            :B7                                 # {7}

SYM  1050 "ODU_KEY"                 #[UW]                               # {7}
SYM  1052 "OSC_SEED"                #[UY]                               # {7}
SYM  1053 "OSC_STATE"               #[UY]                               # {7}

##   +----------+--------------+
##      | channel* |  parameter   |
##      +----------+--------------+
##      |  0       |  ISCDTY      |
##      |  1       |  EAM         |
##      |  2       |  AM1         |
##      |  3       |  AM2         |
##      |  4       |  LAMBSE1     |
##      |  5       |  LAMBSE2     |
##      |  6       |  PUMP        |
##      |  7       |  EGRDC       |
##      |  8       |  GR_CM       |
##      |  9       |  PG_DC       |
##      |  10      |  PGM_CVS_DC  |
##      |  11      |  FLG_SS_1    |
##      |  12      |  FLG_SS_2    |
##      |  13      |  FLG_SS_3    |
##      |  14      |  FLG_SS_4    |
##      |  15      |  BCSDC_OUT   |
##      |  16      |  TV_PRES_BAR |
##      |  17      |  SAF         |
##      |  18      |  TRAC_DC     |
##      |  19      |  FPUMP_DC    |
##      |  20      |  FP_2SPD_ON  |
##      |  21      |  IMRC_CMND   |
##      |  22      |  SS3L_OUT    |
##      |  23      |  FLG_CS_CM   |
##      |  24      |  FLG_LK_CM   |
##      |  25      |  HEGOHTR11   |
##      |  26      |  HEGOHTR12   |
##      |  27      |  HEGOHTR21   |
##      |  28      |  HEGOHTR22   |
##      |  29      |  INJ_ON_OSC  |
##      |  30      |  INJ_OFF_OSC |
##      |  31      |  IGR_DS      |
##      |  32      |  PWM_SS_4    |
##      |  33      |  PRDUTY      |
##      +----------+--------------+
##      '*'...Channel numbers shown are offset 128 from SCP hex values.

SYM  1054 "OSC_VALUE0_ISCDTY"       #[UW]                               # ISCDTY {7}
SYM  1056 "OSC_VALUE4_LAMBSE[BANK1]"#[UW]                               #LAMBSE[BANK1] {7}
SYM  1058 "OSC_VALUE5_LAMBSE[BANK2]"#[UW]                               #LAMBSE[BANK2] {7}

SYM  105C "OSC_VALUE9_PG_DC"        #[UW]                               # PG_DC substitute(9, pg_dc_****) {7}
SYM  105E "OSC_VALUE10_PGM_CVS_DC"  #[UW]                               # PGM_CVS_DC {7}
SYM  1060 "OSC_VALUE15_BCSDC_OUT"   #[UW]                               # BCSDC_OUT {7}
SYM  1062 "OSC_VALUE17_SAF"         #[SW]                               # SAF {7}

SYM  1066 "OSC_VALUE19_FPUMP_DC"    #[UW]                               # FPUMP_DC {7}
SYM  1068 "OSC_VALUE29_INJ_ON_OSC"  #[UW]                               # INJ_ON_OSC {7}
SYM  106A "OSC_VALUE30_INJ_OFF_OSC" #[UW]                               # INJ_OFF_OSC {7}
SYM  106C "OSC_VALUE31_IGR_DS"      #[UY]                               # IGR_DS {7}

SYM  106F "OSC_VALUE16_TV_PRES_BAR" #[UY]                               # TV_PRES_BAR {7}



SYM  1070 "OSC_VALUE1_EAM_REQ)      #[UY]                               #EAM  {7}
SYM  1070 "OSC_VALUE11_FLG_SS_1"    :B1                                 #FLG_SS_1 {7}
SYM  1070 "OSC_VALUE12_FLG_SS_2"    :B2                                 #FLG_SS_2 {7}



SYM  1071 "OSC_VALUE21_IMRC_CMND_TMP"#[UY]                              # IMRC_CMND {7}
SYM  1072 "OSC_VAL3_AM2"            #[UY]                               # AM2 {7}

SYM  1074 "SUBST_FLAG1"             #[UY]                               # {7}
SYM  1074 "SUBST_REQ(0,ISCDTY)"     :B0                                 # {7}
SYM  1074 "SUBST_REQ(1,(F32)eam_req)":B1                                # {7}
SYM  1074 "SUBST_REQ2"              :B2                                 # {7}
SYM  1074 "SUBST_REQ3"              :B3                                 # {7}
SYM  1074 "SUBST_REQ(4,lambse[BANK1])":B4                               # {7}
SYM  1074 "SUBST_REQ(5,lambse[BANK2])":B5                               # {7}
SYM  1074 "SUBST_REQ6"              :B6                                 # {7}
SYM  1074 "SUBST_REQ(7,egrdc_tmp)"  :B7                                 # {7}

SYM  1075 "SUBST_FLAG2"             #[UY]                               # {7}
SYM  1075 "SUBST_REQ8"              :B0                                 #Substitution Requested flag for channel 8 {7}
SYM  1075 "SUBST_REQ(9,pg_dc_new_tmp)":B1                               #Substitution Requested flag for channel 9 {7}
SYM  1075 "SUBST_REQ(10,pgm_cvs_dc_tmp)":B2                             #Substitution Requested flag for channel 10 {7}
SYM  1075 "SUBST_REQ11"             :B3                                 #Substitution Requested flag for channel 11 {7}
SYM  1075 "SUBST_REQ12"             :B4                                 #Substitution Requested flag for channel 12 {7}
SYM  1075 "SUBST_REQ13"             :B5                                 #Substitution Requested flag for channel 13 {7}
SYM  1075 "SUBST_REQ14"             :B6                                 #Substitution Requested flag for channel 14 {7}
SYM  1075 "SUBST_REQ15"             :B7                                 #Substitution Requested flag for channel 15 {7}

SYM  1076 "SUBST_FLAG3"             #[UY]                               # {7}
SYM  1076 "SUBST_REQ(16,tv_pres_bar_tmp)":B0                            #TV_PRES_BAR {7}
SYM  1076 "SUBST_REQ[17]SAF_TMP"    :B1                                 #SAF  {1}
SYM  1076 "SUBST_REQ[21]IMRC_CMND"  :B5                                 #IMRC_CMND {7}

SYM  1077 "SUBST_FLAG4"             #[UY]                               # {7}
SYM  1077 "SUBST_REQ31"             :B7                                 # {7}

SYM  107A "RZAS.0x112D2"            #[ W]                               # {7}
SYM  107C "RZAS.0x112D4"            #[ W]                               # {7}
SYM  107E "RZAS.0x112D6"            #[ W]                               # {7}
SYM  1080 "RZAS.0x112D8"            #[ W]                               # {7}
SYM  1082 "RZAS.0x112DA"            #[ W]                               # {7}
SYM  1084 "RZAS.0x112DC"            #[ W]                               # {7}
SYM  1086 "RZAS.0x112DE"            #[ W]                               # {7}
SYM  1088 "RZAS.0x112E0"            #[ W]                               # {7}
SYM  108A "RZAS.0x112E2"            #[ W]                               # {7}
SYM  108C "RZAS.0x112E4"            #[ W]                               # {7}

SYM  108E "OSC_OVAL"                #[UW]                               # {7}
SYM  1090 "OSC_ADDR"                #[UW]                               # {7}
SYM  1092 "OSC_BYTOP"               #[UY]                               # {7}
SYM  1093 "OSC_SUB"                 #[UY]                               # {7}
SYM  1094 "FRT_ENG"                 #[SY]              #DegF -256-254   #Fuel rail temperature before FMEM action Init. Value: 60 Resolution: 2 ((^168E FRT_ENG) CRAI8 5-260){7}

SYM  109A "KAMCOL"                  #[UW]              #X 0-9           #Adaptive fuel table column index value (real)Resolution: 0.003906 {7}
SYM  109C "KAMROW"                  #[UW]              #X 0-8           #Adaptive fuel table row index value Resolution: 0.003906 {7}


SYM  10A2 "LSTCOL"                  #[UW]              #X 0-255.996094  #OPERATING COL LAST BACKGROUND LOOP Resolution: 0.003906 {7}
SYM  10A4 "LSTROW"                  #[UW]              #X 0-255.996094  #OPERATING ROW LAST BACKGROUND LOOP Resolution: 0.003906 {7}
SYM  10A6 "RANNUM"                  #[UW]                               # {7}
SYM  10A7 "RZA_R8A9"                #                                   # {7}
SYM  10A8 "EGOCT[BANK1][UPS]"       #[UY]              #EVENTS 0-255    #HEGO11 switches since the last Adaptive Fuel table update Resolution: 1.0 {7}
SYM  10A9 "EGOCT[BANK2][UPS]"       #[UY]              #EVENTS 0-255    #HEGO21 switches since the last Adaptive Fuel table update Resolution: 1.0 {7}
SYM  10AA "LPCT1L"                  #[UY]              #EVENTS 0-255    #Adaptive Fuel background loop counter, HEGO11 registering lean Resolution: 1.0 {7}
SYM  10AB "LPCT1R"                  #[UY]              #EVENTS 0-255    #Adaptive Fuel background loop counter, HEGO11 registering rich Resolution: 1.0 {7}
SYM  10AC "LPCT2L"                  #[UY]              #EVENTS 0-255    #Adaptive Fuel background loop counter, HEGO21 registering lean Resolution: 1.0 {7}
SYM  10AD "LPCT2R"                  #[UY]              #EVENTS 0-255    #Adaptive Fuel background loop counter, HEGO21 registering rich Resolution: 1.0 {7}

SYM  10AE "KAMCOL_CUR"              #[UY]              #X 0-9           #Current adative fuel table column indicator (integer) Resolution: 1.{7}
SYM  10AF "KAMCOL_OLD"              #[UY]              #X 0-9           #Adaptive fuel table column indicator from last background pass Resolution: 1.{7}
SYM  10B0 "KAMROW_CUR"              #[UY]              #X 0-8           #Current adaptive fuel table row indicator (integer) Resolution: 1.{7}
SYM  10B1 "KAMROW_OLD"              #[UY]              #X 0-8           #Adaptive fuel table row from last background pass (integer) Resolution: 1.{7}
SYM  10B2 "COLTBU"                  #[UY]              #NORMD 0-255     #COLUMN TO BE UPDATED Resolution: 1.0 {7}
SYM  10B3 "ROWTBU"                  #[UY]              #X 0-255         #ROW TO BE UPDATED Resolution: 1.0 {7}
SYM  10B4 "UPRATE"                  #[UY]              #X 0-255         #KAM update rate Resolution: 1.0 {7}

SYM  10B5 "FADPT_FLAG"              #[UY]                               # {7}
SYM  10B5 "FADPT_ENABLE"            :B0                                 # {7}
SYM  10B5 "FADPT_READY"             :B1                                 # {7}
SYM  10B5 "OK_ADP_FLG"              :B2                                 # {7}

SYM  10B6 "FMON_FLAG1"              #[UY]                               # {7}
SYM  10B6 "ADT1FMFLG"               :B0                                 # {7}
SYM  10B6 "ADT2FMFLG"               :B1                                 # {7}
#SYM  10B6 "FFS_UNSTB_FL"            :B2                                 # {7}
SYM  10B6 "FADPT_LEAN[BANK1][UPS]"  :B6                                 # {7}
SYM  10B6 "FADPT_RICH[BANK1][UPS]"  :B7                                 # {7}



SYM  10B7 "FMON_FLAG2"              #[UY]                               # {7}
SYM  10B7 "FUEL_ENA_OLD"            :B0                                 # {7}
SYM  10B7 "FADPT_LEAN[BANK2][UPS]"  :B6                                 # {7}
SYM  10B7 "FADPT_RICH[BANK2][UPS]"  :B7                                 # {7}

SYM  10C8 "R10C8"                   #[  ]            #                  # {7}
SYM  10CA "TQENG_DESIRE"            #[U ]            #N*M 8160-65535    #Desired engine torque requested by T/C module over SCP Init. Value: 8160 Resolution: 1 {7}
SYM  10CC "TQ_DESIRE"               #[U ]            #N*M 0-65535       #Desired wheel trq from T/A Init. Value: 8160 Resolution: 1 {7}
SYM  10D0 "SCP_PATS_KEY"            #[UY]                               # {7}
SYM  10D1 "SCP_PAT_LAST"            #[UY]                               # {7}
SYM  10D2 "DUCE_HLOS_UPDTM"         #[UY]                               # {7}
SYM  10D3 "POST_IM_DARC"            #[UY]                               # {7}
SYM  10D4 "DC0_PW_DTKS"             #[UW]                               # {7}

SYM  10E4 "R10E4"                   #[  ]          #                    # {7}
SYM  10EA "TQ_ACT_??"                  #[U ]          #N-M 0-65535         #Calculated actual axle trq Init. Value: 0 Resolution: 1 {7}
SYM  10EC "OSC_MULT"                #[UY]                               # {7}

SYM  10ED "MISC_EXT"                #[UY]                               # {7}
SYM  10ED "FFG_BP"                  :B0                                 #OBDII system FMEM flag for BP - 1 -> BP is currently unreliable {7}
SYM  10ED "FFG_FRP"                 :B1                                 # {7}
SYM  10ED "IAC_AT_HILM"             :B2                                 # {7}
SYM  10ED "IAC_AT_LOLM"             :B3                                 # {7}
SYM  10ED "IAC_FB_SATX"             :B4                                 #((bit 5 of ^1689 FFG_FRT) CRAI8 5-260) {7}
SYM  10ED "FFG_FRT"                 :B5                                 # {7}
SYM  10ED "SCPD_1689B04"            :B6         #FRP_TRANSDUCER_FAILURE #1=Fuel Rail Pressure Transducer is currently unreliable SETS B4 OF J2190 PID1689 {7}

SYM  10EE "CASE_GND_SCP"            #[SW]          #VOLTS -2.5-7.5      #(PID #16C0) Voltage of Case Ground with respect to signal return (SIGRTN)It represents the voltage at the J1 connector (Binary point 11, Word, Signed){7}
SYM  10F0 "FLI_VOLT_SCP"            #[SW]          #VOLTS -0.68-5       #(PID #16BF) Voltage of Fuel Level Input (FLI) with respec to signal return (SIGRTN)for the NAAO fuel gage circuit design (Binary point 11, Word, Signed){7}
##          Clipped between 0 volts and +10 volts for the EAO fuel gage circuit design (which is used in the NAAO CDW-27) It represents the voltage at the J1 connector
SYM  10F2 "EXT_ECT_ADD"             #[S ]          #Deg -4095-4096      #Exhaust temperature adder for ECT, a function of air mass Init. Value: 0 Resolution: 0.125 {7}
SYM  10F6 "EXT_LS_CINMF"            #[S ]          #DegF -4095-4096     #Steady state temperature drop per degree of potential drop between flange and catalyst inlet. Init. Value: 0 Resolution: 0.125 {7}
SYM  10F8 "EXT_PCT_MF"              #[U ]          #X 0-0.999985        #Rolling average misfire rate for fmax(bank1,bank2), the number of misfiring cylinder events over the number of firing cylinders Resolution: 0.000015 {7}
SYM  10FA "EXT_SS_CMSMF"            #[S ]          #DegF -4095-4096     #steady state catalyst midbed gas temperature at stoich air fuel mixture. Init. Value: 0 Resolution: 0.125 {7}
SYM  10FE "TOT_ERRW_CTR"            #[U ]          #EVENTS 0-65535      #Fault filter for TOT circuit failures, (Word Size) Resolution: 1.0 {7}


SYM  1100 "COILPFIL[NUM_COILS]"     #[ W]          #-- 0-255            #Unknown coil failure fault filter {7}

SYM  1112 "ARCH_PROP_D"             #[UW]                               # {7}

SYM  1114 "BITMAP_OFD_1"            #[  ]                               # {7}

SYM  1115 "TV_ST_LST"               #[UY]                               # {7}
SYM  1116 "EPC_RMP_TM"              #[UW]                               # {7}
SYM  1118 "EPC_ST_RMP"              #[UY]                               # {7}
SYM  1119 "P0107_FIL"               #[UW]??        #EVENTS 0-1          #Fault filter for BP sensor circuit below minimum Init. Value: 0 Resolution: 0.004 {7}
SYM  111A "P0108_FIL"               #[UW]??        #EVENTS 0-1          #Fault filter for BP sensor circuit above maximum Init. Value: 0 Resolution: 0.004 {7}
SYM  111B "P0106_FIL"               #[UW]??        #EVENTS 0-1          #Fault filter for BP signal outside acceptable range Init. Value: 0 Resolution: 0.004 {7}
SYM  111C "J1979_01_00"             #[UW] DOUBLE WORD VALUE             #This four byte parameter consists of a bitmap of the PIDS supported by this system. {7}
SYM  111E "J1979_01_00_2"           #[UW]                               # {7}
SYM  1128 "J1979_02_08"             #[UY]          #-- 0-255            #Short term freeze frame fuel trim adjustment for bank 2 {7}
SYM  1129 "J1979_02_09"             #[UY]          #-- 0-255            #Long term freeze frame fuel trim adjustment for bank 2 {7}
SYM  1130 "J1979_02_031"            #[UY]          #GROUP_OF_BITS 0-255 #Bitmap for Freeze frame for fuel control {7}
SYM  112A "J1979_02_0D"             #[UY]          #KPH 0-255           #Freeze frame vehicle speed {7}
SYM  112B "J1979_01_11"             #[UY]                               # {7}
SYM  112C "J1979_01_012"            #[UY]                               # {7}

SYM  112D "J1979_01_013"            #[UY]                               # BITMAP OF EMISSION EVALUATION TESTS SUPPORTED {7}
SYM  112D "CATALYST_TST"            :B0                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}
SYM  112D "HTD_CAT_TST"             :B1                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}
SYM  112D "EVAP_PURGE_TST"          :B2                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}
SYM  112D "SEC_AIR_TST"             :B3                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}
SYM  112D "AC_REFRIDGE_TST"         :B4                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}
SYM  112D "O2_SENSOR_TST"           :B5                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}
SYM  112D "O2_HTR_TST"              :B6                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}
SYM  112D "EGR_SYS_TST"             :B7                                 # IF BIT IS SET TO 0 TEST IS NOT SUPPORTED {7}

SYM  112E "J1979_01_1C"             #[UY]          #X 0-255             #OBD req'ments to which vehicle is designed: 1=OBDII(CARB),2=OBD(FedEPA),3=OBD&OBDII,4=OBDI,5=none {7}
SYM  112F "J1979_01_031"            #[UY]          #X 0-255             #Bitmap of bank1 fuel status Init. Value: 0 Resolution: 1 {7}
SYM  1131 "SCP_TCIL_ON"             #[UY]                               # {7}
SYM  1132 "J1979_01_10"             #[UW]                               # {7}
SYM  1134 "J1979_01_04"             #[UY]                               # {7}
SYM  1135 "J1979_01_05"             #[UY]                               # {7}
SYM  1137 "J1979_01_07"             #[UY]                               # {7}
SYM  1139 "J1979_01_09"             #[UY]                               # {7}
SYM  113A "J1979_01_11"             #[UY]                               # {7}
SYM  113B "J1979_01_12"             #[UY]                #X 0-255       #Bitmap of commanded SAIR system {7}
SYM  113C "J1979_01_13"             #[UY]                #X 0-255       #Bitmap of oxygen sensor locations {7}
SYM  113D "J1979_01_14"             #[UY]                #X 0-255       #Oxygen sensor vlotage bank1 upstream {7}
SYM  113E "J1979_01_151"            #[UY]                #VOLTS 0-1.275 #Oxygen sensor voltage upstream bank 2 {7}
SYM  113F "J1979_01_15W"            #[UW]                               # {7}
SYM  1140 "J1979_01_18"             #[UY]                #VOLTS 0-1.275 #Oxygen sensor voltage upstream bank 1 {7}
SYM  1141 "J1979_01_191"            #[UY]                #VOLTS 0-1.275 #Oxygen sensor voltage downstream bank 2 {7}
SYM  1142 "J1979_01_19W"            #[UW]                               # {7}
SYM  1143 "J1979_01_0D"             #[UY]                #KPH 0-255     #Vehicle Speed {7}
SYM  1144 "J1979_01_0E"             #[SY]                #Deg -64-63.5  ##1 Cylinder ignition timing Resolution: 0.50 {7}
SYM  1145 "J1979_01_0F"             #[UY]                #Degs 0-255    #Inlet air temperature {7}

SYM  1146 "BITMAP_FMEM1"            #                    #              # {7}

SYM  1147 "SCP_ACC_LAST"            #[  ]                #              # {7}
SYM  1148 "FPUMP_DC"                #[??=flo(X*1)]       #Volts         #Fuel Pump voltage. {3}
SYM  114A "FP_FLOWRATE"             #[UW]                               # {7}

SYM  1150 "FPM_RATIO"               #[UW]                               # {7}
SYM  1152 "FPM_HI_TM"               #[UW]                               # {7}
SYM  1154 "FPM_LO_TM"               #[UW]                               # {7}
SYM  1156 "FP_V_SWITCH"             #[UY]                               # {7}
SYM  1157 "P1235_CNT"               #[UY]                               # {7}
SYM  1158 "P1237_CNT"               #[UY]                               # {7}
SYM  115A "SPKBASE_IMRC"            #[UW]                #Deg 0-30      #Base spark adder when using IMRC Init. Value: 0 Resolution: 0.10 {7}
SYM  115C "SPK_BDL_IMRC"            #[UW]                #Deg 0-30      #Borderline spark adder when using IMRC Init. Value: 0 Resolution: 0.10 {7}
SYM  115E "SPK_MBT_IMRC"            #[UW]                #Deg 0-30      #MBT spark adder when using IMRC Init. Value: 0 Resolution: 0.10 {7}
SYM  1160 "SPKBASE_VCT"             #[SW]                #Deg -50-50    #Base spark adder when using VCT Init. Value: 0 Resolution: 0.10 {7}
SYM  1162 "SPK_BDL_VCT"             #[SW]                #Deg -50-50    #Borderline spark adder when using VCT Init. Value: 0 Resolution: 0.10 {7}
SYM  1164 "SPK_MBT_VCT"             #[SW]                #Deg -50-50    #MBT spark adder when using VCT Init. Value: 0 Resolution: 0.10 {7}
SYM  1166 "SPK_BDL_FFS"             #[SW]                #Deg -32-31.75 #Borderline spark adder when using flexible fuel.Init. Value: 0 Resolution: 0.25 {7}
SYM  1168 "SPKBASE_FFS"             #[S ]                #Deg -32-31.75 #Base spark adder when using flexible fuel Init. Value: 0 Resolution: 0.25 {7}
SYM  116A "SPK_MBT_FFS"             #[SW]                #Deg -32-31.75 #MBT spark adder when using flexible fuel Init. Value: 0 Resolution: 0.25 {7}
SYM  116C "SPK_BDL_FSC"             #[SW]                #X -30-30      #Fail-safe cooling adder to the borderline spark advance Init. Value: 0 Resolution: 0.25 {7}

SYM  116E "MORE_EXT_FLAGS"          #[UY]                               # {0}
SYM  116E "TX_ECT_EN"               :B3                                 # {7}
SYM  116E "ACTPOFF_RQST"            :B4                                 #A/C wide open throttle cutout request {7}
SYM  116E "ACPRES_HSF"              :B5                                 #High speed fan requested due to High A/C head pressure {7}
SYM  116E "ENG_STALLED"             :B6                                 # {7}
SYM  116E "ACPRES_FLG"              :B7                                 #A/C High Pressure cutout flag {7}

SYM  1170 "CLFAOSCBNK1"             #[UY]                               # {7}
SYM  1170 "RESET_LEAN1"             :B0                                 # {7}
SYM  1170 "RESET_REQ1"              :B1                                 # {7}
SYM  1170 "VEGO_OK_R1"              :B2                                 # {7}
SYM  1170 "VEGO_OK_L1"              :B3                                 # {7}
SYM  1170 "FAOMONFLG1"              :B4                                 # {7}
SYM  1170 "REGO_OK1"                :B5                                 # {7}
SYM  1170 "EGO_SWT_TMP11"           :B6                                 # {7}
SYM  1170 "LAM_HOLD1"               :B7                                 # {7}
SYM  1171 "CLFAOSCBNK2"             #[UY]                               # {7}
SYM  1171 "RESET_LEAN2"             :B0                                 # {7}
SYM  1171 "RESET_REQ2"              :B1                                 # {7}
SYM  1171 "VEGO_OK_R2"              :B2                                 # {7}
SYM  1171 "VEGO_OK_L2"              :B3                                 # {7}
SYM  1171 "FAOMONFLG2"              :B4                                 # {7}
SYM  1171 "REGO_OK2"                :B5                                 # {7}
SYM  1171 "EGO_SWT_TMP21"           :B6                                 # {7}
SYM  1171 "LAM_HOLD2"               :B7                                 # {7}

SYM  1172 "BIAS_G1"                 #[SW]                               # {1}
SYM  1174 "BIAS_G2"                 #[SW]                               # {1}
SYM  1176 "R_BIAS1"                 #[SW]                               # {1}
SYM  1178 "R_BIAS2"                 #[SW]                               # {1}

SYM  117A "R117A"                   #[ W]                               # {7}

SYM  1182 "R_BIAS_INT1"             #[SW]                               # {7}
SYM  1184 "R_BIAS_INT2"             #[SW]                               # {7}
SYM  1186 "R_BIAS_PROP1"            #[SW]                               # {7}
SYM  1188 "R_BIAS_PROP2"            #[SW]                               # {7}
SYM  118A "RBIAS_EGOSW1"            #[UY]                               # {7}
SYM  118B "RBIAS_EGOSW2"            #[UY]                               # {7}
SYM  118C "PTPAMP1"                 #[UY]                               # {7}

SYM  1190 "FLAG_EXT1"               #[UY]                               # {7}
SYM  1190 "SAF_MOD_FLG"             :B0                                 # {7}
SYM  1190 "ADAP_TD_FLG1"            :B1                                 # {7}
SYM  1190 "EGR_INIT_FLG"            :B2                                 # {7}
SYM  1190 "TRNS_DTC_FLG"            :B3                                 # {7}
SYM  1190 "EGR_RETRY"               :B4                                 # {7}
SYM  1190 "FFG_EGR_LST"             :B5                                 # {7}
SYM  1190 "EGR_EFM_FLG"             :B6                                 # {7}
SYM  1190 "DEMAND_LAST"             :B7                                 # {7}
SYM  1191 "FLAG_EXT2"               #[UY]                               # {7}
SYM  1191 "FLG_ENG_STALL"           :B0                                 # {7}
SYM  1191 "ADAP_TD_FLG2"            :B1                                 # {7}
SYM  1191 "EGOFL"                   :B2                                 # {7}
SYM  1191 "KNK_AT_LIMIT"            :B3                                 # {7}
SYM  1191 "EGR_TST_LST"             :B4                                 # {7}
SYM  1191 "FLG_W12_AKD"             :B6                                 #Flag indicating a WOT 1-2 after a kickdown is possible; 1 -> WOT 1-2 after a kickdown possible.  {7}
SYM  1191 "FLG_TA_SS"               :B7                                 # {7}
SYM  1192 "FLAG_EXT3"               #[UY]                               # {7}
SYM  1192 "FLG_PPH_2"               :B0                                 # {7}
SYM  1192 "FLG_PPH_3"               :B1                                 # {7}
SYM  1192 "FLG_PPH_4"               :B2                                 # {7}
SYM  1192 "ACRQST_LST"              :B3                                 # {7}
SYM  1192 "SP_FMEM"                 :B4                                 # {7}
SYM  1192 "EGR_TST_RNNG"            :B5                                 # {7}
SYM  1192 "FLG_TA_EXIT"             :B6                                 # {7}
SYM  1192 "FLG_HVY_FLTR"            :B7                                 # {7}
SYM  1193 "FLAG_EXT4"               #[UY]                               # {7}
SYM  1193 "VS_SCP_FMFLG"            :B0                                 # {7}
SYM  1193 "SCP_FLI_ERR"             :B1                                 # {7}
SYM  1193 "SCP_SC_HP"               :B2                                 # {7}
SYM  1193 "SCP_TC_FMFLG"            :B3                                 # {7}
SYM  1193 "SCP_MIL_HP"              :B4                                 # {7}
SYM  1193 "MIL_FLASH"               :B5                                 # {7}
SYM  1193 "TFM_TCIL_TID"            :B6                                 # {7}
SYM  1193 "N_OL_FLG"                :B7                                 # {7}

SYM  1194 "TOT_FM"                  #[SW]                               # {7}
SYM  1196 "TQ_BAR_PWM"              #[UY]                               # {7}
SYM  1197 "P1746FIL"                #[UY]                               # {7}
SYM  1198 "P1747FIL"                #[UY]                               # {7}
SYM  1199 "MLUS_OT_CNT"             #[UY]                               # {7}
SYM  119A "GR_SMPL_CTR"             #[UY]                               # {7}
SYM  119B "P0401FLGS"               #[UY]                               # {7}
SYM  119B "FFG_VSS"                 :B0                                 # {7}
SYM  119B "EGR_TPCUTOUT"            :B1                                 # {7}
SYM  119B "HOSE_TST_CNT"            :B2                                 # {7}
SYM  119B "VSSFMFLG"                :B3                                 # {7}
SYM  119B "P0401UP_FLG"             :B4                                 # {7}
SYM  119B "P0401FLT"                :B5                                 # {7}
SYM  119B "P0401ENA"                :B6                                 # {7}
SYM  119B "P0401DN_FLG"             :B7                                 # {7}
SYM  119C "P0401_FLT_TMR"           #[UY]                               # {7}
SYM  119D "P0401_TST_TMR"           #[UY]                               # {7}
SYM  119E "P0400FLGS"               #[UY]                               # {7}
SYM  119E "EXT_FEGO_FLG"            :B0                                 # {7}
SYM  119E "EXT_CAT_FLG"             :B1                                 # {7}
SYM  119E "P0400_CONTROL"            :B2                                 # {7}
SYM  119E "P0400RTMR_ENA"            :B3                                 # {7}
SYM  119E "P0400UP_FLG"             :B4                                 # {7}
SYM  119E "P0400FLT"                :B5                                 # {7}
SYM  119E "P0400ENA"                :B6                                 # {7}
SYM  119E "P0400DN_FLG"             :B7                                 # {7}
SYM  119F "P0400FLT_TMR"            #[UY]                               # {7}
SYM  11A0 "P0400TST_TMR"            #[UY]                               # {7}
SYM  11A1 "P402FLGS"                #[UY]                               # {7}
SYM  11A1 "EXT_FEGO_FLG"            :B0                                 # {7}
SYM  11A1 "EXT_CAT_FLG"             :B1                                 # {7}
SYM  11A1 "P402_CONTROL"            :B2                                 # {7}
SYM  11A1 "P402RTMR_ENA"            :B3                                 # {7}
SYM  11A1 "P402UP_FLG"              :B4                                 # {7}
SYM  11A1 "P402FLT"                 :B5                                 # {7}
SYM  11A1 "P402ENA"                 :B6                                 # {7}
SYM  11A1 "P402DN_FLG"              :B7                                 # {7}
SYM  11A2 "P402FLT_TMR"             #[UY]                               # {7}
SYM  11A3 "P402TST_TMR"             #[UY]                               # {7}
SYM  11A4 "P1401FLGS"               #[UY]                               # {7}
SYM  11A4 "P1401UP_FLG"             :B4                                 # {7}
SYM  11A4 "P1401FLT"                :B5                                 # {7}
SYM  11A4 "P1401ENA"                :B6                                 # {7}
SYM  11A4 "P1401DN_FLG"             :B7                                 # {7}
SYM  11A5 "P1401FLT_TMR"            #[UY]                               # {7}
SYM  11A6 "P1401TST_TMR"            #[UY]                               # {7}
SYM  11A7 "P1405FLGS"               #[UW]                               # {7}
SYM  11A7 "FUL_IOM"                 :B0                                 # {7}
SYM  11A7 "BH_INPUT_FLG"            :B1                                 # {7}
SYM  11A7 "DFS_CTMR_UPF"            :B2                                 # {7}
SYM  11A7 "DFS_CTMR_DNF"            :B3                                 # {7}
SYM  11A7 "P1405UP_FLG"             :B4                                 # {7}
SYM  11A7 "P1405FLT"                :B5                                 # {7}
SYM  11A7 "P1405ENA"                :B6                                 # {7}
SYM  11A7 "P1405DN_FLG"             :B7                                 # {7}
SYM  11A8 "P1405FLT_TMR"            #[UY]                               # {7}
SYM  11A9 "P1405TST_TMR"            #[UY]                               # {7}

SYM  11AA "R11AA"                   #[ W]                               #P1406FLGS ????? {7}


SYM  11AC "P1406TST_TMR"            #[UY]                               # {7}

SYM  11AD "P1408FLGS"               #[UY]                               # {7}
SYM  11AD "EXT_FLN_FLG"             :B3                                 # {7}
SYM  11AD "P1408UP_FLG"             :B4                                 # {7}
SYM  11AD "P1408FLT"                :B5                                 # {7}
SYM  11AD "P1408ENA"                :B6                                 # {7}
SYM  11AD "P1408DN_FLG"             :B7                                 # {7}
SYM  11AE "P1408FLT_TMR"            #[UY]                               # {7}
SYM  11AF "P1408TST_TMR"            #[UY]                               # {7}
SYM  11B0 "P0403FLGS"               #[UY]                               # {7}
SYM  11B0 "P0403UP_FLG"             :B4                                 # {7}
SYM  11B0 "P0403FLT"                :B5                                 # {7}
SYM  11B0 "P0403ENA"                :B6                                 # {7}
SYM  11B0 "P0403DN_FLG"             :B7                                 # {7}
SYM  11B1 "P0403FLT_TMR"            #[UY]                               # {7}
SYM  11B2 "P0403TST_TMR"            #[UY]                               # {7}
SYM  11B3 "SPK_DELTA"               #[UY]                               # {7}
SYM  11B4 "PEXHAUST"                #[UW]                               # {7}
SYM  11B6 "INF_MAP"                 #[UY]                               # {7}
SYM  11B7 "INF_MVAC"                #[UY]                               # {7}
SYM  11B8 "MIN_DELPR"               #[UY]                               # {7}
SYM  11B9 "SYS_DELPR"               #[UY]                               # {7}
SYM  11BA "ADP_SWTPT11"             #[SW]                               # {7}
SYM  11BC "ADP_SWTPT21"             #[SW]                               # {7}
SYM  11BE "DFIB_TRIP11"             #[UY]                               # {7}
SYM  11BF "DFIB_TRIP21"             #[UY]                               # {7}
SYM  11C0 "HI_CATCHER11"            #[SW]                               # {7}
SYM  11C2 "HI_CATCHER21"            #[SW]                               # {7}
SYM  11C4 "LO_CATCHER11"            #[SW]                               # {7}
SYM  11C6 "LO_CATCHER21"            #[SW]                               # {7}
SYM  11C8 "SWTP_STATE11"            #[UY]                               # {7}
SYM  11C9 "SWTP_STATE21"            #[UY]                               # {7}
SYM  11CA "SWTPOINT11"              #[SW]                               # {7}
SYM  11CC "SWTPOINT21"              #[SW]                               # {7}
SYM  11CE "SWTP_BAR11"              #[SW]                               # {7}
SYM  11D0 "SWTP_BAR21"              #[SW]                               # {7}

SYM  11DA "R11DA"                   #[ W]                               # {7}


SYM  11E2 "VS_PREV"                 #[UW]                #MPH 0-255     #Previous value of instantaneous vehicle speed (VS) {7}
SYM  11E4 "VSBAR(WORD)"             #[UW]                #MPH 0-127.5   #FILTERED VEHICLE SPEED (WORD VALUE){7}
SYM  11E5 "VSBAR"                   #[UY]                #MPH 0-127.5   #FILTERED VEHICLE SPEED {7}
SYM  11E8 "VBATBAR(WORD)"           #[UW]                #VOLTS 0-15.937#Rolling average of Vbat Init. Value: 13.5 Resolution: 0.0625 {7}
SYM  11E9 "VBATBAR"                 #[UY]                #VOLTS 0-15.937#Rolling average of Vbat Init. Value: 13.5 Resolution: 0.0625 {7}
SYM  11EA "VS_DELT_TIM"             #[UW]                #HWTMRTICKS 0-16777210#'Delta-time' (not necessarily DARC VSS channel delta_time measurement) strategy will use to calculate VS_SRC {7}
SYM  11EC "VS_DELT_TIM_EX"          #[UY]                               # {7}
SYM  11ED "VSCTR"                   #[UY]                #EVENTS 0-255  #COUNT OF MPH SENSOR ERRORS Resolution: 1.0 {7}
SYM  11EE "DYN_LAMMIN[BANK1]"       #[UW]                               # {7}
SYM  11F0 "DYN_LAMMIN[BANK2]"       #[UW]                               # {7}
SYM  11F2 "DYN_LAMMAX[BANK1]"       #[UW]                               # {7}
SYM  11F4 "DYN_LAMMAX[BANK2]"       #[UW]                               # {7}


SYM  11F6 "SYS_RDY_PRE"             #[UY]                               #36.1.1.1.22  Sys_RDY_PRE Flags {7}
SYM  11F6 "CCM_ENA_FLG"             :B7                                 # {7}



SYM  11F7 "SCP_AFS_MODE"            #[UY]                               # {7}
SYM  11F8 "HOLD_TIME1"              #[UW]                               # {7}
SYM  11FA "HOLD_TIME2"              #[UW]                               # {7}
SYM  11FC "PC_PG_RESET"             #[UW]                               # {7}
SYM  11FE "PG_INJ_PW_RS"            #[UW]                               # {7}


SYM  1200 "F6K_LST_PS"              #[UY]                               # {7}
SYM  1201 "SCP_FLI_CNT2"            #[UY]                               # {7}
SYM  1202 "ROLL_ODO"                #[UW]                               # {7}
SYM  1203 "SCP_FLI_LVL"             #[UY]                               # {7}
SYM  1204 "VS_SCP"                  #[UW]                               # {7}
SYM  1206 "VSR_SCP"                 #[SW]                               # {7}
SYM  1208 "SCP_MIL_NEW"             #[UY]                               # {7}
SYM  1209 "SCP_MIL_LAST"            #[UY]                               # {7}
SYM  120A "LOOP_TIME"               #[UW]                               # {0}
SYM  120C "LOOP_TIME_EXT"           #[UY]                               # {0}
SYM  120D "EIGHTHS_REM"             #[UY]                               # {7}
SYM  120E "SECS_REM"                #[UY]                               # {7}
SYM  120F "IMFMCTR"                 #[UY]                               # {7}
SYM  1210 "NEBART"                  #[UW]          # RPM 0-16383.75     #Filtered Engine RPM For Transmission {7}
SYM  1212 "NEBART_PU"               #[UW]                               # {7}
SYM  1214 "NE_DROP_TM"              #[UW]                               # {7}
SYM  1216 "NE_DROP_EX"              #[UW]                               # [7}
SYM  1218 "NFIL"                    #[UW]                               # {7}
SYM  121A "TPV_STRT_SFT"            #[UW]                               # {7}
SYM  121C "NEV_PEAK_SFT"            #[UW]                               # {7}
SYM  121E "INIT_TOT"                #[SW]                               # {7}
SYM  1220 "RT_GR_CUR"               #[UW]                               # {7}
SYM  1222 "RT_GR_OLD"               #[UW]                               # {7}
SYM  1224 "RT_NOVS"                 #[UW]                               # {7}
SYM  1226 "RT_GR_OLD"               #[UW]                               # {7}
SYM  1228 "SPD_RATIO"               #[UW]                               # {7}
SYM  122A "SPD_RT_STRT"             #[UW]                               # {7}
SYM  122C "NE_ENG_STRT"             #[UW]                               # {7}
SYM  122E "DELTA_RATIO"             #[UW]                               # {7}
SYM  1230 "DT12S_AVG_??"               #[UW]  COULD BE DT12S_FIL        # {7} L_022D0
SYM  1232 "SR_PP_LIM"               #[UW]                               # {7}
SYM  1234 "BCSDC"                   #[UW]                               # {7}
SYM  1236 "BCSDC_LST"               #[UW]                               # {7}
SYM  1238 "BCSDC_OUT"               #[UW]                               # {7}
SYM  123A "PWM_OUT"                 #[UW]                               # {7}
SYM  123C "P_DELTA"                 #[UW]                               # {7}
SYM  123E "SLIP_ACT"                #[SW]         #RPM -4096-4095       #Actual value of slip (signed) {7}
SYM  1240 "SLIP_ACT_LST"            #[SW]         #RPM -4096-4095       #Last pass value of SLIP_ACT {7}
SYM  1242 "SLIP_DES_S"              #[SW]         #RPM -1020-1020       #Desired value of converter slip, signed {7} 
#SYM  1242 "SLIP_DES"                #[  ]         #RPM -4096-4095       # Desired slip profile used by other features L_8C458  {7}
SYM  1244 "SLIP_ERR_D"              #[SW]                               # {7}
SYM  1246 "SLIP_ERR_I"              #[SW]                               # {7}
SYM  1248 "SLIP_ERR_P"              #[SW]                               # {7}
SYM  124A "SLIP_TCAP"               #[SW]         #RPM -1020-1020       #Slip used to calculate torque capacity of torque converter {7}
SYM  124C "ERR_T0"                  #[SW]         #ENUMERATED -4096-4095#CURRENT SLIP ERROR (SLIP_ABS - SLIP_DES) {7}
SYM  124E "ERR_T0_FD"               #[SW]                               # {7}
SYM  1250 "ERR_T0_FI"               #[SW]                               # {7}
SYM  1252 "ERR_T0_FP"               #[SW]                               # {7}
SYM  1254 "ERR_T1"                  #[SW]                               # {7}
SYM  1256 "SLIP_ABS"                #[UW]                               # {7}
SYM  1258 "SLIP_TARGET"             #[UW]                               # {7}
SYM  125A "TPBART"                  #[UW]                               # {7}
SYM  125C "TP_RATE"                 #[SW]                               # {7}
SYM  125E "TR_STRT_SFT"             #[UW]                               # {7}
SYM  1260 "TPBARTV"                 #[UW]                               # {7}
SYM  1262 "TQ_IALPHA"               #[SW]                               # {7}
SYM  1264 "EPCOCM1"                 #[UW]                               # {7}
SYM  1266 "GR_SEQ_PNTR"             #[UW]          #F32_POINTER 0-65535 #ADRESS OF NEXT GEAR IN THE SEQUENCE {7}
SYM  1268 "NE_STRT_SFT"             #[UW]          #RPM 0-16383.75      #RPM AT START OF A SHIFT {7}
SYM  126A "NOBART"                  #[UW]          #RPM 0-16383.75      #Filtered Output Shaft Speed in RPM {7}
SYM  126E "NTBART"                  #[UW]          #RPM 0-16383.75      #FILTERED TRANSMISSION TURBINE SPEED {7}
SYM  1270 "NO_PREV"                 #[  ]          #RPM 0-16383.75      #LAST CALCULATED TRANSMISSION OUTPUT SHAFT SPEED 
SYM  1272 "NOVAVG"                  #[UW]          #RPM/MPH 0-511.98999 #Average N/V {7}
SYM  1274 "NOVS"                    #[UY]          #RPM/MPH 0-255       #N/VSBAR TO INFER TRANSMISSION GEAR (RPM/MPH) {7}
SYM  1275 "NOVCTR"                  #[UY]          #EVENTS 0-255        #NUMBER OF N-OVER-V CALCULATIONS COUNTER {7}
SYM  1276 "TPBART_PWF"              #[UW]          #Vdc 0-1023.984009   #Filtered throttle position for PWF determination {7}
SYM  1278 "TPRATE_PWF"              #[SW]          #Vdc -1024-1023.968994#Filtered throttle position rate for PWF determination {1}
SYM  127A "OSS_TIM_LST"             #[  ]          #HWTIMERTICKS 0-16777000#Last  OSS DARC capture time, DARC ticks {7}
#SYM  127C "MNOSSPER"                #[UW=flo(X*1)] #CLK_TICKS 0-16383   #Minimum time between OSS rising edges for the edge to be valid. UNITS:CLOCK TICKS Base Value: 833. {7}
SYM  127D "PDL"                     #[UY]          #Vdc 0-127.50        #PRNDL Position - from A to D conversion {7} # 2=MAN1, 4=MAN2, 6=AUTO3, 8=AUTO4, A=NEUTRAL, C=REVERSE1, E=PARK (CRAI8) #
SYM  127E "IPDL"                    #[UY]          #ENUMERATED 0-127.50 #UNVERIFIED PRNDL Position - from A to D conversion {7}
SYM  127F "PDL_LST"                 #[UY]          #Vdc 0-127.50        #PRNDL Position Last Background Pass {7}
SYM  1280 "IPDL_LST"                #[UY]          #ENUMERATED 0-127.50 #UNVERIFIED LAST PASS INPUT PRNDL POSITION {7} LOADED AS RBA RE4 11280 L_8A24E-8BF5F L_0FC6F-0FC97
SYM  1282 "VS_TIME"                 #[  ]          #HWTIMERTICKS 0-1048560#Time stamp of VS calculation in DARC Ticks Resolution: 16.00 {7}
SYM  1284 "VS_TIME_LST"             #[  ]          #HWTIMERTICKS 0-1048560#Previous time stamp of VS calculation in DARC Ticks Resolution: 16.00 {7}
SYM  1286 "VS_RATEPH"               #[SW]          #MPH/S -20-20        #Filtered Vehicle Accereration Rate Resolution: 0.00195 {7}
SYM  1288 "VS_RATE"                 #[SW]          #MPH/S -20-20        #FILTERED VEHICLE ACCEL RATE Resolution: 0.00195 {7}

SYM  128A "VS_RATE_SS"              #[SW]          #MPH/S -20-20        #Filtered vehicle accleration rate used for shift schedule compensation {7}
SYM  128C "VS_SRC_PREV"             #[UW]          #MPH 0-127.998001    #previous unfiltered vehicle speed from the source (SCP or VSS) - never substituted for during fmem {7}
SYM  128E "TP_REL_BAR"              #[UW]          #X 0-1023.984009     #Filtered TP_REL (TP - RATCH) Resolution: 0.015625 {7}
#SYM  128E "VSBART_RTL"              #[UW]                               #WORD VALUE OF VSBART_RT {7}
SYM  1290 "VSBART_RT"               #[UY]          #X 0-127.5           #Output Shaft Speed in MPH, not compensated for actual NOV.  VSBART_RT = VSBART * RT_NOVS = NOBART / NVBASE {7}

SYM  1293 "VSBART_RT_PD"            #[UY]          #MPH 0-127.5         #Predicted vehicle speed for a downshift from the current gear {7}
SYM  1294 "VSBART_RT_PU"            #[UY]          #MPH 0-127.5         #Predicted vehicle speed for an upshift from the current gear {7}
SYM  1295 "VS_STRT_SFT"             #[UY]          #MPH 0-127.5         #Vehicle speed at start of shift {7}
SYM  1296 "VSBART_FM"               #[UY]          #MPH 0-255           #VS calculated based on NIBART, NOBART or NEBART {7}
SYM  1297 "VSS_ERR_CTR"             #[UY]          #Counts 0-255        #VSS error counter Resolution: 1.0 {7}
SYM  1298 "VS_NOISE_CTR"            #[UY]          #Counts 0-255        #Count of unrealistic changes in vehicle speed {7}
SYM  1299 "IGR_DS"                  #[UY]          #None 0-127.5        #Unverified desired gear {7}
SYM  129A "SCP_SFT_IN"              #[UY]          #None 0-255          #Register containing the transmission shift detail (shifting or not shifting) {7}
SYM  129A "SCP_TR_FLG"              :B7            #FLAAG 0-1           #Flag indicating TRANS_GEAR `shifting' msg sent & 'not shifting' msg 2 b sent. 1 -> B/C in progress {7}
SYM  129B "GR_CM_SCP_TMP"           #[UY]                               #Temporary location for gear position {7}
SYM  129C "GR_DS"                   #[UY]          #X 0-127.5           #Desired Gear {7}
SYM  129D "GR_CM"                   #[UY]          #X 0-127.5           #Commanded Gear For Shift Solenoids {7}
SYM  129E "GEAR_CUR"                #[UY]          #X 0-127.5           #Global Gear Indicator, reflects only {7}
SYM  129F "TQ_INTRP"                #[SY]          #X -2.0-1.984375     #TQ_NET interpolation factor {7}
SYM  12A0 "BP_INTR"                 #[UY]          #X 0-1.992188        #Barometric Pressure Interpolation Factor {7}
SYM  12A1 "COMP_FCTR"               #[SY]          #X -2.0-1.984375     #Contains the compensation factor for shift scheduling {7}
SYM  12A2 "CS_SFT_MULT"             #[UY]          #X 1-1.992188        #COLD START SHIFT MULTIPLIER {7}
SYM  12A3 "GEAR_OLD"                #[UY]          #X 0-127.5           #Global Gear Indicator For Last Commanded {7}
SYM  12A4 "GR_CM_LST"               #[UY]          #X 0-127.5           #Commanded Gear Last Background Pass {7}
SYM  12A5 "GR_DS_LST"               #[UY]          #X 0-127.5           #Desired Gear Last Background Pass {7}
SYM  12A6 "GR_OLD"                  #[UY]          #X 0-127.5           #Global Gear Indicator For Last Commanded {7}
SYM  12A6 "B3_GR_OLD"               :B3                                 # {7}
SYM  12A7 "GR_DS_TV"                #[UY]          #X 0-127.5           #Commanded gear for TV {7}
SYM  12A8 "TV_COUNTS"               #[UY]          #DACT 0-255          #TV PRESSURE COUNTS TO VFS {7}
SYM  12A9 "TV_COUNT_LST"            #[UY]          #None 0-255          #TV Pressure counts last update {7}
SYM  12AA "TV_RAMP"                 #[SY]                               # {7}
SYM  12AB "TV_ST_SFT"               #[UY]                               # {7}
SYM  12AC "TV_PRES"                 #[UY]                               # {7}
SYM  12AD "TV_STAT"                 #[UY]                               # {7}
SYM  12AE "TV_DYN"                  #[SY]                               # {7}
SYM  12AF "TQ_NET"                  #[UY]                               # {7}
SYM  12B0 "BTR_BASE"                #[UY]          #FT_LBS 0-510        #Output of FN1619, expected torque output at the current engine speed and TP_REL point {7}
SYM  12B1 "TQ_NORM"                 #[UY]          #None 0-1.992188     #Ratio of the actual torque output to the base torque {7}
SYM  12B2 "TP_STRT_SFT"             #[UY]                               # {7}
SYM  12B3 "NE_DROP_HI"              #[UY]                               # {7}
SYM  12B4 "TVRMPTM"                 #[UW]                               # {7}
SYM  12B6 "VSBART(WORD)_PREV"       #[UY]                               # {7}
SYM  12B7 "VSBART_PREV"             #[UY]                               # {7}
SYM  12B8 "VSBART(WORD)"            #[UW]                               # {7}
SYM  12B9 "VSBART"                  #[UY]                               # {7}
SYM  12BA "TV_PRES_BAR(WORD)"       #[UW]                               # {7}
SYM  12BB "TV_PRES_BAR"             #[UY]                               # {7}
SYM  12BC "VSV_STRT_SFT"            #[UY]                               # {7}

SYM  12BD "EGO_ER_FLGS1"            #[UY]                               # {7}
SYM  12BD "FLG_RH_22"               :B0                                 # {7}
SYM  12BD "FLG_LN_22"               :B1                                 # {7}
SYM  12BD "FLG_RH_21"               :B2                                 # {7}
SYM  12BD "FLG_LN_21"               :B3                                 # {7}
SYM  12BD "FLG_RH_12"               :B4                                 # {7}
SYM  12BD "FLG_LN_12"               :B5                                 # {7}
SYM  12BD "FLG_RH_11"               :B6                                 # {7}
SYM  12BD "FLG_LN_11"               :B7                                 # {7}

SYM  12BE "SYS_MON_LST"             #[UY]                               #36.1.1.1.20  Sys_MON_LST Flags {7}
SYM  12BE "CAT_MON_LST"             :B0                                 # {7}
SYM  12BE "CCM_MON_LST"             :B1                                 # {7}
SYM  12BE "PURG_MON_LST"            :B2                                 # {7}
SYM  12BE "SAIR_MON_LST"            :B3                                 # {7}
SYM  12BE "FUEL_MON_LST"            :B4                                 # {7}
SYM  12BE "EGO_MON_LST"             :B5                                 # {7}
SYM  12BE "EGR_MON_LST"             :B6                                 # {7}
SYM  12BE "MIS_MON_LST"             :B7                                 # {7}

SYM  12BF "GEAR_TOP"                #[UY]                               # {7}
SYM  12C0 "RPMERR_DA"               #[SW]                               # {7}
SYM  12C2 "RPMERR_DAO"              #[SW]                               # {7}
SYM  12C4 "DESMAF_PRE"              #[UW]                               # {7}
SYM  12C6 "TR_DSDRPM"               #[UW]                               # {7}
SYM  12C8 "ISC_A_PROP"              #[SW]                               # {7}
SYM  12CA "ISC_A_DER"               #[SW]                               # {7}
SYM  12CC "SLIP_DES"                #[UW]                               # {7}
SYM  12CE "CYCCTR"                  #[UY]                               # {7}

SYM  12D2 "VEGOBAR12"               #[UW]                               # {7}

SYM  12D8 "HTR_RETRY22"             #[UY]                               # {7}
SYM  12D9 "HTR_RETRY12"             #[UY]                               # {7}
SYM  12DA "HTR_RETRY21"             #[UY]                               # {7}
SYM  12DB "HTR_RETRY11"             #[UY]                               # {7}
SYM  12DE "DT_TRG0"                 #[UW]                               # {7}
#SYM 1F232 "DT_TRG1"                 #[UW]                               # {1}
#SYM 1F234 "DT_TRG2"                 #[UW]                               # {1}
#SYM 1F236 "DT_TRG3"                 #[UW]                               # {1}
#SYM 1F238 "DT_TRG4"                 #[UW]                               # {1}


SYM  12E2 "DNDT_STR_??"                #[SY]          #RPM/s -128-127   #TARGET ACCELERATION FOR START OF TQMOD {7}
SYM  12E3 "DNDT_TQM"                #[SY]             #RPM/s -128-127   #DERIVITIVE OF RPM (UNFILTERED), IN TICKS {7}
SYM  12E4 "NO_P_DT12S"              #[UW]                               # {7}
SYM  12E6 "SAF_MOD"                 #[SW]                               # {7}
SYM  12E8 "TQ_TRG_PT0"              #[UW]                               # {7}
#SYM 1F242 "TQ_TRG_PT1"              #[UW]                               # {1}
SYM  12EA "TQ_TRG_PT2"              #[UW]                               # {7}
SYM  12EC "TQ_TRG_PT3"              #[UW]                               # {7}
#SYM 1F24D "TM_TRG_PT0_EX"           #[UY]                               # {1}
#SYM 1F24E "TM_TRG_PT1_EX"           #[UY]                               # {1}
SYM  12EE "TQ_TRG_PT0_EX"           #[UY]                               # {7}
#SYM 1F250 "TQ_TRG_PT1_EX"           #[UY]                               # {1}
SYM  12EF "TQ_TRG_PT2_EX"           #[UY]                               # {7}
SYM  12F0 "TQ_TRG_PT3_EX"           #[UY]                               # {7}
SYM  12F1 "GR_TQM"                  #[UY]                               # {7}
SYM  12F2 "PCT_RED"                 #[UY]              # % 0-1.992188   #Percent of TQ_NET to control to during torque modulation {7}
SYM  12F3 "TQM_MODE"                #[UY]              #X 0-255         #TORQUE MODULATION MODE Init. Value: 0 Resolution: 1 {7}
SYM  12F4 "IMR_EISF_MUL"            #[UW]              #FRAC 1-1.999969 #Multiplier to modify transient fuel during IMR(c) state changes {7}
SYM  12F7 "ROLL_ODO_H_??"           #[  ]                               #ROLL_ODO (high byte) _?? COULD ALSO BE SCP_ROLL_ODO _??{7}
SYM  12F8 "VS_KPH"                  #[  ]                               #VS converted to kph (temporary variable) {7}
SYM  12FA "PWF_AT_DNSFT"            #[UY]                               # {7}
SYM  12FB "HEATER_STATE"            #[UY]                               # {7}
SYM  12FE "READY_STATE"             #[UY]                               # {7}
SYM  12FF "SCP_COOL_NEW_12FF"            #[UY]                               # {7}

SYM  1300 "EDIS_CMDD_PRV"           #[UW]                               # {7}
SYM  1302 "EDIS_CMD_DATA"           #[UW]              #X 0-65535       #EDIS Command Data Register,  16 bits.  Command to be sent to the EDIS via the SPI Resolution: 1 {7}



SYM  1304 "EDIS_MSGD_PRV"           #[UW]                               # {7}

SYM  1306 "EDIS_MSG_DATA"           #[UW]                               # {7}
SYM  1306 "B6_EDIS_MSG_DATA"        :B6                                 # {7}
SYM  1306 "B7_EDIS_MSG_DATA"        :B7                                 # {7}

SYM  130E "SPK_SAW"                 #[UW]                               # {7}
SYM  1312 "EDIS_SPEC_CMD"           #[UY]                               # {7}
#               edis_spec_cmd = NONE = 0    No Special Command Pending
#                             = IN_PROGRESS = 1   Special Command in Progress
#                             = NOP_COMMAND = 3   No Operation Command
#                             = DEF_DWELL_COMMAND = 4   Set Default Dwell
#                             = DEF_SPARK_COMMAND = 5   Set Default Spark Target
#                             = TRANSMIT_DWELL_COMMAND = 6  Transmit Current Dwell
#                             = TRANSMIT_SPARK_COMMAND = 7  Transmit Current Spark Target
#                             = PING_COMMAND = 8   Ping Command
#                             = SEND_MROM_ID = 9   Send MROM ID
#                             = SLEW_COMMAND = 12   Send Slew Fraction


SYM  1313 "EDIS_CMD_PRV"            #[UW]                               # {7}
SYM  1314 "EDIS_IN_MSG"             #[UY]                               # {7}
#          edis_in_msg = NOT_RECOGNIZED          = 0  ->  Input Message Type Not Recognized
#                      = EDIS_STATUS_MESSAGE     = 2  ->  EDIS Status Message
#                      = NOP_MESSAGE             = 3  ->  No Operation (NOP)
#                      = DEF_DWELL_RESPONSE      = 4  ->  Default Dwell Command Response
#                      = DEF_SPARK_RESPONSE      = 5  ->  Default Spark Target Command Response
#                      = TRANSMIT_DWELL_RESPONSE = 6  ->  Transmit Dwell Command Response
#                      = TRANSMIT_DWELL_DATA     = 61 ->  Transmit Dwell Data
#                      = TRANSMIT_SPARK_RESPONSE = 7  ->  Transimit Spark Target Command Response
#                      = TRANSMIT_SPARK_DATA     = 71 ->  Transimit Spark Target Data
#                      = PONG_MESSAGE            = 8  ->  Normal PONG
#                      = STARTUP_PONG_MESSAGE    = 80 ->  Startup PONG
#                      = MROM_ID_RESPONSE        = 9  ->  MROM ID Request Response
#                      = ENDROP_RESPONSE         = 10 ->  ENDROP Command Response
#                      = DROP_RESPONSE           = 11 ->  DROP Command Response
#                      = SLEW_RESPONSE           = 12 ->  SLEW Command Response
#                      = EDIS_RESET_RESPONSE     = 99 ->  EDIS Reset


SYM  1315 "EDIS_MSG_PRV"            #[UW]                               # {7}
SYM  1316 "EDIS_MW_CMD"             #[  ]                #X 0-32        #Register indicating if multi-word command to the EDIS via the SPI is in progress. (0=> No)  {7}
#        = NONE = 0  -> No multi-word command underway
#        = SPARK_DROP = 1 -> Spark Drop sequence in progress (EnDROP, DROP)
#        = DEF_DWELL(DEF_DWELL_COMMAND) = 4 -> Set Default Dwell command in progress (DDWL)
#        = DEF_SPARK = 5 -> Set Default Spark Target in progress (DST)
SYM  1317 "EDIS_ONLINE"             #[UY]                               # {7}
SYM  1318 "EDIS_SETUP"              #[  ]                #X 0-32        #State of EDIS Setup procedure.  Increments as commands are sent and confirmed {7}
SYM  1319 "EDIS_SPI_CMD"            #[UY]                               # {7}
#SAW_COMMAND                  1   /* Spark Angle Word Command (Normal Spark Advance Command) */
#NOP_COMMAND                  3   /* No Operation Command */
#DEF_DWELL_CMD_FIRST_WORD    40   /* Set Default Dwell Command First Word */
#DEF_DWELL_CMD_DATA_WORD     41   /* Set Default Dwell Command Data Word */
#DEF_SPARK_COMMAND            5   /* Set Default Spark Target */
#DEF_SPARK_CMD_FIRST_WORD    50   /* Set Default Spark Target First Word */
#DEF_SPARK_CMD_DATA_WORD     51   /* Set Default Spark Target Data Word */
#TRANSMIT_DWELL_COMMAND       6   /* Transmit Current Dwell */
#TRANSMIT_SPARK_COMMAND       7   /* Transmit Current Spark Target */
#PING_COMMAND                 8   /* Ping Command */
#SEND_MROM_ID                 9   /* Send MROM ID */
#ENDROP_COMMAND              10   /* Enable Spark Drop Command */
#DROP_COMMAND                11   /* Drop Spark Command */
#SLEW_COMMAND                12   /* Slew Fraction Command */

SYM  131A "EDIS_MW_MSG"             #[  ]                #X 0-32        #Indicates if receipt of a multi-word message from the EDIS via the SPI is in progress. (0=> No) Resolution: 1 {7}
SYM  131D "EDIS_STATUS"             #[  ]                #X 0-8         #EDIS Status Indicator ( 1= Normal; 0 = Abnormal ) Resolution: 1 {7}
SYM  131E "EDIS_SPI_ERR"            #[UY]                               # {7}
SYM  131F "EDIS_STATUS"             #[UY]                               # {7}
SYM  1321 "SPI2_SCHED"              #[UY]                               # {7}
SYM  1322 "NTBARCC"                 #[UW]                               # {7}
SYM  1324 "SLIP_SFT_ST"             #[SW]                               # {7}
SYM  132C "DNDT_PSS"                #[SW]                               # {7}
SYM  132E "DNDT_IMRC"               #[SW]                               # {7}
SYM  1330 "DNDT_IMCC"               #[SW]                               # {7}
SYM  1332 "IS_GPAS_CLIP"            #[UW]                               # {7}
SYM  1334 "ISADD_HEDF"              #[UW]                               # {7}
SYM  1336 "N_PREV"                  #[UW]                               # {7}
SYM  1338 "PREV_N_PIP"              #[UW]                               # {7}
SYM  133A "PREV_N_PIP_EXT"          #[UY]                               # {7}
SYM  133B "INITL_FN1338"            #[UY]                               # {7}
SYM  133C "LAMAVE[BANK1]"           #[UW]                               # {7}
SYM  133E "LAMAVE[BANK2]"           #[UW]                               # {7}
SYM  1340 "LAM_OLD[BANK1]"          #[UW]                               # {7}
SYM  1342 "LAM_OLD[BANK2]"          #[UW]                               # {7}
SYM  1344 "LAMMUL"                  #[UW]                               # {7}
SYM  1346 "LAM_STOICH[BANK1]"       #[UW]                               # {7}
SYM  1348 "LAM_STOICH[BANK2]"       #[UW]                               # {7}
SYM  134A "AM"                      #[UW]                               # {7}
SYM  134C "LOAD_RAW"                #[UW]                               # {7}
SYM  134E "HICOMP"                  #[UW]                               # {7}
SYM  1350 "CRK_FUL"                 #[UW]               #Sec 0-0.999985 #Fuel pulsewidth in crank (banks 1 and 2) Resolution: 0.000015 {7}
SYM  1352 "AMPEM"                   #[UW]                               # {7}
SYM  1354 "MINPWT"                  #[UW]                               # {7}
SYM  1356 "MINPW_LBM"               #[UW]                               # {7}
SYM  1358 "TSLAMU[BANK1]"           #[UW]                               # {7}
SYM  135A "TSLAMU[BANK2]"           #[UW]                               # {7}
SYM  135C "CRKPIPCTR_BW"            #[UW]                               # {7}
SYM  135E "FUEL_SUM_L"              #[UW]                               # {7}
SYM  1360 "FUEL_SUM_H"              #[SY]                               # {7}
SYM  1361 "P1469_CNT"               #[  ]                #X 0-255       #Number of short A/C clutch cycles detected Init. Value: 0.0 Resolution: 1.0 {7}
SYM  1362 "AIR_NUM_MULT"            #[UW]                               # {7}
SYM  1364 "AIR_K_OLD"               #[UW]                               # {7}
SYM  1366 "AIR_FK"                  #[UW]                               # {7}
SYM  1368 "PG_AIR"                  #[UW]                               # {7}
SYM  136A "AIR_WOT_ANT"             #[UW]                               # {7}
SYM  136C "MAF"                     #[UW]                               # {7}
SYM  136E "PERLOAD"                 #[UW]                               # {7}
SYM  1370 "MAF_CUR_X"               #[UW]                               # {7}
SYM  1372 "MAF_PRV_X"               #[UW]                               # {7}
SYM  1374 "MAF_TIME"                #[UW]                               # {7} 
SYM  1376 "MAF_PTR"                 #[UW]                               # {7} 
SYM  1378 "S.IMFMCTR"               #[UY=flo(X*1)]       #              # {7}

SYM  137A "LBMF_INJ[BANK1]"         #[UW]                               # {7}
SYM  137C "LBMF_INJ[BANK2]"         #[UW]                               # {7}
SYM  137E "MAP_AIR_0"               #[UW]                               # {7}
SYM  1380 "VS_LIM_BAR"              #[UY]               #MPH 0-255      #VSBAR - high range Resolution: 1.0 {7}
SYM  1382 "NO_LIM_BAR"              #[UW]               #RPM 0-16383.75 #Filtered Output Shaft Speed for speed limiting Resolution: 0.25 {7}
SYM  1384 "DNDT_LST"                #[SW]               #RPM/S*S -8192-8191.75#Last pass value of DNDT_SPK Resolution: 0.25 {7}
SYM  1386 "DNDT_SPK"                #[SW]               #RPM/S -8192-8191.75#FILTERED RATE OF CHANGE OF RPM Resolution: 0.25{7}

#SYM  138A "LAM_TQ_?R138A"                  #[UW]                               # {7}

SYM  138A "SPK_LAMBSE"              #[UY]               #X 0-1.992      #Value of LAMBSE to be used in spark calculations Init. Value: 1 Resolution: 0.008 {7}
SYM  138B "TR_SPK_DELTA"            #[UY]                               # {7}
SYM  138C "ISCMSB"                  #[UY]                               # {7}
SYM  138D "ISCLSB_SUM"              #[UY]                               # {7}
SYM  138E "SLIP_DIF"                #[SW]                               # {7}
SYM  1390 "SLIP_OPEN1"              #[SW]                               # {7}
SYM  1392 "TQ_STAT_CP"              #[UW]                               # {7}
SYM  1394 "BCV_ON_CNT"              #[UY]                #CNTS 0-255    #Counter tracking number of samples bypass valve stuck 'on' in 1st gear {7}
SYM  1395 "BCV_OFF_CNT"             #[UY]                #CNTS 0-255    #Counter tracking number of samples converter is NOT applied {7}
SYM  1396 "PWM_ON_CNT"              #[UY]                               # {7}
SYM  1397 "PWM_OFF_CNT"             #[UY]                               # {7}
SYM  1398 "SFT_12_CNT"              #[UY]                               # {7}
SYM  1399 "SFT_23_CNT"              #[UY]                               # {7}
SYM  139A "SFT_34_CNT"              #[UY]                               # {7}
SYM  139B "OSCTR"                   #[UY]                               # {7}
SYM  139C "OS_NOISE_CTR"            #[UY]                               # {7}
SYM  139D "AIR_PIP_CNT"             #[UY]                 #EVENTS 0-255 #PIP edge counter {7}
SYM  139E "VEGO_BAR[BANK1][DNS]"    #[ W]                 #             # {7}
SYM  13A0 "VEGO_BAR[BANK2][DNS]"    #[ W]                 #             # {7}
SYM  13A2 "VEGO_BAR_I[BANK1][DNS]"  #[ W]                 #             # {7}
SYM  13A4 "VEGO_BAR_I[BANK2][DNS]"  #[ W]                 #             # {7}
SYM  13A6 "NORMD_RPM_FN070"         #[UW]                               # {7}
SYM  13A8 "DISTANCE_LO"             #[UW]                               # {7}
SYM  13AA "DISTANCE"                #[UW]                               # {7}
SYM  13AC "N_RUN"                   #[UW]                 #RPM 0-1000   #Engine RPM to exit Crank mode Init. Value: 0 Resolution: 0.25 {7}
SYM  13AE "N_RUN_TICKS"             #[UW]                               # {7}

SYM  13BA "VEGO_BAR11"              #[UW]                               # {7}
SYM  13BC "VEGO_BAR21"              #[UW]                               # {7}
SYM  13BE "VEGO_LNBAR11"            #[UW]                               # {7}
SYM  13C0 "VEGO_LNBAR21"            #[UW]                               # {7}
SYM  13C2 "VEGO_RHBAR11"            #[UW]                               # {7}
SYM  13C4 "VEGO_RHBAR21"            #[UW]                               # {7}
SYM  13C6 "EGOSTATE11"              #[SY]                               # {7}
SYM  13C7 "EGOSTATE21"              #[SY]                               # {7}

SYM  13C8 "SCP_EXT_FG1"             #[UY]                               # {7}
SYM  13C8 "OIL_TEMP_BAD"            :B0                                 #Engine Oil Temperature indeterminate; 1 -> ENG_OIL_TEMP data is invalid.Initial Value: 0 {7}
SYM  13C8 "TCIL_ST_OLD"             :B1                                 # {7}
SYM  13C8 "SCP_SC_ON"               :B3                                 # {7}
SYM  13C8 "SCP_SC_EN"               :B4                                 # {7}
SYM  13C8 "SCP_IMS_SENT"            :B5                                 # {7}
SYM  13C8 "ACCS_SCP_???"            :B6                                 # {7}
SYM  13C8 "SCP_FR_READY"            :B7                                 # {7}

SYM  13C9 "SCP_EXT_FG2"             #[UY]                               # {7}
SYM  13C9 "TX_PDL_EN"               :B1                                 # {7}
SYM  13C9 "ACD_SCP_HP"              :B4                                 # {7} L_06763 CRAI8 5-30
SYM  13C9 "PENDING_MIL_ONLY"        :B6                                 # {7}


SYM  13CB "SCPECT"                  #[UY]                               # {7}
SYM  13CC "ENG_OIL_TEMP"            #[SY]              #Deg -40-215     #Engine Oil Temperature reported to the EEC over SCP, degrees C.Init. Value: 0 Resolution: 2. {7}
SYM  13CD "SCPPDL"                  #[UY]                               # {7}
SYM  13CE "SCPPDL_LAST"             #[UY]                               # {7}
SYM  13CF "TOT_IROK_CTR"            #[UY]                               # {7}

SYM  13D0 "VSDIAG"                  #[UW]              #MPH 0-127.998001#Filtered vehicle speed for transmission diagnostics L_8C3AA L_8C78A {7}
SYM  13D2 "OSDIAG"                  #[UW]              #RPM 0-16383.75  #Filtered Output Shaft Speed for Transmission Diagnostic features L_8C35D L_8C78E {7}
SYM  13D4 "RT_TRANS_GRV"            #[UW]                               # {7}
SYM  13D8 "OS_SRC"                  #[UW]              #RPM 0-16383.75  #Unfiltered ouptut shaft speed from the source (OSS) - this value is not substituted for during fmem {7}
SYM  13DA "IS_DATA_IN"              #[UW]                               # {7}
SYM  13DB "IS_DATA_IN_H"            #[UY]                               # {7}
SYM  13DB "TCC_IS_FAULT"            :B3                                 # {7}
SYM  13DB "SS1_IS_FAULT"            :B4                                 # {7}
SYM  13DB "SS2_IS_FAULT"            :B5                                 # {7}

SYM  13DC "SR_STRT_TST"             #[UW]                               # {7}
SYM  13DE "TQ_BRK_SBAR"             #[SW]                               # {7}
SYM  13E0 "TRANS_TQ_IN"             #[SW]                               # {7}
SYM  13E2 "NOV_CALC"                #[UW]                               # {7}
SYM  13E4 "DNDT_TQI"                #[SW]                               # {7}
SYM  13E6 "TCC_CKT_CTR"             #[UY]                               # {1}
SYM  13E7 "EPC_FM_ADDER"            #[UY]                               # {7}
SYM  13E8 "TCC_LK_FIL"              #[UY]                               # {7}
SYM  13E9 "VS_STRT_TST"             #[UY]                               # {7}
SYM  13EA "SW4X4_ER_CNT"            #[UY]                               # {7}
SYM  13EC "CURMSG"                  #[UY]                               # {7}
SYM  13ED "CURTXQ"                  #[UY]                               # {7}
SYM  13EE "SCP_TX_CNT"              #[UY]                               # {7}

SYM  13F0 "SCP_COOL_OLD"            #[UY]                               # {7}
SYM  13F1 "SCP_FLI_CNTS"            #[UY]                               # {7}
SYM  13F3 "RETINC"                  #[UY]             #Deg 0-63.75      #RETARD INCREMENT, DEGREES Resolution: 0.25 {7}
SYM  13F4 "RF_LSTROW"               #[UY]                               # {7}
SYM  13F5 "RF_LSTCOL"               #[UY]                               # {7}
SYM  13F6 "RF_DP_ERR"               #[SW]                               # {7}
SYM  13F8 "RF_DP_ERRDOT"            #[SW]                               # {7}
SYM  13FA "RF_DP_ERROLD"            #[SW]                               # {7}
SYM  13FC "RF_DP_ERRSUM"            #[SW]                               # {7}
SYM  13FE "BGPOINT_LAST"            #[UW]                               # {7}

SYM  1400 "N_RATCH_??"                 #[UW]                               # {7}
SYM  1402 "DEBYMA"                  #[UW]                               # {7}
SYM  1404 "RPMERR_A"                #[SW]                               # {7}
SYM  1406 "IPSIBRL"                 #[UW]                               # {7}
SYM  1408 "IPSIBR"                  #[SW]             #LBM/MIN-8-7.999756#CL CORRECTION FOR ISC {7}
SYM  140A "DNDTI"                   #[SW]                               # {7}
SYM  140C "DNDT_DAS"                #[SW]                               # {7}
SYM  140E "RPMERR"                  #[SW]                               # {7}
SYM  1410 "DSTPBR"                  #[UW]                               # {7}
SYM  1412 "DASPOT"                  #[UW]                               # {7}
SYM  1414 "IBGPSI"                  #[UW]             #EVENTS0-65535    #BG LOOP CTR FOR PSI CALC IN ISC {7}
SYM  1416 "NLAST"                   #[UW]                               # {7}
SYM  1418 "DESNLO"                  #[UW]                               # {7}
SYM  141A "IS_AC_RPM"               #[UW]                               # {7}
SYM  141C "PERLOAD_ISC"             #[UW]                               # {7}
SYM  141E "AC_PPM"                  #[UW]                               # {7}
SYM  1420 "DESMAF_PID_N"            #[SW]                               # {7}
SYM  1422 "ISADD_POWS"              #[UW]                               # {7}
SYM  1424 "ISADD_ACRPM"             #[UW]                               # {7}
SYM  1426 "IS_TRAN_RPM"             #[UW]                               # {7}
SYM  1428 "IS_TSL_RPM"              #[UW]                               # {7}
SYM  142A "ISADD_ACT"               #[UW]                               # {7}
SYM  142C "ISADD_BUZZ"              #[UW]                               # {7}
SYM  142E "ISADD_ECT"               #[UW]                               # {7}
SYM  1430 "ISADD_ST_ACT"            #[UW]                               # {7}
SYM  1432 "ISADD_ST_ECT"            #[UW]                               # {7}
SYM  1434 "IS_SOURCE"               #[UY]                               # {7}
SYM  1435 "TIPRET"                  #[SY]               #DEG -32-31.75  #TIP IN RETARD, DEGREES {7}
SYM  1436 "IS_TOT_RPM"              #[UW]                               # {7}
SYM  1438 "IS_BATV_RPM"             #[UW]                               # {7}
SYM  143A "IS_HW_RPM"               #[UW]                               # {7}
SYM  143C "IS_XTEND_RPM"            #[UW]                               # {7}
SYM  143E "ISCPSIL"                 #[UW]                               # {7}
SYM  1440 "ISCPSI"                  #[SW]                               # {7}
SYM  1442 "EDF_PPM"                 #[UW]                               # {7}
SYM  1444 "DSDRPM_WORD"             #[UW]                               # {7}
SYM  1445 "DSDRPM"                  #[UY]                               # {7}
SYM  1446 "DSDRPM_LST"              #[UY]                               # {7}
SYM  1447 "HICAM"                   #[UY]                               # {7}
SYM  1448 "DAS_CTR"                 #[UY]                               # {7}
SYM  1449 "ISCFLG"                  #[SY]                               # {7}
SYM  144A "ISCFLG_LST"              #[SY]                               # {7}
SYM  144B "ISFLAG"                  #[UY]                               # {7}
SYM  144C "ISLAST"                  #[UY]                               # {7}
SYM  1453 "P1120_FIL"               #[UY]                               # {7}
SYM  1454 "P0122_FIL"               #[UY]                               # {7}
SYM  1455 "P0123_FIL"               #[UY]                               # {7}
SYM  1456 "P0121_FIL"               #[UY]                               # {7}
SYM  1457 "P0781FIL"                #[UY]                               # {7}
SYM  1458 "P0782FIL"                #[UY]                               # {7}
SYM  1459 "P0783FIL"                #[UY]                               # {7}
SYM  145A "P0102_FIL"               #[UY]                               # {7}
SYM  145B "P0103_FIL"               #[UY]                               # {7}
SYM  145C "P0707FIL_W"              #[UW]                               # {7}
SYM  145E "P0708FIL_W"              #[UW]                               # {7}
SYM  1460 "EGRDC1"                  #[SW]                               # {7}
SYM  1462 "EGRDC2"                  #[SW]                               # {7}
SYM  1464 "DESMAF"                  #[UW]                               # {7}
SYM  1466 "DESEM"                   #[UW]                               # {7}
SYM  1468 "DESDP"                   #[SW]                               # {7}
SYM  146A "DELPR"                   #[SW]                               # {7}
SYM  146C "CONPR"                   #[UW]                               # {7}
SYM  146E "EGR_ERROR"               #[SW]                               # {7}
SYM  1470 "EGR_ERROR1"              #[SW]                               # {7}
SYM  1472 "EGR_ERROR2"              #[SW]                               # {7}
SYM  1474 "EM"                      #[UW]                               # {7}
SYM  1476 "EGRACT"                  #[UY]                               # {7}
SYM  1477 "EGR_RATE_ACT"            #[UY]                               # {7}
SYM  1478 "EGR_RATE_DES"            #[UY]                               # {7}
SYM  1479 "EGRENA_TM"               #[UY]                               # {7}
SYM  147A "EGR_N_FIL"               #[UW]                               # {7}
SYM  147C "HOSE_TST_AMB"            #[SW]                               # {7}
SYM  147E "P0401OLD_M"              #[UY]                               # {7}
SYM  147E "P0401OLD"                :B5                                 # {7}
SYM  147F "P1405OLD_M"              #[UY]                               # {7}
SYM  147F "P1405OLD"                :B5                                 # {7}
SYM  1480 "P1406OLD_M"              #[UY]                               # {7}
SYM  1480 "P1406OLD"                :B5                                 # {7}
SYM  1481 "EVR_STATUS"              #[UY]                               # {7}
SYM  1482 "TRS_ERRW_CTR"            #[UW]                               # {7}
SYM  1484 "TRS_TRNS_CTR"            #[UW]                               # {7}

SYM  1486 "PDL_FM"                  #[UY]            #UNITLESS 0-127.50 #Failure mode manual lever position {7}
SYM  1487 "TRS"                     #[UY]                               # {7}
SYM  1487 "TR1"                     :B0                                 # {7}
SYM  1487 "TR2"                     :B1                                 # {7}
SYM  1487 "TR3"                     :B2                                 # {7}
SYM  1487 "TR4"                     :B3                                 # {7}
SYM  1488 "TRS_STB_CTR"             #[UY]                               # {7}
SYM  1489 "SS1_CKT_CTR"             #[UY]                               # {7}
SYM  148A "SS2_CKT_CTR"             #[UY]                               # {7}

SYM  148C "PGM_CVS_DC"              #[UW]                               # {7}
SYM  148E "TPR_ENG"                 #[SW]              #IN WATER -64-63.990002#TANK PRESSURE CONVERTED FROM A/D Init. Value: 0 Resolution: 0.001950 {7}

SYM  1490 "PGM_TANK_PRS"            #[SW]                               # {7}
SYM  1492 "TC_TPR"                  #[UW]              #Sec 0-63.990002 #TIME CONSTANT FOR TANK PRESSURE Base Value: 2. Resolution: 0.000977 {7}
SYM  1494 "FLI_ENG_???"             #[UW]              #                # {7} 
SYM  1496 "FLI_ACCUM"               #[UW]              #X 0-1.99        #Cummulative average of FLI_ENG readings used to initialize PGM_FUEL_LVL, % fill.Resolution: 0.000031 {7}
SYM  1498 "FLI_ENG"                 #[UW]              #X 0-1.99        #Fuel level in engineering units, % fill Resolution: 0.000031 {7}
SYM  149A "PGM_FUEL_LVL"            #[UW]              #X 0-1.99        #Filtered fuel level, % fill Resolution: 0.000031 {7}
SYM  149C "FLI_REST"                #[UW]              #OHMS 0-255.996002#Resistance estimate across FLI sensor, in ohms Resolution: 0.003906 {7}
SYM  149E "FLI_RESTA"               #[UW]              #OHMS 0-255.996002#Actual unclipped resistance estimate across FLI sensor, in ohms Resolution: 0.003906 {7}
SYM  14A0 "PGM_PFS"                 #[UW]              #COUNTS 0-1023   #OUTPUT COUNTS VALUE USED BY REST OF STRATEGY.Init. Value: 0 Resolution: 0.015625 {7}
SYM  14A2 "PGM_FLOW_1"              #[UW]              #COUNTS 0-1023   #FIRST READING OF THE PURGE FLOW SENSOR WITH PURGE ON Init. Value: 0 Resolution: 0.015625 {7}
SYM  14A4 "PGM_FLOW_2"              #[UW]              #COUNTS 0-1023   #SECOND READING OF THE PURGE FLOW SENSOR WITH PURGE OFF Init. Value: 0 Resolution: 0.015625 {7}
SYM  14A6 "PGM_PS2_BEGP"            #[SW]                               # {7}

SYM  14AA "PGM_PS2_DLTP"            #[SW]                               # {7}
SYM  14AE "CANP_FF"                 #[U ]               #X 0-1          #Fault filter used with OSM check of CANP or VMV Resolution: 0.000977 {7}

SYM  14B2 "VMV_MXDC_MAX"            #[UW]               #COUNTS 0-1023  #Calculated expected VMV OSM counts value at >90% DC Init. Value: 0 Resolution: 0.015625 {7}
SYM  14B4 "VMV_ZDC_MIN"             #[UW]               #COUNTS 0-1023  #Calculated expected VMV OSM counts value at 0% DC Init. Value: 0 Resolution: 0.015625 {7}
SYM  14B6 "PGM_PCOMP_W"             #[UW]                               # {7}
SYM  14B8 "PGM_LOAD"                #[UW]                               # {7}
SYM  14BA "PGM_VBAT"                #[UW]               #VOLTS 0-15.9375#Filtered value of VBAT used in the Purge Flow test Init. Value: 0 Resolution: 0.0625 {7}
SYM  14BC "PGM_VBAT_DLT"            #[UY]                               # {7}
SYM  14BD "KNK_FMEM_CNT"            #[UY]               #X 0-255        #Knock sensor FMEM counter Resolution: 1.0 {7}
SYM  14BE "PGM_LOAD_DLT"            #[UW]                               # {7}
SYM  14C0 "PGM_TPR_DLT"             #[SW]               #IN WATER -64-63.990002#Absolute value of the difference between the filtered PGM_TANK_PRS and the instantaneous TPR_ENG.Init. Value: 0 Resolution: 0.001950 {7}
SYM  14C2 "PGM_FLI_DLT"             #[SW]                               # {7}
SYM  14C4 "PGM_BLD_DLT"             #[SW]               #LBM/MIN -64-63.990002#Purge monitor bleed pressure allowed before test is failed,from FN_PGM_BLEED Init. Value: 3 Resolution: 0.00195 {7}
SYM  14C6 "PGM_DLT_FLOW"            #[UW]               #COUNTS 0-1023  #DIFFERENCE BETWEEN PURGE FLOW SENSOR INPUT COUNTS READINGS Init. Value: 0 Resolution: 0.015625 {7}
SYM  14C8 "PGM_P0_WPEK"             #[UW]               #PPM 0- 0.124   #Peak PCOMP flow value seen in Phase 0 Init. Value: 0 Resolution: 0.000002 {7}
SYM  14CA "PGM_TEMP"                #[SY]                               # {7}
SYM  14CB "PGM_ST"                  #[SY]                               # {7}
SYM  14CC "PGM_ERROR"               #[SY]                               # {7}
SYM  14CD "PGM_RST_CTR"             #[UY]               #X 0-255        #PURGE MONITOR RESTART COUNTER Init. Value: 0 Resolution: 1 {7}
SYM  14CE "PGM_P0_CTR"              #[UY]               #EVENTS 0-255   #Purge Monitor Phase 0 reset due to high PCOMP counter Init. Value: 0 Resolution: 1 {7}
SYM  14CF "PGM_RUN_CTR"             #[UY]               #X 0-255        #Purge monitor run counter, tracks monitor runs during a single KEY-ON Init. Value: 0 Resolution: 1 {7}
SYM  14D1 "FLICNT"                  #[UY]               #EVENTS 0-255   #Counter to track the number of FLI_ENG readings used to initialize the value of PGM_FUEL_LVL.Resolution: 1.0 {7}
SYM  14D2 "OBDII_STATE"             #[UY]               #X 0-255        #Current state of the obdII sequence controller Init. Value: 0 (0 = INITIAL_STATE, 7 = ER_RUNNING, 8 = EO_RUNNING, 9 = OTM_RUNNING, 10 = FINAL_STATE, 3 = EGO_MON_ABORTED) {7}
#                                                                                                                                      (2 = EGO_MON_RUNNING, 1 = EGO_MON_ENABLED, 6 = PURG_MON_RUNNING, 5 = SAIR_MON_RUNNING, 4 = SAIR_PURG_ARB) 
SYM  14D3 "OBDII_RESET"             #[UY]               #FLAG           #Flag used to simulate the receipt of an OBD-II scan tool reset message Initial Value: 0 {7}
SYM  14D4 "NG_STATE"                #[UY]               #X 0-2          #State of the dual fuel controller (0 = NG_OFF, 1 = NG_ON, 2 = NG_HOLD) Init. Value: 0 {7}
SYM  14D5 "STATE_OF_PTO"            #[UY]               #X 0-2          #State of the PTO controller (0 = PTO_OFF, 1 = PTO_ON, 2 = PTO_HOLD) Init. Value: 0 {7}
SYM  14D6 "FLF_STATE"               #[UY]               #X 0-2          #State of the Flexible Fuel controller (0 = FLF_OFF, 1 = FLF_ON, 2 = FLF_HOLD) Init. Value: 0 {7}
SYM  14D7 "TRS_FLAGS_1"             #[UY]                               # {7}
SYM  14D7 "GR4_AVAIL"               :B0                                 # {7}
SYM  14D7 "GR3_AVAIL"               :B1                                 # {7}
SYM  14D7 "GR2_AVAIL"               :B2                                 # {7}
SYM  14D7 "GR1_AVAIL"               :B3                                 # {7}
SYM  14D7 "GR4_FMEM_FLG"            :B4                                 # {7}
SYM  14D7 "GR3_FMEM_FLG"            :B5                                 # {7}
SYM  14D7 "GR2_FMEM_FLG"            :B6                                 # {7}
SYM  14D7 "GR1_FMEM_FLG"            :B7                                 # {7}
SYM  14D8 "IMRC_STATE1"             #[UY]                               # {7}
SYM  14D9 "IMRC_STATE2"             #[UY]                               # {7}
SYM  14DA "IMRC_STAOLD1"            #[UY]                               # {7}
SYM  14DB "IMRC_STAOLD2"            #[UY]                               # {7}
SYM  14DC "IMRC_SO1_CNT"            #[UY]                               # {7}
SYM  14DD "IMRC_SO2_CNT"            #[UY]                               # {7}
SYM  14DE "IMRC_SO1_FIL"            #[UY]                               # {7}
SYM  14DF "IMRC_SO2_FIL"            #[UY]                               # {7}
SYM  14E0 "IMRC_SC1_CNT"            #[UY]                               # {7}
SYM  14E1 "IMRC_SC2_CNT"            #[UY]                               # {7}
SYM  14E2 "IMRC_SC1_FIL"            #[UY]                               # {7}
SYM  14E3 "IMRC_SC2_FIL"            #[UY]                               # {7}
SYM  14E4 "IMRC_TP_REL"             #[UW]                               # {7}
SYM  14E6 "IMRC_N_REL"              #[UW]                               # {7}
SYM  14E8 "N_IMRC"                  #[UW]                               # {7}
SYM  14EA "IMRC_STAT"               #[UY]                               # {7}
SYM  14EB "P1520FIL"                #[UY]               #FRAC 0-1       #Filtered form of IMRC_FAULT Resolution: 0.01 {7}
SYM  14EC "IMRC_FMEM_FG"            #[UY]                               # {7}

SYM  14ED "IMRC_FLG"                #[UY]                               # {7}
SYM  14ED "IMRC_CMNDOLD"            :B0                                 # {7}
SYM  14ED "IMRC_CMND"               :B1                                 # {7}
SYM  14ED "IMRC_POSNOLD"            :B2                                 # {7}
SYM  14ED "IMRC_POSN"               :B3                                 #Actual binary position of port throttle plates;1->open {7}
SYM  14ED "IMRC_AS_ENA"             :B4                                 # {7}
SYM  14ED "IMRCTHISTRIP"            :B5                                 # {7}
SYM  14ED "IMRCLASTTRIP"            :B6                                 # {7}
SYM  14ED "IMRCKAM_SWAP"            :B7                                 # {7}

SYM  14EE "IMRC_FLG1"               #[UY]                               # {7}
SYM  14EE "IMRC_POSN_1"             :B5                                 # {7}
SYM  14EE "IMRC_BK1_SOP"            :B6                                 # {7}
SYM  14EE "IMRC_BK1_SCL"            :B7                                 # {7}

SYM  14EF "IMRC_FLG2"               #[UY]                               # {7}
SYM  14EF "IMRC_REV_ENA"            :B4                                 # {7}
SYM  14EF "IMRC_POSN_2"             :B5                                 # {7}
SYM  14EF "IMRC_BK2_SOP"            :B6                                 # {7}
SYM  14EF "IMRC_BK2_SCL"            :B7                                 # {7}

SYM  14F0 "IMRC_FLG3"               #[UY]                               # {7}
SYM  14F0 "IMRC_AMB_ENA"            :B0                                 # {7}
SYM  14F0 "IMRC_???"             :B1                                 # {7}
SYM  14F0 "EGR_IMR_MOD"             :B2                                 #Flag to request EGR rate modification when IMRC is on {7}
SYM  14F0 "IMRC_DIA_ENA"            :B3                                 # {7}
SYM  14F0 "IMRC_EN_KOEO"            :B4                                 # {7}
SYM  14F0 "FLG_IMRC_TM"             :B5                                 # {7}
SYM  14F0 "FLG_IMRC_HLD"            :B6                                 # {7}
SYM  14F0 "IMRC_TP_ENA"             :B7                                 # {7}
SYM  14F1 "IMRCSPKBDL_W"            #[UY]               #FRAC 0-1       #Weighting factor for IMRC borderline spark modification {7}
SYM  14F2 "IMRCSPKMBT_W"            #[UY]               #FRAC 0-1       #Weighting factor for IMRC MBT spark modification {7}
SYM  14F3 "TC_CNTR"                 #[UY]               #EVENTS 0-16    #Background loop counter to extend the range of the ROLAVE() beyond the current 1 min. time constant Init. Value: 0 Resolution: 1 {7}
SYM  14F4 "FUEL_SOURCE[BANK1]"      #[UY]               #X 0-7          #Value to indicate the source of the final open loop LAMBSE1 caluculation. {7}
SYM  14F5 "FUEL_SOURCE[BANK2]"      #[UY]               #X 0-7          #Value to indicate the source of the final open loop LAMBSE1 caluculation. {7}
SYM  14F6 "SCP_BLK_OLD"             #[SY]               #X -128-127     #Last transmitted Vehicle Security PCM ID Block Number. (For SCP use.)Init. Value: -1.0 Resolution: 1.0 {7}
SYM  14F7 "SCP_PCM_ID1"             #[UY]               #X 0-255        #SCP copy of Vehicle Security PCM ID Block Response Byte #1 {7}
SYM  14F8 "SCP_PCM_ID2"             #[UY]               #X 0-255        #SCP copy of Vehicle Security PCM ID Block Response Byte #2 {7}
SYM  14F9 "SCP_PCM_ID3"             #[UY]               #X 0-255        #SCP copy of Vehicle Security PCM ID Block Response Byte #3 {7}
SYM  14FA "SCP_PCM_ID4"             #[UY]               #X 0-255        #SCP copy of Vehicle Security PCM ID Block Response Byte #4 {7}
SYM  14FB "SCP_PCM_ID5"             #[UY]               #X 0-255        #SCP copy of Vehicle Security PCM ID Block Response Byte #5 {7}
SYM  14FC "RX_INCODE1"              #[UY]               #X 0-255        #First byte of incode data received over SCP network for ANTI-THEFT coded access Resolution: 1.0 {7}
SYM  14FD "RX_INCODE2"              #[UY]               #X 0-255        #Second byte of incode data received over SCP network for ANTI-THEFT coded access Resolution: 1.0 {7}

SYM  14FE "BITMAP_MON_1"            #[  ]               #               # {7}

SYM  1500 "LAMBSE_DRV"              #[UW]               #X 0-1.99       #Desired LAMBSE for drivablility concerns Init. Value: 1 Resolution: 0.000031 {7}
SYM  1502 "LAMBSE_EXT"              #[UW]               #X 0-1.99       #Desired LAMBSE to for catalyst temperature reasons Init. Value: 1 Resolution: 0.000031 {7} 
SYM  1506 "RR_MULT1"                #[UW]                               # {7}
SYM  1508 "RR_MULT2"                #[UW]                               # {7}
SYM  150A "PATS_RAND[0,1]"          #[UW]               #X 0-255        #One element of PATS_RAND array Init. Value: 0 Resolution: 1 {7}
SYM  150C "PATS_RAND[3,4]"          #[UW]               #X 0-255        #One element of PATS_RAND array Init. Value: 0 Resolution: 1 {7}
#SYM  150C "LAMBSE_EXT"              #[UW]                #X 0-1.99      #Desired LAMBSE to for catalyst temperature reasons Init. Value: 1 Resolution: 0.000031 {7}
SYM  1512 "SCP_PATS_ENCR_ST_??"        #[  ]                               # {7}
SYM  1513 "PATS_ENCR_ST"            #[UY]                               # {7}
SYM  1514 "PATS_BLK_NUM"            #[SY]                               # {7}
SYM  1515 "PATS_PCM_ID1"            #[UY]                               # {7}
SYM  1516 "PATS_PCM_ID2"            #[UY]                               # {7}
SYM  1517 "PATS_PCM_ID3"            #[UY]                               # {7}
SYM  1518 "PATS_PCM_ID4"            #[UY]                               # {7}
SYM  1519 "PATS_PCM_ID5"            #[UY]                               # {7}
SYM  151A "EXT_EXO_MLT"             #[U ]            #MULTIPLIER 0-15.9 # Catalyst exotherm multiplier (actual vs stoich A/F exotherm difference). Init. Value: 1 Resolution: 0.0625 {7}

SYM  151C "PATS_FLAGS"              #[UY]                               # {7}
SYM  151C "PAT_PARM_RST"            :B2                                 #Flag indicating to ANTI-THEFT to reset state machine to allow PCM ID request.  {7}
SYM  151C "SCP_PCMID_RQ"            :B3                                 # {7}
SYM  151C "SCPPAT_FMFLG"            :B4                                 # {7}
SYM  151C "PATS_RSP_REQ"            :B5                                 # {7}
SYM  151C "PATS_CHL_REQ"            :B6                                 # {7}
SYM  151C "FLG_THFT_FCO"            :B7                                 # {7}

SYM  151D "PATS_ACC"                #[UY]            #X 0-255           #Secure access method for ANTI-THEFT.  0 -> coded, 1 -> timed Resolution: 1.0 {7}

SYM  152A "PATS_CONFG"              #[UY]                               # {7}
SYM  152A "AUT_PCMID_TX"            :B0                                 # {7}

SYM  152B "RETMAX"                  #[SY]            #Deg CA -32-31.75  #Knock retard limit Resolution: 0.25 {7}

SYM  152C "PAT_CHL_RSP4"            #[UY]            #X 0-255           #Security response message sent by the PCM over SCP. Byte #4 Init. Value: 0 Resolution: 1 {7}
SYM  152D "PAT_CHL_RSP3"            #[UY]            #X 0-255           #Security response message sent by the PCM over SCP. Byte #3 Init. Value: 0 Resolution: 1 {7}
SYM  152E "PAT_CHL_RSP2"            #[UY]            #X 0-255           #Security response message sent by the PCM over SCP. Byte #2 Init. Value: 0 Resolution: 1 {7}
SYM  152F "PAT_CHL_RSP1"            #[UY]            #X 0-255           #Security response message sent by the PCM over SCP. Byte #1 Init. Value: 0 Resolution: 1 {7}


#SYM  1530 "PATS_CHL_RSP(1-4)_??"    #[  ]                               # {7}

SYM  154A "FIP_DELTA"               #[UW]                               # {7}
SYM  154C "FUL_RAIL_MUL"            #[UW]            #X 0-7.9998        #Fuel/Air multiplier, used to account for conditions in fuel rail, which affect the amount of mass fuel delivered to cylinder.Init. Value: 1.0 Resolution: 0.000122 {7}


SYM  1552 "FEGO_MX_CLR"             #[UW]                               # {7}
SYM  1554 "FEGO_MX_SAFE"            #[UW]                               # {7}
SYM  1556 "FLN_MAX_CLR"             #[UW]                               # {7}
SYM  1558 "FLN_MAX_SAFE"            #[UW]                               # {7}

SYM  155A "FUL_IP_BKMUL"            #[UW]                               # {7}
SYM  155C "FAR_MUL_SLP"             #[SW]                               # {7}
SYM  155E "FUL_STOIC_AF"            #[UW]                               # {7}
SYM  1560 "INJ_HS_COMP"             #[UW]                               # {7}
SYM  1562 "INJ_LS_COMP"             #[UW]                               # {7}
SYM  1564 "FUL_LAMMUL"              #[UW]                               # {7}
SYM  1566 "CRK_BASE_PW"             #[UW]                               # {7}
SYM  1568 "RFS_HS_COMP"             #[UW]                               # {7}
SYM  156A "RFS_LS_COMP"             #[UW]                               # {7}
SYM  156C "MFALAMADD"               #[UW]             #LAMBDA UNITS 0-1.999969#Managed Fuel Air requested LAMBSE adder, equivalence ratio Init. Value: 0 Resolution: 0.000031 {7}
SYM  156E "MFAMUL"                  #[UW]                               # {7}
SYM  1570 "RF_RAILTEMP"             #[SY]                               # {7}


SYM  1588 "KNKWIN_DELTA"            #[UW]                               # {7}
SYM  158A "KNKWIN_OFFST"            #[UW]                               # {7}
SYM  158C "KNK_KDW_OFF"             #[UW]                               # {7}
SYM  158E "KNK_KDW_LEN"             #[UW]                               # {7}
SYM  1593 "KW_DELAY_OFF"            #[UY]                               # {7}
SYM  1594 "RETARD_LIMIT"            #[SY]                #DEG SPK ADV -32-0 #Maximum knock control spark retard Init. Value: -20 Resolution: 0.25 {7}
SYM  1595 "KNK_GAIN_1"              #[SY=flo(X*1)]       #X 0-255       #Knock sensor gain for sensor 1 Init. Value: 0.0 Resolution: 1.0 {7}
SYM  1596 "KNK_GAIN_2"              #[SY=flo(X*1)]       #X 0-255       #Knock sensor gain for sensor 2 Init. Value: 0.0 Resolution: 1.0 {7}


SYM  1597 "SPK_FG_EXT_FLG"          #[UY]                               # {7}
SYM  1597 "TIP_ACT_FLG"             :B6                                 #Throttle position based tipin control logic active {7}
SYM  1597 "SPK_BDL_UPDT"            :B7                                 # {7}

SYM  1598 "ACT_ENG"                 #[SW]                               # {1}

SYM  159A "EAM_ANTP_TMR_??"            #[UW]                #mSec          #Word Timer [1C] {7}
SYM  159C "FN_GEN_TMR"              #[UW]                #mSec          #Word Timer [1C] UNITS: Sec Resolution = 0.001, Range 0 - 1 LAMBSE fuel modulation function generator timer.{7}
SYM  159E "NDS_TMR"                 #[UW]                #Sec 0-63.999001#Word Timer FREE RUN High Resolution - time since transmission shift, sec Resolution: 0.001 {7}
SYM  15A0 "SCP_TMR"                 #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15A2 "IAC_MON_TMR"             #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15A8 "TM_STRT_SFT"             #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15AA "TM_TCS_RES"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15AC "TRAC_TMRSCP"             #[U ]                #Sec 0-63.999001# FREE RUN UP TIMER Time since last traction control request Resolution: 0.000977 {7}
SYM  15AE "ACPERIOD_TMR"            #[UW]                #mSec 0-63.990002#Word Timer [1C] A/C Cycling period timer Resolution: 0.249 {7}
SYM  15B4 "PSTMR"                   #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15B6 "FANTMR"                  #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15BA "SR_93_TMR"               #[UW]                #msec          #FREE RUN TIMER Time since PCM stopped receiving any (valid or invalid) PATS Key Status message (target 93h). 
SYM  15BC "PFS_ER_TMR"              #[UW]                #Sec 0-63.990002#FREE RUN TMR TIMER WHICH RUNS WHEN A FAULT IS PRESENT IN THE PURGE FLOW SENSOR. Resolution: 0.000977 {7} 
SYM  15BE "PFS_FM_TMR"              #[UW]                #Sec 0-63.990002#FREE RUN TMR TIMER WHICH IS RESET WHEN  THE FAILURE CONDITIONS FOR FMEM MODE ARE MET, Resolution: 0.000977 {7} 
SYM  15C0 "TPR_ER_TMR"              #[UW]                #Sec 0-63.990002#FREE RUN TMR TIMER WHICH RUNS WHEN A FAULT IS PRESENT, Resolution: 0.000977 {7}  
SYM  15C2 "TPR_FM_TMR"              #[UW]                #Sec 0-63.990002#FREE RUN TMR TIMER WHICH IS RESET WHEN  THE FAILURE CONDITIONS FOR FMEM MODE ARE MET, Resolution: 0.000977 {7}  
SYM  15C4 "FLI_ER_TMR"              #[UW]                #Sec 0-63.990002#FREE RUN Timer that increments when an FLI sensor fault is present, SECONDS. Resolution: 0.000977 {7} 
SYM  15C6 "FLI_FM_TMR"              #[UW]                #Sec 0-63.990002#Word Timer Timer that is cleared during an FLI sensor FMEM condition, SECONDS Resolution: 0.000977 {7}
SYM  15C8 "IMRC_RSP_TMR"            #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15CA "THEFT_TMR"               #[UW]                #mSec          #Word Timer [1C] {7}


SYM  15D4 "DS_DLY_TMR"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15DA "UPDATE_TMR"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15DC "TM_4X4L_RES"             #[UW]                #mSec          #Word Timer [1C] {7}

SYM  15E0 "TMR_NO_LK"               #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15FE "TMR_M12"                 #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15A4 "PUTMR"                   #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15A6 "TSLPIP"                  #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15B0 "AC_CTL_TMR"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15B2 "AC_SLP_TMR"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15D2 "TMR_TA_EXIT"             #[UW]                #mSec          #Word Timer [1C] {7}

SYM  15D6 "TMR_41AUT"               #[UW]                #mSec          #Word Timer [1C] {1}
SYM  15D8 "TMR_42AUT"               #[UW]                #mSec          #Word Timer [1C] {1}

SYM  15DE "TM_34_DEL"               #[UW]                #mSec          #Word Timer [1C] {7}



SYM  15E2 "UNLKDLY_TMR"             #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15E4 "TM_PDL_RES"              #[UW]                #mSec #FREE RUN#Word Timer [1C] PRNDL INPUT RESIDENCE TIMER DIRECTION-DOWN Clip Min.: 0.00 Clip Max.: 63.999001{7}
SYM  15E6 "TM_SFT_CTL"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15E8 "TM_UNLK_WDOG"            #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15EA "TM_SFT_IN"               #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15EC "TV_RAMP_TMR"             #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15EE "TM_PWF_DEC"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15F0 "TM_VER_SFT"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15F2 "TM_SFT_EXIT"             #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15F4 "TM_SFT_SLP"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15F6 "TM_SEQ_SFT"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15F8 "TM_DEL_SFT"              #[UW]                #mSec          #Word Timer [1C] {7}
SYM  15FA "EPC_BLP_TMR"             #[UW]                #mSec          #Word Timer [1C] {7}

SYM  15FC "EPC_ENG_TMR"             #[UW]                #mSec          #Word Timer [1C] {7}

SYM  1600 "TMR_HS_M1"               #[UW]                #mSec          #Word Timer [1C] {7}
SYM  1602 "HLD_AC_TMR"              #[UW]                #mSec 0-65535  #Word FREE RUN DOWN to control how long past the end of the transmission shift to hold the A/C in its curent state {7} 
SYM  1604 "EPC_RMP_TMR"             #[UW]                #mSec          #Word Timer [1C] {7}
SYM  1606 "FLI_SMPL_TMR"            #[UW]                #Sec 0-63.990002#Word Timer that decrements between FLI_ENG readings when initializing PGM_FUEL_LVL, seconds.Resolution: 0.000977 {7} 
SYM  1608 "HLD_IMRC_TMR"            #[UW]                #mSec#FREE RUN #Word Timer [1C] Timer to control how long past the end of the inertia phase to hold the imrc in its curent position Direction: DOWN 0-65535 {7}
SYM  160A "SPK_RMP_TMR"             #[UW]                #mSec          #Word Timer [1C] {7}
SYM  160C "TQMODWD"                 #[UW]                #mSec          #Word Timer [1C] {7}
SYM  160E "US_HTRDC_TMR"            #[UW]                #mSec          #Word Timer [1C] {7}
SYM  1610 "CHTIL_TMR"               #[UW]                #mSec          #Word Timer [1C] {7}
SYM  1612 "ACIOTMR"                 #[UW]                #mSec          #Word Timer [1C] {7}
SYM  1614 "ACITMR"                  #[UW]                #mSec          #Word Timer [1C] {7}
SYM  1616 "TSLADV"                  #[UW]                #mSec 0-63.999001#Word Timer [1C] TIME SINCE LAST ADVANCE  {7}
SYM  1618 "EPC_DLY_TMR"             #[UY]                #mSec          #Word Timer [1C] {7}
SYM  1619 "TSLVSS"                  #[UY]                #mSec          #Word Timer [1C] {7}
SYM  161A "MULTMR"                  #[UY]                #mSec          #Word Timer [1C] {7}
SYM  161B "TSLOSS"                  #[UY]                #mSec 0-255    #Word Timer [1C] Time since last OSS interrupt {7}
SYM  161C "ISCTMR"                  #[UW]                #Eighths       #Word Timer [7] {7}
SYM  161E "MILTMR"                  #[UW]                #Eighths       #Word Timer [6] {7}

SYM  162C "PGM_PHS_TMR"             #[UW]                #Eighths       #Decrement, Word Timer [2] {7}

SYM  162E "SAIR_LNW_TMR"            #[UW]                #Eighths       #Word, Free Run Timer [5] ?Flag B2 0280? {7}
SYM  1630 "CHT_CRIT_TMR"            #[UW]                #Eighths       #Word, Free Run Timer [4] ?Flag B4 07C3? {7}
SYM  1632 "ATMR1_HI_RES"            #[UW]                #Eighths       #Inverse, Word, Free Run Timer [3] Flag B7 0098 {0}
SYM  1634 "V_THERM_TMR"             #[UY]                #Eighths       #Byte, Timer [58] {7}
SYM  1635 "V_EAMM_TMR"              #[UY]                #Eighths       #Byte, Timer [57] Secs 0-31.875 Time that EAM Monitor (EAMM) error has been present {7}
SYM  1636 "SAIR_RCH_TMR"            #[UY]                #Eighths       #Byte, Timer [56] {7}

#SYM  1638 "SCP_FLI_TMR_??"             #[UY]                #Eighths       #Byte, Timer [22] {7}
SYM  1639 "SAIR_END_TMR"            #[UY]                #Eighths       #Byte, Timer [53] Secs 0-31.875 Timer to delay the ending of the SAIR monitor,  allow EAM pump time to spin down. {7}
SYM  163A "SAIR_HLD_TMR"            #[UY]                #Eighths       #Byte, Timer [52] {7}
SYM  163B "PG_OLFLG_TMR"            #[UY]                #Eighths       #Byte, Timer [51] {7}
SYM  163C "PG_FULPW_TMR"            #[UY]                #Eighths       #Byte, Timer [4F] {7}
SYM  163D "cHT_ER_TMR"              #[??=flo(X*1)]       #Counts        #Cylinder Head Temperature Error TMR. {3}
SYM  163E "CHT_FM_TMR"              #[UY]                #Eighths       #Byte, Timer [49] {7}
SYM  163F "ECT_ER_TMR"              #[UY]                #Sec 0-31.799999#Byte, FREE RUN, UP, ECT fault timer Init. Value: 0 Resolution: 0.125 {7}
SYM  1640 "ECT_FM_TMR"              #[UY]                #Sec 0-31.799999#Byte, FREE RUN, UP, EXT failure mode exit delay timer Init. Value: 0 Resolution: 0.125 {7} 

SYM  1642 "DEMAND_TIMER"            #[UY]                #Eighths       #Byte, Timer [47] {7}
SYM  1643 "FAR_MUL_TMR"             #[UY]                #Eighths       #Byte, Timer [46] {7}
SYM  1644 "SPKTMR"                  #[UY]                #Eighths 0-31.875#Byte, FREE RUN, UP, Timer TIME IN FEEDBACK SPARK ENTRY Resolution: 0.125 {7}
SYM  1645 "SCP_PDL_TMR"             #[UY]                #Eighths       #Byte, Timer [43] {7}
SYM  1646 "SCP_MIL_TMR"             #[UY]                #Eighths       #Byte, Timer [42] {7}
SYM  1647 "V_FP_ER_TMR1"            #[UY]                #Eighths       #Byte, Timer [41] {7}
SYM  1648 "V_FP_ER_TMR2"            #[UY]                #Eighths       #Byte, Timer [40] {7}
SYM  1649 "V_FP_ER_TMR3"            #[UY]                #Eighths       #Byte, Timer [3F] {7}
SYM  164A "V_FP_ER_TMR4"            #[UY]                #Eighths       #Byte, Timer [xx] {7}
SYM  164B "FPMP_ON_TMR"             #[UY]                #Eighths       #Byte, Timer [3E] {7}
SYM  164C "TSLVS_SPK"               #[UY]                #Eighths 0-31.875#Byte, Timer [38]  Time since last VS spike, seconds Resolution: 0.125  {7}
SYM  164E "SETTMR"                  #[UY]                #Eighths       #Byte, Timer [37] {7}
SYM  164F "V_EGOTST_TMR"            #[UY]                #Eighths 0-31.875#Byte,Free Run, Up, Timer, TIME SINCE SELF TEST CLOSED Resolution: 0.125 {7}
SYM  1650 "V_TP_ERR_TMR"            #[UY]                #Eighths       #Byte, Timer [36] {7}
SYM  1651 "OLTMR"                   #[UY]                #Eighths       #Byte, Timer [35] {7}
SYM  1652 "AC_OFF_TMR"              #[UY]                #Eighths       #Byte, Timer [34] {7}
SYM  1653 "NOV_DLY_TMR"             #[UY]                #Eighths       #Byte, Timer [33] {7}
SYM  1654 "TCILTMR"                 #[UY]                #Eighths       #Byte, Timer [  ] Time since a transmission fault has occurred, sec {7}
SYM  1655 "TCIL_FLASH_TMR"          #[UY]                #Eighths       #Byte, Timer [31] {7}
SYM  1656 "ACTPOFF_TMR"             #[UY]                #Sec 0-31.875  #Byte, FREE RUN UP A/C wide open throttle cutout timer {7}
SYM  1657 "ACTPTMR2"                #[UY]                #Sec 0-31.875  #Byte, FREE RUN UP A/C CLUTCH NOT HIGH THROTTLE TIMER {7}
SYM  1658 "P1460_TMR"               #[UY]                #Sec 0-30      #Byte, FREE RUN UP Time which ACC OSM fault present Init. Value: 0 Resolution: 0.125 {7}
SYM  1659 "P1461_TMR"               #[UY]                #Sec 0-30      #Byte, FREE RUN UP Time A/C pressure above maximum Init. Value: 0 Resolution: 0.125 {7}
SYM  165A "P1462_TMR"               #[UY]                #Sec 0-30      #Byte, FREE RUN UP Time A/C pressure below minimum Init. Value: 0 Resolution: 0.125 {7}
SYM  165B "P1464_TMR"               #[UY]                #Sec 0-30      #Byte, FREE RUN UP Time A/C requested during selftest Init. Value: 0 Resolution: 0.125 {7}
SYM  165C "KNK_PID_TMR"             #[UY]                #Sec 0-31.875  #Byte, FREE RUN UP Time Since Last Knock Event was Detected.used in PID. Init. Value: 31.875 Resolution: 0.125 {7}
SYM  165D "TSLOS_SPK"               #[UY]                #Eighths 0-31.875#Byte, Timer [24] Time since last OS spike, seconds Resolution: 0.125 {7}
SYM  165E "TSLVS_SCP"               #[UY]                #Eighths       #Byte, Timer [23] {7}
SYM  165F "SCP_FLI_TMR"             #[UY]                #Eighths       #Byte, Timer [22] {7}
SYM  1660 "OSS_FM_TMR"              #[UY]                #Eighths 0-31.875#Byte, Timer Output shaft speed sensor failure mode timer Resolution: 0.125 {7}
SYM  1661 "OSSTMR"                  #[UY]                #Eighths 0-31.875#Byte, Timer [1F] Output Shaft Speed Sensor Test Timer Resolution: 0.125 {7}
SYM  1662 "VSSTMR"                  #[UY]                #Eighths       #Byte, Timer [1E] VEHICLE SPEED SENSOR TEST TIMER {7}
SYM  1663 "RMP_OPEN_TMR"            #[UY]                #Eighths       #Byte, Timer [1D] {7}
SYM  1664 "AC_PPM_TMR"              #[UY]                #Eighths       #Byte, Timer [1C] {7}
SYM  1665 "EGR_OFF_TMR"             #[UY]                #Eighths       #Byte, Timer [1B] {7}
SYM  1666 "EGR_OBD2_REF"            #[UY]                #Eighths       #Byte, Timer [1A] {7}
SYM  1667 "EGR_SHT_TMR"             #[UY]                #Eighths       #Byte, Timer [19] {7}
SYM  1668 "IMRC1_FL_TMR"            #[UY]                #Eighths       #Byte, Timer [17] {7}
SYM  1669 "IMRC2_FL_TMR"            #[UY]                #Eighths       #Byte, Timer [16] {7}
SYM  166B "P1474_TMR"               #[UY]                #Sec 0-30      #Byte, FREE RUN Timer Time fan OSM  fault is present. Resolution: 0.125 {7}
SYM  166C "P1479_TMR"               #[UY]                #Sec 0-30      #Byte, FREE RUN Timer Time which HEDF OSM fault present  Resolution: 0.125 {7}
SYM  166D "ACT_ER_TMR"              #[UY]                #Eighths       #Byte, Timer [08] {7}
SYM  166E "ACT_FM_TMR"              #[UY]                #Eighths       #Byte, Timer [07] {7}
SYM  166F "OTEMP_TMR"               #[UY]                #Eighths       #Byte, Timer [06] {7}
SYM  1670 "RT_DLY_TMR"              #[UY]                #Eighths       #Byte, Timer [05] {7}
SYM  1671 "SCP_ACCS_TMR"            #[UY]                #Eighths       #Byte, Timer [04] {7}
SYM  1672 "SCP_ECT_TMR"             #[UY]                #Eighths       #Byte, Timer [03] {7}
SYM  1673 "SCP_EOL_TMR"             #[UY]                #Eighths       #Byte, Timer [02] {7}
SYM  1674 "ODU_UP_TMR"              #[UY]                #Eighths       #Byte, Timer [01] {7}
SYM  1675 "FP_DPS_TMR1"             #[UY]                #Eighths       #Byte, Timer [3D] {7}
SYM  1676 "FP_DPS_TMR2"             #[UY]                #Eighths       #Byte, Timer [3C] {7}
SYM  1677 "FP_DPS_TMR3"             #[UY]                #Eighths       #Byte, Timer [3B] {7}
SYM  1678 "FP_DPS_TMR5"             #[UY]                #Eighths       #Byte, Timer [3A] {7}
SYM  1679 "FP_FRTS_TMR"             #[UY]                #Eighths       #Byte, Timer [39] {7}
SYM  167B "TCC_FMDC_TMR"            #[UY]                #Eighths       #Decrement, Byte, Timer [13] {7}
SYM  167C "ACL_TMR"                 #[UY]                #Eighths       #Decrement, Byte, Timer [14] {7}
SYM  167D "SS1ISDLY_TMR"            #[UY]                #Eighths       #Decrement, Byte, Timer [12] {7}
SYM  167E "SS2ISDLY_TMR"            #[UY]                #Eighths       #Decrement, Byte, Timer [11] {7}
SYM  167F "TCCISDLY_TMR"            #[UY]                #Eighths       #Decrement, Byte, Timer [10] {7}

SYM  1680 "TST_DLY_TMR"             #[UY]                #Eighths       #Decrement, Byte, Timer [0F] {7}
SYM  1681 "TCC_TST_TMR"             #[UY]                #Eighths       #Decrement, Byte, Timer [0E] {7}
SYM  1682 "TMR_FR"                  #[UY]                #Eighths       #Decrement, Byte, Timer [0D] {7}
SYM  1683 "NEU_RES_TMR"             #[UY]                #Eighths       #Decrement, Byte, Timer [05] {7}
SYM  1684 "STROKE_TMR"              #[UY]                #Eighths       #Decrement, Byte, Timer [0B] {7}
SYM  1685 "SLP_TDLY_TMR"            #[UY]                #Eighths       #Decrement, Byte, Timer [0A] {7}
SYM  1686 "TM_LK_DLY"               #[UY]                #Eighths       #Decrement, Byte, Timer [09] {7}
SYM  1687 "TM_12_AKD"               #[UY]                #Sec 0-31.99   #Decrement, Byte, FREE RUN, Timer register to track time in 1st gear after a 3-1 kickdown Resolution: 0.125 {7}
SYM  1688 "SLIP_STEP_TMR"           #[UY]                #Eighths       #Decrement, Byte, Timer [04] {7}
SYM  1689 "EIP_TMR"                 #[UY]                #Eighths       #Decrement, Byte, Timer [07] {7}
SYM  168B "PATS_ID_TMR"             #[UY]                #Eighths       #Decrement, Byte, Timer [01] {7}
SYM  168C "CPRGTMR"                 #[UY]                #Eighths 0-31.875#ACTUATED UP #CURRENT CANISTER PURGE ON TIME {7}
SYM  168D "OL_HOT_TMR"              #[UY]                #Sec 0-31.875  #ACTUATED UP  Time since last LAMBSE update due to Open Loop, hot and stable condition (FLEX-fuel specific -- actuated by FLG_OL_337) Resolution: 0.125 {7}
SYM  168E "CTTMR"                   #[UY]                #Eighths       #Byte, Free Run, Timer [6] [Flag B6 0098_??] {7}
SYM  168F "LUGTMR"                  #[UY]                #Eighths0-31.875#Bidirec, Byte, Free Run Timer [7] [Flags B6 & B7 00A4] ENGINE LOAD TRANSITION TIMER Resolution: 0.125{7}
SYM  1690 "RUNUPTMR"                #[UY]                #Eighths       #Byte, Free Run, Timer [5] Flag B3 0091 {7}
SYM  1691 "TM_UN_CT"                #[UY]                #Eighths       #Byte, Free Run, Timer [4] [Flag B6 00A9 {7} ???]
SYM  1692 "GEAR4TMR"                #[UY]                #Eighths       #Byte, Free Run, Timer [3] [Flag B4 0095_???] {7}
SYM  1694 "INJON_TMR"               #[UY]                #Eighths       #Byte, Free Run, Timer [2] [Flag B1 1044_???] {7}
SYM  1695 "INJOFF_TMR"              #[UY]                #Eighths       #Byte, Free Run, Timer [1] [Flag B0 1044_???] {7}
SYM  1696 "ADAPT_TMR"               #[UW]                #Seconds       #Word Timer [10] {7}
SYM  1698 "TSLADPTMR"               #[UW]                #Seconds       #Word Timer [11] {7}
SYM  169A "OTM_TIMER"               #[UW]                #Seconds       #Word Timer [0D] {7}
SYM  169C "BPUPDTTMR"               #[UW]                #Seconds       #Word Timer Free running timer for warm engine BP update Init. Value: 0 Resolution: 1 {7}
SYM  169E "TM_IN_GR4"               #[UW]                #Seconds       #Word Timer [0A] {7}
SYM  16A0 "EGREN_TMR"               #[UW]                #Seconds       #Word Timer [06] FLAG B7 R00B9{7}
SYM  16A2 "EGR_RTST_TMR"            #[UW]                #Seconds       #Word Timer [05] {7}
SYM  16A4 "PGM_MDE8_TMR"            #[UW]                #Seconds       #Word Timer [04] {7}
SYM  16A6 "USPD_RUN_TMR"            #[UW]                #Seconds       #Word Timer [01] {7}
SYM  16A8 "ECT_WUT_TMR"             #[UW]                #Seconds       #Word, Free Run, Timer [07] ??Flag B3 0390?? {7}
SYM  16AA "STB_LOLD_TMR"            #[UW]                #Seconds       #Bidirec, Word, Free Run, Timer [05] ??Flags B5 & B6 0097?? {7}
SYM  16AC "ADPTMR"                  #[UW]                #Seconds       #Word, Free Run, Timer [04] Flag B0 009A {7}
SYM  16AE "HCTMR"                   #[UW]                #Seconds       #Word Timer [0B] {7}
SYM  16B0 "FINCTR_1"                #[UW]                #Seconds       #Bidirec, Word, Free Run, Timer [06] Flags B5 & B6 04D4 {7}
SYM  16B2 "RUN_TMR"                 #[UW]                #Seconds       #Inverse, Word, Free Run, Timer [03] ??Flag B2 0098?? {7}
SYM  16B4 "EGRMON_TMR"              #[UW]                #Seconds       #Bidirec, Word, Free Run, Timer [01] ??Flags B2 & B3 118E?? {7}
SYM  16B6 "CL_TMR"                  #[UW]                #Sec 0-65535   #ACTUATED UP TIMER CLOSED LOOP TIMER Resolution: 1 {7}

SYM  16BE "TFC_TMR"                 #[  ]                #              #  {7}
SYM  16BF "V_AP_TSTTMR"             #[UY]                #Seconds       #Byte, Timer [1F] {7}
SYM  16C0 "HSF_ACP_OTMR"            #[UY]                #Seconds 0-255 #Byte, Timer [0B] HSF AC Pressure Off timer Resolution: 1.0 {7}
SYM  16C1 "ECT_FMEM_TMR"            #[UY]                #Seconds 0-255 #Byte, FREE RUN, UP, Timer to control ECT ramp to FMEM value  Init. Value: 0 Resolution: 1 {7}
SYM  16C2 "US_HTR_TMR"              #[UY]                #Seconds       #Byte, Timer [1C] {7}
SYM  16C3 "DS_HTR_TMR"              #[UY]                #Seconds       #Byte, Timer [1B] {7}
SYM  16C4 "KOER_TST_TMR"            #[UY]                #Seconds       #Byte, Timer [1A] {7}
SYM  16C5 "COOL_WOT_TMR"            #[UY]                #Seconds       #Byte, Timer [19] {7}
SYM  16C6 "OL_LEAN_TMR"             #[UY]                #Sec 0-255     #Byte, FREE RUN Tmr OPEN LOOP TIMER USED FOR ENLEANMENT,SEC Resolution: 1 {7}
SYM  16C7 "SCP_B0_TMR"              #[UY]                #Seconds       #Byte, Timer [17] {7}
SYM  16C8 "KAM_MON_TMR"             #[UY]                #Seconds 0-255 #Byte, Timer [16] Fuel Monitor timer for similar conditions reset{7}

SYM  16CB "RBIAS_CL_TMR"            #[UY]                #Seconds 0-255 #Byte, Free Run, Up, Timer, TIME SINCE ENTRY INTO CLOSED LOOP Resolution: 1 {7}
SYM  16CC "IAC_ER_TMR1"             #[UY]                #Seconds       #Byte, Timer [12] {7}
SYM  16CD "IAC_ER_TMR2"             #[UY]                #Seconds       #Byte, Timer [11] {7}
SYM  16CE "IAC_ER_TMR3"             #[UY]                #Seconds       #Byte, Timer  {7}
SYM  16CF "IAC_KAM_TMR"             #[UY]                #Seconds       #Byte, Timer [10] {7}
SYM  16D0 "V_LESTMR_B[BANK1]"       #[UY]                #Sec 0-255    #Byte, Free Run, Up, Timer, SELF TEST LACK OF EGO SWITCHING TIMER (EGO1) Resolution: 1 {7}
SYM  16D1 "V_LESTMR_B[BANK2]"       #[UY]                #Sec 0-255    #Byte, Free Run, Up, Timer, SELF TEST LACK OF EGO SWITCHING TIMER (EGO2) Resolution: 1 {7}
SYM  16D2 "V_LEGOTMR[BANK1]"        #[UY]                #Sec 0-255    #Byte, Free Run, Up, Timer, Self test time since last ego 1 switch while test conditions are active. Resolution: 1.0 {7}
SYM  16D3 "V_LEGOTMR[BANK2]"        #[UY]                #Sec 0-255    #Byte, Free Run, Up, Timer, Self test time since last ego 1 switch while test conditions are active. Resolution: 1.0 {7}
SYM  16D4 "ATMR4"                   #[UY]                #Seconds       #Byte, Timer [0E] {7}
SYM  16D5 "OSS_MON_TMR"             #[UY]                #Seconds 0-255 #Byte, Timer [0A] Output shaft speed sensor monitor timer Resolution: 1.0 {7}
SYM  16D6 "EGR_WOT_TMR"             #[UY]                #Seconds       #Byte, Timer [09] {7}
SYM  16D7 "VSS_MON_TMR"             #[UY]                #Seconds       #Byte, Timer [08] Vehicle speed sensor monitor timer Resolution: 1.0 {7}
SYM  16D8 "PGM_TMR"                 #[UY]                #Sec 0-255     #Byte, Timer FREE RUN UP Timer that increments between readings of the flow test Resolution: 1 {7}
SYM  16D9 "PGM_RDY_TMR"             #[UY]                #Sec 0-255     #Byte, Timer FREE RUN Timer that tracks conditions to determine if purge flow test is ready Resolution: 1 {7}
SYM  16DA "IMRC_LOD_TMR"            #[UY]                #Seconds       #Byte, Timer [07] {7}
SYM  16DB "V_ZTOSPD_TMR"            #[UY]                #Seconds       #Byte, Timer [05] {7}
SYM  16DC "V_CL_BRK_TMR"            #[UY]                #Seconds       #Byte, Timer [04] {7}
SYM  16DD "DISFMEMTMR"              #[UY]                #Seconds       #Byte, Timer [03] {7}
SYM  16E0 "PTO_HOLD_TMR"            #[UY]                #Seconds       #Decrement, Byte, Timer [04] {7}
SYM  16E1 "FLF_HOLD_TMR"            #[UY]                #Seconds       #Decrement, Byte, Timer [03] {7}
SYM  16E2 "NG_HOLD_TMR"             #[UY]                #Seconds       #Decrement, Byte, Timer [02] {7}
SYM  16E3 "PGM_RST_TMR"             #[UY]                #Seconds       #Decrement, Byte, Timer [01] {7}
SYM  16E4 "X1"                      #[UY]                #Seconds       #Inverse, Byte, Free Run, Timer [16] Flag B7 0098 {7}
SYM  16E5 "X2"                      #[UY]                #Seconds       #Byte, Free Run, Timer [15] Flag B6 0090 {7}
SYM  16E6 "PRGIDLE_TMR"             #[UY]                #Seconds       #ACTUATED UP/DOWN 0-255 #TIME AT IDLE FOR PURGE CONTROL {7} 
SYM  16E7 "PRGTMR"                  #[UY]                #Seconds       #ACTUATED UP 0-255 Secs #TOTAL CANISTER PURGE ON TIME {7}
SYM  16E8 "OV_TMR_[BANK1][UPS]"     #[U ]                #Seconds 0-255 #ACTUATED UP/DOWN EGO11 overvoltage timer Resolution: 1 {7}
SYM  16EA "OV_TMR_[BANK2][UPS]"     #[U ]                #Seconds 0-255 #ACTUATED UP/DOWN EGO21 overvoltage timer Resolution: 1 {7}
SYM  16ED "FAO_MON_TMR1"            #[UY]                #Seconds       #Byte, Free Run, Timer [10] ??Flag B7 009B?? {7}
SYM  16EC "FAO_MON_TMR2"            #[UY]                #Seconds       #Byte, Free Run, Timer [0F] ??Flag B7 009C?? {7}
SYM  16EE "IAC_ER_TMR4"             #[UY]                #Seconds       #Byte, Free Run, Timer [0E] ?Flag B2 F032? {7}
SYM  16EF "DFIB_TMR11"              #[UY]                #Seconds       #Byte, Free Run, Timer [0D] ?Flag B0 0093? {7}
SYM  16F1 "CTNTMR"                  #[UY]                #Seconds 0-255 #Timer Type: ACTUATED Direction: UP/DOWN NEUTRAL CLOSED THROTTLE TIMER Init. Value: 0. Resolution: 1.0 {7}
SYM  16F2 "IDLTMR"                  #[UY]                #Seconds 0-255 #ACTUATED UP IN-GEAR IDLE TIME Resolution: 1 {7}
SYM  16F3 "ATMR3"                   #[UY]                #Seconds       #Inverse, Byte, Free Run, Timer [0B] ?Flag B2 0098? {7}
SYM  16F4 "NACTMR"                  #[UY]                #Seconds       #Byte, Free Run, Timer [0A] Flag B5 0090 {0}
SYM  16F5 "VOLTMR"                  #[UY]                #Seconds       #Bidirec, Byte, Free Run, Timer [01] ??Flags B6 & B7 00A8?? {7}
SYM  16F6 "LESTMR11"                #[UY]                #Seconds       #Byte, Free Run, Timer [08] ?Flag B0 0093? {7}
SYM  16F8 "EGOTSTCUMTMR"            #[UY]                #Sec 0-255     #Byte, Actuated,Up, TIMER, accumulated time tha the EGO test test conditions are true Resolution: 1.0 {7}
SYM  16F9 "TSEGRE"                  #[UY]                #Seconds       #Byte, Free Run, Timer [05] TIME SINCE EGR ENABLED TIMER ACTUATED UP 0-255 {7}
SYM  16FA "EPTZER_TMR2"             #[UY]                #Seconds       #Inverse, Byte, Free Run, Timer [04] ??Flag B1 0080?? {7}
SYM  16FB "CANP_OSM_TMR"            #[UY]                #Sec 0-255     #ACTUATED UP Timer that tracks the amount of time that the purge valve has been actively monitored. Resolution: 1 {7}
SYM  16FE "VMV_OSM_TMR"             #[UY]                #Sec 0-255     #ACTUATED UP Timer that tracks the amount of time that the VMV has been actively monitored. Resolution: 1 {7}
SYM  1700 "SCP_RPM_ARRAY"           #[UY]                               # {7}
SYM  1705 "SCP_PKT2_ARRAY"          #[UY]                               # {1}
SYM  1707 "EXT_REH_INT"             #[??]                               #?? {7}
SYM  170C "WINDOW_BETA"             #[UW]                               # {7}
SYM  170E "WINDOW_DELTA"            #[UW]                               # {7}
SYM  1710 "KNKTST_A2D"              #[UW]                               # {7}
#SYM  1712 "KNKTST_A2D_2"            #[UW]                               # {7}
SYM  1712 "KNK_FRAC_ST"             #[UW]                               # {7}
SYM  1714 "KNK_FRAC_END"            #[UW]                               # {7}
SYM  1716 "KW_DELTA_PRV"            #[UW]                               # {7}
SYM  1718 "FN070O_N"                #[UW]                               # {7}
SYM  171A "FN070U_N"                #[UW]                               # {7}
SYM  171C "FN071U_LOAD"             #[UW]                               # {7}

SYM  1720 "BCSDC_FM_MIN"            #[UW]                               # {7}
SYM  1722 "SPK_ACTUAL"              #[SW]                               # {7}
SYM  1724 "PIPTSTFIL"               #[  ]             #EVENTS 0-255     #PIP circuit failure fault filter {7}
SYM  1725 "CIDTSTFIL"               #[  ]             #X 0-255          #CID circuit failure fault filter {7}
SYM  1726 "IDM_TM"                  #[SW]                               # {7}
SYM  1728 "IDMUPEDGTM"              #[UW]             #TICKS 0-65535    #Up edge transition time of IDM pulse {7}
SYM  172A "LAST_HI_PIP"             #[UW]                               # {7} 
SYM  172C "LAST_HI_PIP_EXT"         #[UY]                               # {7} 
SYM  172D "DIS_ECNT"                #[UY]                               # {7}
SYM  172E "DISCUTOUT1"              #[UY]                               # {7}
SYM  172F "DISCUTOUT2"              #[UY]                               # {7}
SYM  1730 "IDM_PW"                  #[UW]                               # {7}
SYM  1732 "IDM_PW_STARTM_1732_??"           #[UW]                               # {7}
SYM  1734 "US_HTR_DC"               #[UY]                               # {7}
SYM  1735 "HTRSS_DC"                #[UY]                               # {7}
SYM  1736 "US_HTR_PER"              #[UW]                               # {7}
SYM  1738 "STRT_TM"                 #[UW]                               # {1}
SYM  173A "STRT_TM_EXT"             #[UY]                               # {1}
SYM  173B "TQ_NORM_NEW"             #[UY]                               # {7}
SYM  173C "SCP_CHL_RSP4"            #[UY]            #X 0-255           #Security challenge response received from the PATS module over SCP, byte #4 Init. Value: 0 Resolution: 1 {7}
SYM  173D "SCP_CHL_RSP3"            #[UY]            #X 0-255           #Security challenge response received from the PATS module over SCP, byte #3 Init. Value: 0 Resolution: 1 {7}
SYM  173E "SCP_CHL_RSP2"            #[UY]            #X 0-255           #Security challenge response received from the PATS module over SCP, byte #2 Init. Value: 0 Resolution: 1 {7}
SYM  173F "SCP_CHL_RSP1"            #[UY]            #X 0-255           #Security challenge response received from the PATS module over SCP, byte #1 Init. Value: 0 Resolution: 1 {7}
SYM  1740 "SCP_PATS_ACC"            #[UW]            #X 0-255           #Vehicle security challenge, security access method.  (The data received over SCP)Init. Value: 0 Resolution: 1 {7}
SYM  1741 "TQ_NORM_LST"             #[UY]                               # {7}
SYM  1742 "PWOFS_DISPLY"            #[UW]                               # {7}
SYM  1744 "PG_DC"                   #[UW]                               # {7}
SYM  1746 "PCOMP_W"                 #[UW]                               # {7}
SYM  1748 "PCOMP_PPM_C_LO"          #[UW]                               # {7}
SYM  174A "PCOMP_PPM_C"             #[UW]                               # {7}
SYM  174C "PCOMP_PPM_LO"            #[UW]                               # {7}
SYM  174E "PCOMP_PPM"               #[UW]                               # {7}
SYM  1750 "PCOMP_LBM_LO"            #[UW]                               # {7}
SYM  1752 "PCOMP_LBM"               #[UW]                               # {7}
SYM  1754 "PG_PC_PCOMP"             #[UW]                               # {7}
SYM  1756 "TM_BLP"                  #[UW]                               # {7}
SYM  1758 "TM_STR"                  #[UW]                               # {7}
SYM  175A "PWFC"                    #[UY]                               # {7}
SYM  175B "TV_BLP"                  #[SY]                               # {7}
SYM  175C "NE_START"                #[UW]                               # {7}
SYM  175F "VS_PRE_CONS"             #[UY]                               # {7}
SYM  1760 "VS_TMR_CAPT"             #[UW]                               # {7}
SYM  1762 "ETV_OCM_MIN"             #[UW]                               # {7}
SYM  1764 "TPBART_DT"               #[UW]                               # {7}
SYM  1766 "TQ_NORM_CUR"             #[UY]                               # {7}
SYM  1767 "VS_U2"                   #[UY]                               # {7}
SYM  1768 "VS_U3"                   #[UY]                               # {7}
SYM  1769 "VS_U4"                   #[UY]                               # {7}
SYM  176A "VS_D2"                   #[UY]                               # {7}
SYM  176B "VS_D3"                   #[UY]                               # {7}
SYM  176C "VS_D1"                   #[UY]                               # {7}
SYM  176E "NE12"                    #[UW]                               # {7}
SYM  1770 "NE23"                    #[UW]                               # {7}
SYM  1772 "NE34"                    #[UW]                               # {7}
SYM  1774 "NED"                     #[UW]                               # {7}
SYM  1776 "VLOAD"                   #[UY]              #X 0-1           #inferred vehicle load {7}

SYM  1778 "TQ_NET_LST"              #[UY]                               # {7}
SYM  1779 "RF_FEEDFRWRD"            #[UY]                               # {7}
SYM  177A "TQ_VACCR"                #[UW]              #FT-LBS 0-16383.75#available tq. for vehicle acceleration (higher range)  {7}
SYM  177C "NOV_KAM"                 #[UW]                               # {7}
SYM  177E "TQ_INP_NET"              #[UY]              #FT-LBS 0-1020   #Trans Input Shaft Torque {7}
SYM  1780 "PWF"                     #[UY]                               # {7}
SYM  1781 "VS_PPH2"                 #[UY]              #MPH 0-127.5     #amount pph is adding to the 1-2 shift point {7}
SYM  1782 "VS_PPH3"                 #[UY]              #MPH 0-127.5     #amount pph is adding to the 2-3 shift point {7}
SYM  1783 "VS_PPH4"                 #[UY]              #MPH 0-127.5     #amount pph is adding to the 3-4 shift point {7}
SYM  1785 "AC_SP_CTR"               #[  ]              #X 0-255         #AC SHORT PERIOD COUNTER {7}
SYM  1786 "RT_HIGH_CTR(GR_CM)"      #[UY]              #X 0-255         #2nd, 3rd, 4th gear high ratio error counter/DETERMINED BY GEAR_CM {7}
SYM  178A "IDBLOCK_FMT"             #[  ]              #                #Contents of memory location at address (IDBLOCK_ADR+13h) on ROM Bank (IDBLOCKH_ADR) {7}
SYM  178C "IDBLOCK_ADRS"            #[UDW]             #                #four-byte data string which is created when the following data is concatenated: IDBLOCKH_ADR, IDBLOCK_ADR & IDBLOCK_FMT {7}
###                                                                     representing ROM Bank, Starting Address of the 256-byte Flash ID Block, and the Block format type, respectively {7}

SYM  1794 "SPK_SAW_DEG"             #[UY]                               # {7}
SYM  1795 "SPK_SAW_TO"              #[UY]                               # {7}
SYM  1796 "SPK_TOOTHSZ"             #[UY]                               # {7}
SYM  1797 "SPK_B1_COILS"            #[UY]                               # {7}
SYM  1798 "SPK_B2_COILS"            #[UY]                               # {7}


SYM  179A "P401_FLT_TMR"            #[UW]                               # {7}
SYM  179C "P401_TST_TMR"            #[UW]                               # {7}
SYM  179E "P0402_RETRY"             #[UY]                               # {7}
SYM  179F "P402RTRY_TMR"            #[UY]                               # {7}
SYM  17A0 "DELPR1405_M6"            #[SW]                               # {1}
SYM  17A2 "DELPR1406_M6"            #[SW]                               # {1}
SYM  17A4 "P1405THRES"              #[SW]                               # {1}
SYM  17A6 "P1406THRES"              #[SW]                               # {7}
SYM  17A8 "EGRDC_402"               #[UW]                               # {7}
SYM  17AA "EGR_INFAMB"              #[SW]                               # {7}

SYM  17AC "CAT_CNT_GAS"             #[UY]                               # {7}
SYM  17B1 "CAT_CNT_NG"              #[UY]                               # {7}

SYM  17B6 "SYS_RDY_GAS"             #[UY]                               # {7}
SYM  17B6 "CAT_RDY_GAS"             :B0                                 # {7}
SYM  17B6 "PURG_RDY_GAS"            :B2                                 # {7}
SYM  17B6 "SAIR_RDY_GAS"            :B3                                 # {7}
SYM  17B6 "EGO_RDY_GAS"             :B5                                 # {7}
SYM  17B6 "EGR_RDY_GAS"             :B6                                 # {7}

SYM  17B7 "DIAGX_FLGS2"             #[UY]                               # {7}
SYM  17B7 "PTO_ACTIVE"              :B1                                 # {7}
SYM  17B7 "NG_ACTIVE"               :B4                                 # {7}
SYM  17B7 "FLF_ACTIVE"              :B7                                 # {7}


SYM  17B8 "SCPBITMAP_6"             #[  ]                               # {7}


SYM  17B9 "SCPBITMAP_7"             #[  ]                               # {7}

SYM  17BA "SCPBITMAP_10"            #[  ]                               # {7}

SYM  17BB "SCPBITMAP_15"            #[  ]                               # {7}

SYM  17BC "PID_316DD_D"             #[  ]                               # {7}

SYM  17BD "BITMAP_OFD_2"            #[  ]                               # {7}

SYM  17BE "BITMAP_OFD_3"            #[  ]                               # {7}

SYM  17BF "BITMAP_OFD_4"            #[  ]                               # {7}

SYM  17C0 "BITMAP_OFD_5"            #[  ]                               # {7}



SYM  17C2 "BITMAP_FMEM5"            #[  ]              #X 0-255         #Fifth standardized FMEM bitmap for SCP PID and Rapid Data usage Resolution: 1 {7}

SYM  17C3 "SCPBITMAP_1"             #[  ]              #X 0-255         #First Standardized SCP bitmap register for PID and Rapid Data use Resolution: 1 {7}

SYM  17C4 "INJ_PIP_CNT[BANK1]"      #[SY]                               # {7}
SYM  17C5 "INJ_PIP_CNT[BANK2]"      #[SY]                               # {7}
SYM  17C6 "RF_DPREF"                #[UW]                               # {7}
SYM  17C8 "RF_STARTTICK"            #[UW]                               # {7}

SYM  17CA "TC_FRT_RUN"              #[UW]                               # {7}
SYM  17CC "FRP_OLD"                 #[UW]                               # {7}
SYM  17CE "RF_MAP"                  #[UW]                               # {7}
SYM  17D0 "RF_DPERROLDF"            #[SW]                               # {7}
SYM  17D2 "RF_DELTA_T"              #[UW]                               # {7}
SYM  17D4 "RF_DP_ERRF"              #[SW]                               # {7}
SYM  17D6 "INJ_OFF_OSC"             #[UW]                               # {7}
SYM  17D8 "INJ_ON_OSC"              #[UW]                               # {7}
SYM  17DA "ESDIAG"                  #[UW]                               # {7}
SYM  17DC "OS_FM"                   #[UW]                               # {7}
SYM  17DE "VS_FM"                   #[UW]                               # {7}
SYM  17E0 "SAFTOT"                  #[SW]                               # {7}
SYM  17E2 "SAFTOT_PREV"             #[SW]            #DEGS -20-70       #Last pass value of final spark advance {7}
SYM  17E4 "TIP_COUNT"               #[UY]            #PIP CYCLES 0-255  #Number of PIP cycles since tip-in retard has occurred {7}
SYM  17E5 "SPKAD"                   #[SY]                               # {7}

SYM  17EC "EXT_SS_FIRNG"            #[SW]            #Deg -4095-4096    #Signed steady state exhaust gas flange temperature at a stoich air/fuel mixture for firing cylinders Init. Value: 0 Resolution: 0.125 {7}
SYM  17EE "EXT_SS_FLMF"             #[SW]            #Deg -4095-4096    #Signed steady state exhaust gas temperature at the flange Init. Value: 0 Resolution: 0.125 {7}
SYM  17F0 "EXT_SS_FLSMF"            #[SW]            #Deg -4095-4096    #Singed steady state exhaust gas flange temperature at a stoich air/fuel mixture.Init. Value: 0  Resolution: 0.125 {7}
SYM  17F2 "EXT_REG"                 #[SW]                               # {7}


SYM  1852 "PG_DC_OF"                #[UW]            #X 0-1.99          #PURGE DUTY CYCLE OFFSET Base Value: 0.10 # OR"PG_DC_OPN"_??{7}
SYM  1854 "PG_DC_CLOS"              #[UW]                               # {7}






SYM  1F00 "S.0x11F00"               #[ W]                               # SAME AS RZASA "S.0x11F00"  {7}
SYM  1FFF "S.0x11FFF"               #[ Y]                               # SAME AS RZASA "S.0x11FFF"  {7}

 


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######  #     # #  #  # ###       #     #     #####  #       #     # #       #     # ######   #####  
#     # ####### #   # # #  #      #     #          # #       ####### #       ####### #   #         # 
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######  #     # #     # #    #      ###       #####   #####  #     # ####### #     # #     #  #####  

#SYM0BFC2 "S.0x0BFC2"               #[UW=flo(X/1024)]    #sec           # {2}
#SYM0C0D7 "S.0x0C0D7"               #[UW=flo(X/1024)]    #sec           # {2}



######     #    #     # #    #      #       #####   #####     #    #          #    ######   #####  
#     #   # #   ##    # #   #      ##      #     # #     #   # #   #         # #   #     # #     # 
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######  #     # #  #  # ###         #       #####  #       #     # #       #     # ######   #####  
#     # ####### #   # # #  #        #            # #       ####### #       ####### #   #         # 
#     # #     # #    ## #   #       #      #     # #     # #     # #       #     # #    #  #     # 
######  #     # #     # #    #    #####     #####   #####  #     # ####### #     # #     #  #####  


SYM 12004 "FIXSUM_VERID(ROM_TO)"    #[UW]                               # CRAI8 40-1 ROM ID CODE- ALWAYS SET TO 0 
#SYM 12004 "ROM_TO"                  #[UW=flo(X*1)]       #hex           #(Checksum) {2}
SYM 1200A "BIN_CHIP_ID"             #[UW=flo(X*1)]       #hex           #Data Page ROM Identification {2}
SYM 12062 "AICE_VERS"               #[UY=flo(X*1)]       #SW            #AICE IC Version Designator  {7}
SYM 12063 "AICE_SETR1_B"            #                    #SW            #AICE H/W Configuration B {7}
SYM 12063 "B0_AICE_SETR1_B"         :B0                  #              #Reserved (Bit 0) {7}
SYM 12063 "B1_AICE_SETR1_B"         :B1                  #              #Reserved (Bit 1) {7}
SYM 12063 "B2_AICE_SETR1_B"         :B2                  #              #KTS Source (Bit 2) {7}
SYM 12063 "B3_AICE_SETR1_B"         :B3                  #              #Misfire Delta-Time (Bit 3) {7}
SYM 12063 "B4_AICE_SETR1_B"         :B4                  #              #PIP Period Delta Select (Bit 4) {7}
SYM 12063 "B5_AICE_SETR1_B"         :B5                  #              #HEGO Filter Frequency (Bit 5) {7}
SYM 12063 "B6_AICE_SETR1_B"         :B6                  #              #Unused (Bit 6) {7}
SYM 12063 "B7_AICE_SETR1_B"         :B7                  #              #MFDS Mode (Bit 7) {7}
SYM 12064 "AICE_SETR1_C"            #                    #              #VRS or Hall Effect Sensor SW {7}
SYM 12064 "B0_AICE_SETR1_C"         :B0                  #              #VSS H/W Configuration Bit 0 (VSS_TYPE) {7}
SYM 12064 "B1_AICE_SETR1_C"         :B1                  #              #CID1 H/W Configuration Bit 1 (CRANK_TYPE) {7}
SYM 12064 "B2_AICE_SETR1_C"         :B2                  #              #CID2 H/W Configuration Bit 2 (CAM_TYPE) {7}
SYM 12064 "B3_AICE_SETR1_C"         :B3                  #              #TSS_HP H/W Configuration Bit 3 {7}
SYM 12064 "B4_AICE_SETR1_C"         :B4                  #              #OSS_HP H/W Configuration Bit 4 {7}
SYM 12064 "B5_AICE_SETR1_C"         :B5                  #              #VSS_HP / (VRS_HP) (HE_HP) Bit 5 {7}
SYM 12064 "B6_AICE_SETR1_C"         :B6                  #              #CID1 / (VRS_HP) (HE_HP) Bit 6 {7}
SYM 12064 "B7_AICE_SETR1_C"         :B7                  #              #CID2 / (VRS_HP) (HE_HP) Bit 7 (HP_CIDSEL?? / Cam Sensor Type) {7}
SYM 12065 "AICE_SETR1_D"                                 #              #OSS Type Select SW (Bit 0) {7}
SYM 12065 "B0_AICE_SETR1_D"         :B0                  #              #OSS Type Select SW (Bit 0) {7}
SYM 12065 "B1_AICE_SETR1_D"         :B1                  #              #TSS/OSS Type Select SW (Bit 1) {7}
SYM 12066 "AICE_VRS_VAL"            #[UY=flo(X*1)]       #              #Sensor hysteresis values {7}
SYM 1207C "ISCAL_HWDR_S.0x120D8"    #[UW=flo(X*1)]       #              #Minimum desired engine speed when in drive with heated windschied on # SAME AS RZASA "S.0x120D8" L88B69 HW idle {7}
SYM 1207E "ISCAL_HWNU_S.0x120DA"    #[UW=flo(X*1)]       #              #Minimum desired engine speed when in neutral with heated windschied on # SAME AS RZASA "S.0x120DA" L88B62 HW idle {7}
SYM 12080 "DSDRPM_OFF"              #[SW=flo(X/4)]       #RPM           #DSDRPM Deriviate Deadband {7}
SYM 12082 "TR_SPK_CLP"              #[U ]                #Ratio 0-1     #Minimum torque ratio below which torque reduction via spark are not possible.Base Value: 0.8 Resolution: 0.008 {7}
SYM 120BC "RATIV"                   #[UW=flo(X/32768)]   #Vdc CNTS 100-300#INITIAL VALUE OF RATCH (ALSO INITIAL VALUE OF TBART) UNITS ARE COUNTS Base Value: 250 {7}
SYM 120BE "RATCH_MIN"               #[UW=flo(X/64)]      #AD Cnts       #Ratch Clip Min (Min CT TP)  {7}
SYM 120C2 "RATKAM_MIN"              #[UW=flo(X*1)]       #Vdc  0-1023   #RATKAM value below which is considered corrupted Base Value: 25. {7}
SYM 120C4 "FUEL_APT_LST"            #[SY]                               # {7}
SYM 120C6 "S.0x120C6"               #[UW=flo(X*1)]       #              # {3}
SYM 120C8 "S.0x120C8"               #[UW=flo(X*1)]       #              # {3}
SYM 12430 "VSTYPE"                  #[UY=flo(X*1)]       #SW            #Integrated Cruise Control SW {2}
SYM 12431 "DOLHP"                   #[UY=flo(X*1)]       #SW            #Data Output Link Present {7}
#SYM 12431 "B0_DOLHP"                :B0                  #              #Data Output Link Present SW {7}
SYM 12432 "PUL_PER_GAL"             #[UW=flo(X*1)]       ##             #DOL Pulses per Gallon {7}
SYM 12434 "TCBYLD"                  #[UW=flo(X/1024)]    #sec           #Inferred Load Filter Constant {7}
SYM 12436 "TCBBAR"                  #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONSTANT FOR BAPBAR {7}
SYM 12438 "HLD_IMRC_TM"             #[UW=flo(X*1)]       #MSec 0-65535  #Time to disallow the imrc to change position afther the end of a shift is detected  {7}
SYM 1249A "BPMAX"                   #[UW=flo(X*1)]       #INHG 14-31.875#MAXIMUM ALLOWABLE IBAP VALUE {7}
SYM 1249C "BPMIN"                   #[UW=flo(X*1)]       #INHG 0-31.875 #MINIMUM ALLOWED BP VALUE {7}
SYM 1249E "BPSSW"                   #[UY=flo(X*1)]       #ENUM 0-1      #BP SELECTION SWITCH 1 = BP SENSOR PRESENT ; 0 = NO BP SENSOR Base Value: 0 {7}
SYM 124A0 "BPUPDENTM"               #[UW=flo(X*1)]       #Sec 0-600     #Time to enable BP updates once ECT has reached the threshold Base Value: 100 Resolution: 1 {7}
SYM 124A2 "DELTOTHI"                #[UW=flo(X*1)]       #NORMD 0-0.1   #MAX CHANGE IN SUCCESSIVE TOTLDST TO CALCULATE INFERRED BP Base Value: 0.02 Resolution: 0.000031 {7}
SYM 124A4 "LDBPLO"                  #[UW=flo(X*1)]       #X 0-1         #Minimum LOAD to allow IBAP updates Base Value: 0.30 Resolution: 0.000031 {7}
SYM 124A6 "ECTBPLO"                 #[SY=flo(X*1)]       #DegF -40-240  #Minimum ECT to allow IBAP updates Base Value: 140 Resolution: 2 {7}
SYM 124A7 "BP_CAL_DES"              #[UY=flo(X*1)]       #X 0-1         #Switch to override calculated BP, 1 -> use failure mode value Base Value: 0 Resolution: 1 {7}
SYM 124A8 "NBPLO"                   #[UW=flo(X*1)]       #RPM 0-16383   #MINIMUM RPM TO CALCULATE INFERRED BP Base Value: 1500 Resolution: 0.25 {7}
SYM 124AA "NBPHI"                   #[UW=flo(X*1)]       #RPM 0-16383   #MAXIMUM RPM TO CALCULATE INFERRED BP Base Value: 3500 Resolution: 0.25 {7}
SYM 124AC "TPBPHI"                  #[UW=flo(X*1)]       #Vdc 0-1023    #MAXIMUM TP_REL TO CALCULATE INFERRED BP (COUNTS) Base Value: 1023 Resolution: 1 {7}
SYM 124AE "TPBPLO"                  #[UW=flo(X*1)]       #Vdc 0-1023    #MINIMUM TP_REL TO CALCULATE INFERRED BP (COUNTS) Base Value: 40 Resolution: 1 {7}
SYM 124B0 "BP_OK_TM"                #[UW=flo(X*1)]       #Sec 0-1023.984009#Time after KAM reset within which BP is unreliable Base Value: 0 Resolution: 0.015625 {7}
SYM 124CE "MFMHYS"                  #[UY=flo(X*1)]       #EVENTS 0-255  #HYSTERESIS FOR IMFMFLG UNITS ARE BACKGROUND LOOPS Base Value: 3 Resolution: 1 {7}
SYM 1265F "IMRC_FL_TM"              #[UY=flo(X*1)]       #              # {7}
SYM 12660 "S.0x12660"               #[UW=flo(X*1)]       #              # {3}
SYM 12662 "S.0x12662"               #[UW=flo(X*1)]       #              # {3}
SYM 12664 "S.0x12664"               #[UW=flo(X*1)]       #              # {3}
SYM 12666 "S.0x12666"               #[UW=flo(X*1)]       #              # {3}
SYM 12668 "IMRCHP"                                       #              #IMRC Present SW {0}
SYM 12668 "B0_IMRCHP"                  :B0                  #              #IMRC Present SW {2}
#SYM12668 "S.0x12668"               #[UY=flo(X*1)]       #              # {3}
SYM 12669 "IMRCSENSHP"                                   #              #IMRC H/W Present SW {0}
SYM 12669 "B0_IMRCSENSHP"              :B0                  #              #IMRC H/W Present SW {2}
#SYM12669 "S.0x12669"               #[UY=flo(X*1)]       #              # {3}
SYM 1266A "IMRC_TYPE"               #[UY=flo(X*1)]       #FLAG 0-1      #Indicates vacuum or electric IMRC.  0-> Vacuum, 1-> Electric {7}
SYM 1266C "IMRC_TP_HYS"             #[UW=flo(X*1)]       #Vdc 0-1023    #Throttle position hystersis to avoid IMRC valve jitter Base Value: 0 Resolution: 1.0 {7}
SYM 1266E "IMRC_CYC_ECT"            #[SY=flo(X*1)]       #Deg -256-254  #ECT that enables forced IMRC cycling.Base Value: 150.Resolution: 2.0 {7}
SYM 12670 "IMRC_CYC_VS"             #[UW=flo(X*1)]       #MPH 0-127.989998#VS that enables forced IMRC cycling Base Value: 30 Resolution: 0.00195 {7}
SYM 12672 "IMRC_N_HYS"              #[UW=flo(X*1)]       #RPM 0-16383.75#RPM hysteresis for imrc Base Value: 0 Resolution: 0.25{7}
SYM 12674 "S.0x12674"               #[UY=flo(X*1)]       #              # {3}
SYM 12675 "S.0x12675"               #[UY=flo(X*1)]       #              # {3}
SYM 12676 "IMRC_BID_ENA"            #[UY]                               # {7}
SYM 12677 "IMRC_OFF_POS_???"        #[UY=flo(X*1)]       #FLAG 0-1      #IMRC De-energized position; 1->normally open, 0->normally closed.Base Value: 1.0 Resolution: 1.0 {7}
SYM 12678 "S.0x12678"               #[UY=flo(X*1)]       #              # {3}
SYM 1267A "IMRC_AS_TM"              #[UW=flo(X*1)]       #sEC 0-63.990002#Time to wait to allow IMRC to fully open during Anti-Sludging Base Value: 0.Resolution: 0.000977 {7}
SYM 1267C "S.0x1267C"               #[UY=flo(X*1)]       #              # {3}
SYM 1267D "S.0x1267D"               #[UY=flo(X*1)]       #              # {3}
SYM 1267E "TCIMRC_VALVE"            #[UW=flo(X*1)]       #Sec 0-3       #Time constant used to calculate anticipated engine RPM for IMRC logic Base Value: 0.5 Resolution: 0.001 {7}
SYM 12680 "IMRC_TA_MAX"             #[UW=flo(X*1)]       #RPM 0-16383.75#Maximum engine speed allowed during traction assist to disable IMRC'S Resolution: 0.25 {7}
SYM 12682 "IMRC_TA_HYS"             #[UW=flo(X*1)]       #RPM 0-16383.75#Hysteresis used with IMRC_TA_MAX to re-enable IMRC's during traction assist Base Value: 100. Resolution: 0.25 {7}
SYM 12684 "IMRC_N_MAX"              #[UW=flo(X*1)]       #RPM 0-16383.75#Maximum engine speed allowed during cold ambients to close IMRC's Resolution: 0.25 {7}
SYM 12686 "IMRC_N_MXH"              #[UW=flo(X*1)]       #RPM 0-16383.75#Hysteresis term for IMRC_N_MAX Base Value: 0.0 Resolution: 0.25 {7}
SYM 12688 "IMRC_AMB_MAX"            #[UW=flo(X*1)]       #Deg -1024-1023.937012#Maximum ambient temperature allowed to force IMRC's closed Base Value: -1024 Resolution: 0.031250 {7}
SYM 1268A "IMRC_AMB_HYS"            #[UW=flo(X*1)]       #Deg 0-1023.937012#Hysteresis term for IMRC_AMB_MAX Base Value: 20.0 Resolution: 0.03125 {7}
SYM 1268C "P1520_ERRLVL"            #[UY=flo(X*1)]       #FRAC 0-1      #Error level threshold above which fault is deemed to be persistant.Base Value: 0.90 Resolution: 0.010 {7}
SYM 1268E "P1520HYS"                #[UY=flo(X*1)]       #FRAC 0-1      #Fault filter hystersis Base Value: 0.90 Resolution: 0.010 {7}
SYM 12690 "MFF_N"                   #[UW]                               # {7}
SYM 12692 "S.0x12692"               #[UY=flo(X*1)]       #              # {3}
SYM 12693 "S.0x12693"               #[UY=flo(X*1)]       #              # {3}
SYM 12694 "S.0x12694"               #[UY=flo(X*1)]       #              # {3}
SYM 12695 "S.0x12695"               #[UY=flo(X*1)]       #              # {3}
SYM 12696 "S.0x12696"               #[UW=flo(X*1)]       #              # {3}
SYM 12698 "S.0x12698"               #[UW=flo(X*1)]       #              # {3}
SYM 1269A "IMRC_VAC_LOD"            #[UW=flo(X*1)]       #X 0-1         #Value of percent infeered load to indicate lack of vacuum conditions Base Value: 1.0 Resolution: 0.0001 {7}
SYM 1269C "IMRC_VAC_TIM"            #[UY=flo(X*1)]       #Sec 0-256     #Timer used to disable IMRC OBDII diagnostics due to lack of vacuum Base Value: 0.Resolution: 1.0 {7}
SYM 1269D "IMRC_TWOPOSN"            #[UY=flo(X*1)]       #FLAG 0-1      #IMRC hardware present switch for 2 position inputs; 0-> read 1 input, 1->read 2 inputs Base Value: 0.0 Resolution: 1 {7}
SYM 12712 "LEVEL21S"                #[UW]                               # {7}
SYM 12714 "XTALHPS_27"              #[UY=flo(X/2*3+15)]  #MHz           #PCM Clock Speed {0}
SYM 12715 "SPI_BIT_TRANSFER_RATE24" #[UY=flo(X*1)]       #              # {0}
SYM 12716 "SPI_BIT_TRANSFER_RATE24" #[UY=flo(X*1)]       #              # {0}
SYM 12717 "SPI_BIT_TRANSFER_RATE27" #[UY=flo(X*1)]       #              # {0}
SYM 12718 "AIR_DOWN_CAL"            #[UY=flo(X*1)]       #ENUM 0-1      #Switch indicating when to perform the cylinder air charge calculation Base Value: 0 Resolution: 1  {7}
SYM 1271A "SP**_FUEL_BKPT"        #[UW=flo(X/33554432*Z)]#LBM 0-0.001   #BREAKPOINT BETWEEN HIGH AND LOW SLOPE IN POUNDS MASS Base Value: 0.000007 Resolution: 0.000000 {2}
#SYM1271A "S.0x1271A"               #[UW=flo(X*1)]       #              # {3}
SYM 12726 "IDKADD"                  #[SW=flo(X*1)]       #Deg -720-720  #INJECTOR DELAY TIMING ADDER {7}
SYM 12728 "IDKMUL"                  #[UW=flo(X*1)]       #X 0-1         #INJECTOR DELAY TIMING MULTIPLIER {7}
SYM 1272A "S.0x1272A"               #[UY=flo(X*1)]       #              # {3}
SYM 1272B "S.0x1272B"               #[UY=flo(X*1)]       #              # {3}
SYM 1272C "S.0x1272C"               #[UY=flo(X*1)]       #              # {3}
SYM 1272D "S.0x1272D"               #[UY=flo(X*1)]       #              # {3}
SYM 1272E "INJDLY_MIN"              #[UW=flo(X*1)]       #Deg 0-720     #MINIMUM ALLOWABLE INJECTOR DELAY Base Value: 0 Resolution: 0.0156 {7}
SYM 12730 "S.0x12730"               #[UY=flo(X*1)]       #              # {3}
SYM 12736 "S.0x12736"               #[UY=flo(X*1)]       #              # {3}
SYM 12737 "EDSEL"                   #[UY=flo(X*1)]       #ENUM 0-1      #PIP edge trigger for fuel during crank =1 implies rising edge pip . * * * *Base Value: 1 Resolution: 1 {7}
SYM 12738 "S.0x12738"               #[UY=flo(X*1)]       #              # {3}
SYM 12739 "SOAK_RST_TM"             #[UY=flo(X*1)]       #Sec 0-255     #Minimum time required in run mode to initiate an update of the soak timer at next power up Base Value: 0 Resolution: 1 CDAN2 8-115 {7}
SYM 1273A "HICOMP_MIN"              #[UW=flo(X*1)]       #X 0-15.999760 #Minimal HICOMP value before HICOMP is reset Base Value: 0 Resolution: 0.000244 CDAN2 8-116 {7}
SYM 1273C "HC_ECT_MUL1"             #[UY=flo(X*1)]       #X 0-1         #ECT multiplier used in HICOMP calculation (DELTA_TEMP) Base Value: 0 Resolution: 0.007800 CDAN2 8-115 {7}
SYM 1273D "HC_ACT_MUL1"             #[UY=flo(X*1)]       #X 0-1         #HICOMP ACT MULTIPLIER USED IN DELTA TEMPERATURE COMPUTATION Base Value: 0 Resolution: 0.007800 CDAN2 8-115 {7}
SYM 1273E "HC_ACT_MUL2"             #[UY=flo(X*1)]       #X 0-1         #ACT multiplier used in absolute temperature computation for HICOMP Base Value: 0 Resolution: 0.007800 CDAN2 8-115 {7}
SYM 1273F "HC_ACT_MUL3"             #[UY=flo(X*1)]       #X 0-1         #HICOMP strategy ACTOFF multiplier; used to define a semi- linear combination of ECTOFF and ACTOFF. Base Value: 0 Resolution: 0.007800 {7}
SYM 12740 "INT_V10_SW"              #[UY=flo(X*1)]       #X 0-1         # Cal. switch letting user to choose unique intake cylinder identification scheme. Base Value: 0 Resolution: 1 {7}
SYM 12742 "DYN_MIN_ARC"             #[UW=flo(X/4194304)] #lbs/min       #Min Air Charge Enable Dynamic Fuel {7}
SYM 12744 "S.0x12744"               #[UW=flo(X*1)]       #              # {3}
SYM 12746 "AIR_BRK_IAF"             #[UW=flo(X/16384)]   #lbs/min       #Brake Booster Leakage {7}
SYM 12748 "AIR_BRK_DCY"             #[UW=flo(X/1024)]    #LBM/MIN/SEC   #Brake Booster Leak Decay Rate {7}
SYM 1274A "AIR_BRK_DUR"             #[UW=flo(X/1024)]    #sec           #Brake Booster Compensation Time {7}
SYM 1274C "AIR_BRK_VS"              #[UW=flo(X/512)]     #MPH           #Brake Booster Comp Max Speed {7}
SYM 1274E "AIR_BRK_SW"                                   #              #Brake Booster Compensation SW (BIHP) {7}
#SYM 1274E "AIR_BRK_SW"              :B0                  #              #Brake Booster Compensation SW (BIHP) {7}
SYM 12750 "ARCHLK"                  #[UW=flo(X/2048)]    #lbs/min       #Air Flow Leakage {7}
SYM 12752 "ARCANTCOR"               #[UW=flo(X*1)]       #X             #Correction factor for maximum anticipated air charge (must be less than ARCWOTCOR),  unitless. {7}
SYM 12754 "ARCWOTCOR"               #[UW=flo(X*1)]       #X             #Correction factor for maximum cylinder air charge (must be greater than ARCANTCOR),  unitless. {7}
SYM 12756 "SP**_SARCHG" #[UW=flo(X/23.20333400061876/8*Y*Z)]#Cubic Inches  #Standard air charge for a single cylinder, lbm/intake stroke.CID Engine Size (Updated based on ENGCYL)  (NUMCYL) {2}
#SYM12756 "S.0x12756"               #[UW=flo(X*1)]       #              # {3}
SYM 12758 "AIR_MAN_VOL"             #[UY=flo(X/8)]       #Liters        #Intake manifold volume for use in manifold filling model, liters. {2}
#SYM12758 "S.0x12758"               #[UY=flo(X*1)]       #              # {3}
SYM 12759 "AIR_STRT"                #[UY=flo(X*1)]       #Sec           #Minimum time since engine start to use special idle filter coefficient, sec. {7}
SYM 1275A "MAPPEREGR"               #[UY=flo(X*1)]       #              #Inferred MAP correction factor for ACT sensor location;MAPPEREGR = 1.00 for ACT measured in the intake manifold,MAPPEREGR = 1.25 for ACT measured in the air cleaner. {3}
SYM 1275B "S.0x1275B"               #[UY=flo(X*1)]       #              # {3}
SYM 1275C "S.0x1275C"               #[UY=flo(X*1)]       #              # {3}
SYM 1275E "TPBKFLOWH"               #[UW=flo(X/64)]      #TP_REL        #Backflow TP_REL Hysteresis {7}
SYM 12760 "LOW_TP_SW"                                    #              #Backflow Region SW (BFLS) {7}
#SYM 12760 "LOW_TP_SW"               :B0                  #              #Backflow Region SW (BFLS) {7}
SYM 12786 "S.0x12786"               #[UW=flo(X*1)]       #              # {3}
SYM 12788 "S.0x12788"               #[UW=flo(X*1)]       #              # {3}
SYM 1278C "S.0x1278C"               #[UW=flo(X*1)]       #              # {3}
SYM 1278E "S.0x1278E"               #[UW=flo(X*1)]       #              # {3}
SYM 12790 "S.0x12790"               #[UW=flo(X*1)]       #              # {3}
SYM 12792 "S.0x12792"               #[UW=flo(X*1)]       #              # {3}
SYM 12794 "S.0x12794"               #[UW=flo(X*1)]       #              # {3}
SYM 12796 "S.0x12796"               #[UW=flo(X*1)]       #              # {3}
SYM 12798 "S.0x12798"               #[UW=flo(X*1)]       #              # {3}
SYM 1279A "S.0x1279A"               #[UW=flo(X*1)]       #              # {3}
SYM 1279C "S.0x1279C"               #[SY=flo(X*1)]       #              # {3}
SYM 1279D "S.0x1279D"               #[SY=flo(X*1)]       #              # {3}
SYM 127A6 "S.0x127A6"               #[UW=flo(X*1)]       #              # {3}
SYM 127A8 "S.0x127A8"               #[UW=flo(X*1)]       #              # {3}
SYM 127AA "S.0x127AA"               #[UW=flo(X*1)]       #              # {3}
SYM 127AC "S.0x127AC"               #[UW=flo(X*1)]       #              # {3}
SYM 127AE "S.0x127AE"               #[UW=flo(X*1)]       #              # {3}
SYM 127FC "S.0x127FC"               #[UW=flo(X*1)]       #              # {3}
SYM 127FE "S.0x127FE"               #[UW=flo(X*1)]       #              # {3}
SYM 12800 "S.0x12800"               #[UW=flo(X*1)]       #              # {3}
SYM 12802 "S.0x12802"               #[UW=flo(X*1)]       #              # {3}
SYM 12804 "S.0x12804"               #[UW=flo(X*1)]       #              # {3}
SYM 12806 "S.0x12806"               #[UW=flo(X*1)]       #              # {3}
SYM 12808 "S.0x12808"               #[UY=flo(X*1)]       #              # {3}
SYM 12809 "S.0x12809"               #[SY=flo(X*1)]       #              # {3}
SYM 1280A "S.0x1280A"               #[SY=flo(X*1)]       #              # {3}
SYM 1280B "S.0x1280B"               #[UY=flo(X*1)]       #              # {3}
SYM 1280C "S.0x1280C"               #[SY=flo(X*1)]       #              # {3}
SYM 1280D "S.0x1280D"               #[SY=flo(X*1)]       #              # {3}
SYM 1280E "S.0x1280E"               #[UY=flo(X*1)]       #              # {3}
SYM 1280F "S.0x1280F"               #[UY=flo(X*1)]       #              # {3}
SYM 12819 "EGR_DYNO_DIS"            #[UY=flo(X*1)]       #-- 0-1        #EGR unconditional disble switch {7}
SYM 1281A "EGR_DYNO_ENA"            #[UY=flo(X*1)]       #-- 0-1        #EGR unconditional enable switch {7}
SYM 1281B "EGR_WRM_TM"              #[UY=flo(X*1)]       #Secs 0-2040   #Time before EGR is first enabled to allow EPTZER to update {7}
SYM 1281C "S.0x1281C"               #[UW=flo(X*1)]       #              # {3}
SYM 1281E "S.0x11E00"               #[UW=flo(X*1)]       #              # SAME AS RZASA S.0x11E00 {7}
SYM 12820 "EPTZER_UPTOL"            #[UW]                #COUNTS 0-1023 #Tolerence on EPTZER required before it's value is said to be good Base Value: 5 Resolution: 1 {7}
SYM 12822 "EGR_RATE_ER"             #[UY=flo(X*1)]       #-- 0-31.875   #Desired EGR flow rate during on demand test {7}
SYM 12823 "EGR_CLR_RT"              #[UY=flo(X*1)]       #Sec 0-0.996   #Fraction of EGR test duration to clear fault Base Value: 0.1 Resolution: 0.0039 {7}
SYM 12824 "EGR_FLT_RT"              #[UY=flo(X*1)]       #Sec 0-0.996   #Fraction of EGR test duration to consider a fault active.Base Value: 0.5 Resolution: 0.0039 {7}
SYM 12825 "P0401_FLT_RT"            #[UY=flo(X*1)]       #Sec 0-0.996   #Fraction of P0401 test duration to consider a fault active Base Value: 0.5 Resolution: 0.0039 {7}
SYM 12826 "S.0x12826"               #[UY=flo(X*1)]       #              # {3}
SYM 12827 "EGR_VLV_SHT"             #[UY=flo(X/8)]       #sec 0-31.875  #Time taken for the EGR Valve to shut under worst case conditions, for OBDII EGR Hose tests Base Value: 2 Resolution: 0.125 {7}
SYM 12828 "EPTZER_VALID"            #[UY=flo(X*1)]       #Sec 0-255     #Time for which EPTZER is valid for OBDII Tests since it was updated Base Value: 20 Resolution: 1 {7}
SYM 12829 "S.0x12829"               #[UY=flo(X*1)]       #              # {3}
SYM 1282A "FPM_BG_TM"               #[UW=flo(X*1)]       #secs 0-63.990002  #Maximum background loop time to allow FPDM diagnostics to occur {7}
SYM 1282C "FPM_TIME_OUT"            #[UW=flo(X*1)]       #secs 0-63.990002  #Number of seconds without a change of state in the FPM line to signify a fault for the FPDM {7}
SYM 1282E "S.0x1282E"               #[UW=flo(X*1)]       #              # {3}
SYM 12830 "S.0x12830"               #[UW=flo(X*1)]       #              # {3}
SYM 12832 "P1235_MIN"               #[UW=flo(X*1)]       #RATIO 0-63.990002  #Minimum FPM_RATIO to detect a 25% duty cycle on the FPM line from the FPDM {7}
SYM 12834 "P1237_MIN"               #[UW=flo(X*1)]       #RATIO 0-63.990002  #Minimum FPM_RATIO to detect a 75% duty cycle on the FPM line from the FPDM {7}
SYM 12836 "P1233_SW"                #[UY=flo(X*1)]       #SW 0-1        #Switch to select between MIL or NON_MIL code p1233 or p1234 {7}
SYM 12837 "P1235_SW"                #[UY=flo(X*1)]       #SW 0-1        #Switch to select between MIL or NON_MIL code p1235 or p1236 {7}
SYM 12838 "P1237_SW"                #[UY=flo(X*1)]       #SW 0-1        #Switch to select between MIL or NON_MIL code p1237 or p1238 {7}
SYM 12839 "P1235_CNT_MX"            #[UY=flo(X*1)]       #COUNT 0-255   #Maximum number of detected 25% duty cycle pulses from the FPDM to signify a fault {7}
SYM 1283A "P1237_CNT_MX"            #[UY=flo(X*1)]       #COUNT 0-255   #Maximum number of detected 75% duty cycle pulses from the FPDM to signify a fault {7}
SYM 1283B "FP_EO_HL_SW"             #[UY=flo(X*1)]       #SW 0-1        #Switch to enable FP hi_speed primary circuit during KOEO  {7}
SYM 1283C "FP_ER_HL_SW"             #[UY=flo(X*1)]       #SW 0-1        #Switch to enable FP hi-speed primary circuit during KOER {7}
SYM 1283D "V_FP_ER_TM4"             #[UY=flo(X/8)]       #sec           #Time delay before setting fuel pump speed primary circuit malfunction, P1232 {7}
SYM 1283E "TOTCNT_HI_ER"            #[UW=flo(X*1)]       #COUNTS 0-1024 #MAX ACCEPTABLE COUNT VALUE FOR TOT_CNTS Base Value: 921.Resolution: 0.015625 {7}
SYM 12840 "TOTCNT_LO_ER"            #[UW=flo(X*1)]       #COUNTS 0-1024 #MIN ACCEPTABLE COUNT VALUE FOR TOT_CNTS Base Value: 0.0 Resolution: 0.015625 {7}
SYM 12842 "TOT_ERRW_LVL"            #[UW=flo(X*1)]       #EVENTS 0-65535#TOT circuit error fault threshold, (Word Size) Base Value: 200 Resolution: 1.0 {7}
SYM 12844 "TOT_ERRW_UP"             #[UW=flo(X*1)]       #EVENTS 0-65535#TOT circuit error upcount, (Word Size) Base Value: 10.0 Resolution: 1. {7}
SYM 12846 "TOT_EOW_LVL"             #[UW=flo(X*1)]       #EVENTS 0-65535#Engine-OFF  TOT circuit error fault threshold, (Word Size) Base Value: 200 Resolution: 1.0 {7}
SYM 12848 "TOT_LO_OD"               #[UW=flo(X*1)]       #COUNTS 0-1024 #Minimum acceptable TOT A/D counts during On-Demand self test Base Value: 100 Resolution: 0.015625 {7}
SYM 1284A "TOT_HI_OD"               #[UW=flo(X*1)]       #COUNTS 0-1024 #Maximum acceptable TOT A/D counts during On-Demand self test Base Value: 800 Resolution: 0.015625 {7}
SYM 1284C "VSNOVMIN"                #[UW=flo(X*1)]       #MPH 0-127.998001#Minimum vehicle speed at which N/V will be calculated {7}
SYM 1284E "VSNOVMAX"                #[UW=flo(X*1)]       #MPH 0-127.998001#Maximum vehcile speed at which N/V will be calculated {7}
SYM 12850 "OSNOVMAX"                #[UW=flo(X*1)]       #RPM 0-16383.75#Maximum Output Shaft Speed to calculate N/V {7}
SYM 12852 "OSNOVMIN"                #[UW=flo(X*1)]       #RPM 0-16383.75#Minimum Output Shaft Speed to calculate N/V {7}
SYM 12854 "SW4X4_ER_LVL"            #[UY=flo(X*1)]       #Cnts 0-255    #Number of N/V samples pointing to a 4x4L switch error required to store a fault code SAME AS RZASA "S.0x183C7" L8BCD2 SW4X4_ER_CNT Limit {7}
SYM 12886 "S.0x12886"               #[UW=flo(X*1)]       #              # {3}
SYM 12888 "S.0x12888"               #[UY=flo(X*1)]       #              # {3}
SYM 12889 "S.0x12889"               #[UY=flo(X*1)]       #              # {3}
SYM 1288A "S.0x1288A"               #[UY=flo(X*1)]       #              # {3}
SYM 1288B "S.0x1288B"               #[UY=flo(X*1)]       #              # {3}
SYM 1288C "S.0x1288C"               #[UY=flo(X*1)]       #              # {3}
SYM 1288D "S.0x1288D"               #[UY=flo(X*1)]       #              # {3}
SYM 1288E "S.0x1288E"               #[UY=flo(X*1)]       #              # {3}
SYM 1288F "S.0x1288F"               #[UY=flo(X*1)]       #              # {3}
SYM 12890 "TIP_IN_NAV"              #[UW=flo(X/4194304)] #lb/min        #Aircharge Increase Trigger Fast Event Constant (UP_ACCEL,DN_ACCEL) {7}
SYM 12892 "TIP_OUT_NAV"             #[UW=flo(X/4194304)] #lb/min        #Aircharge Decrease Trigger Fast Event Constant {7}
SYM 12894 "PRG_LAM_SW"                                   #              #Lambse Reset Purge {0}
SYM 12894 "B0_PRG_LAM_SW"              :B0                  #              #Lambse Reset Purge {2}
#SYM12894 "S.0x12894"               #[UY=flo(X*1)]       #              # {3}
SYM 12895 "FFS_SW"                                       #              #Flex Fuel Sensor SW {7}
#SYM 12895 "FFS_SW"                  :B0                  #              #Flex Fuel Sensor SW {7}
SYM 12898 "S.0x12898"               #[UY=flo(X*1)]       #              # {3}
SYM 12899 "AMB_ACT_TOL"             #[UY=flo(X*1)]       #Deg 0-40      #Tolerance value for determining whether INFAMB_KAM can be be ratched down Base Value: 10 Resolution: 2 {7}
SYM 1289A "S.0x1289A"               #[UY=flo(X*1)]       #              # {3}
SYM 1289B "S.0x1289B"               #[SY=flo(X*1)]       #              # {3}
SYM 1289C "DELARCH_EGR"             #[UW=flo(X/65536)]   #Delta%        #EGR Monitor AM Delta {7}
SYM 1289D "S.0x1289D"               #[UY=flo(X*1)]       #              # {3}
SYM 1289E "TC_INFAMB"               #[UW=flo(X*1)]       #Sec 0-1023    #Inferred ambient air temperature filter constant Base Value: 1023 Resolution: 0.015625 {7}
SYM 128A0 "EXT_EXO_CL"              #[SW=flo(X*1)]       #Deg -4095-4096#Catalyst midbed temperature below which exothermic reations do not occur Base Value: 482 Resolution: 0.125 {7}
SYM 128A2 "EXT_EXO_SH"              #[SW=flo(X*1)]       #Deg -4095-4096#Catalyst midbed temperature above whic exothermic reaticons occur, degrees Base Value: 572 Resolution: 0.125 {7}
SYM 128AC "EXT_FEH_INT"             #[SW=flo(X*1)]       #DegF -4096-4095#Intercept of linear equation: temp rise of FEGO tip due to heater on vs. tip temp with heater off Base Value: 478 Resolution: 0.125 {3}
SYM 128AE "S.0x128AE"               #[SW=flo(X*1)]       #              # {3}
SYM 128B0 "EXT_FEH_SLP"             #[UY=flo(X*1)]       #SLOPE 0-1.99#Slope of linear equation: temp rise of FEGO tip due to heater on vs. temp of the tip with heater off Base Value: 0.233 Resolution: 0.007812 {7}
SYM 128B1 "S.0x128B1"               #[UY=flo(X*1)]       #              # {3}
SYM 128B2 "TC_RUN_FEH"              #[UW=flo(X*1)]       #Sec 0-1023    #Time constant during engine running for the rise in front hego tip temperature due to the heater. Base Value: 10 Resolution: 0.015625 {7}
SYM 128B4 "S.0x128B4"               #[UW=flo(X*1)]       #              # {3}
SYM 128B6 "S.0x128B6"               #[UW=flo(X*1)]       #              # {3}
SYM 128B8 "AMP_MULT"                #[UW=flo(X/1024)]    #A/F Ratio     #Lambse Amplitude Multiplier {2}
#SYM128B8 "S.0x128B8"               #[UW=flo(X*1)]       #              # {3}
SYM 128BA "DSRD_FREQ_??"               #[UW=flo(X*1)]       #HERTZ 1-4     #Resolution: 0.008000 Desired frequency of LAMBSE fuel modulation, Hertz(MAY BE FUNCTION_INPUT_??){7}
SYM 128BC "S.0x128BC"               #[UW=flo(X*1)]       #              # {3}
SYM 128BE "US_SWTPOINT"             #[UW=flo(X/1024)]    #Volts 0-1     #Upstream EGO switchpoint Base Value: 0.45 Resolution: 0.001 {2}
#SYM128BE "S.0x128BE"               #[UW=flo(X*1)]       #              # {3}
SYM 128C0 "S.0x128C0"               #[SW=flo(X*1)]       #              # {3}
SYM 128C2 "S.0x128C2"               #[SW=flo(X*1)]       #              # {3}
SYM 128C4 "S.0x128C4"               #[UW=flo(X*1)]       #              # {3}
SYM 128C6 "DS_SWTPOINT"             #[UW=flo(X/1024)]    #Volts 0-1     #Downstream EGO switchpoint Base Value: 0.45 Resolution: 0.001 {7}
SYM 128C8 "S.0x128C8"               #[UY=flo(X*1)]       #              # {3}
SYM 128C9 "S.0x128C9"               #[UY=flo(X*1)]       #              # {3}
SYM 128CA "HEGO_CONFIG"             #[UY=flo(X*1)]       #X 0-3         #HEGO CONFIGURATION REGISTER (0 = NO_AFT_HEGO, 1 = SINGLE_BANK, 2 = DUAL_BANK, 3 = Y_PIPE) Base Value: 1 {2}
#SYM128CA "S.0x128CA"               #[UY=flo(X*1)]       #              # {3}
SYM 128CB "S.0x128CB"               #[UY=flo(X*1)]       #              # {3}
SYM 128CC "S.0x128CC"               #[UW=flo(X*1)]       #              # {3}
SYM 128CE "S.0x128CE"               #[UW=flo(X*1)]       #              # {3}
SYM 128D0 "S.0x128D0"               #[UW=flo(X*1)]       #              # {3}
SYM 128D2 "S.0x128D2"               #[UW=flo(X*1)]       #              # {3}
SYM 128D4 "S.0x128D4"               #[SW=flo(X*1)]       #              # {3}
SYM 128D6 "S.0x128D6"               #[SW=flo(X*1)]       #              # {3}
SYM 128D8 "S.0x128D8"               #[UY=flo(X*1)]       #              # {3}
SYM 128D9 "S.0x128D9"               #[UY=flo(X*1)]       #              # {3}
SYM 128DA "S.0x128DA"               #[UY=flo(X*1)]       #              # {3}
SYM 128DB "S.0x128DB"               #[UY=flo(X*1)]       #              # {3}
SYM 128DC "S.0x128DC"               #[UY=flo(X*1)]       #              # {3}
SYM 128DD "S.0x128DD"               #[UY=flo(X*1)]       #              # {3}
SYM 128DE "S.0x128DE"               #[UW=flo(X*1)]       #              # {3}
SYM 128E0 "S.0x128E0"               #[UW=flo(X*1)]       #              # {3}
SYM 128E2 "S.0x128E2"               #[UW=flo(X*1)]       #              # {3}
SYM 128E4 "S.0x128E4"               #[UW=flo(X*1)]       #              # {3}
SYM 128E6 "S.0x128E6"               #[UW=flo(X*1)]       #              # {3}
SYM 128E8 "S.0x128E8"               #[UW=flo(X*1)]       #              # {3}
SYM 128EA "LEAN_AMP_M"              #[UW=flo(X/1024)]    #Volts         #O2 Monitor Failure Amplitude Threshold {7}
SYM 128EC "S.0x128EC"               #[UW=flo(X*1)]       #              # {3}
SYM 128EE "S.0x128EE"               #[UW=flo(X*1)]       #              # {3}
SYM 128F0 "S.0x128F0"               #[UW=flo(X*1)]       #              # {3}
SYM 128F2 "S.0x128F2"               #[UW=flo(X*1)]       #              # {3}
SYM 128F4 "S.0x128F4"               #[UW=flo(X*1)]       #              # {3}
SYM 128F6 "S.0x128F6"               #[UW=flo(X*1)]       #              # {3}
SYM 128F8 "S.0x128F8"               #[UW=flo(X*1)]       #              # {3}
SYM 128FA "S.0x128FA"               #[SY=flo(X*1)]       #              # {3}
SYM 128FB "S.0x128FB"               #[SY=flo(X*1)]       #              # {3}
SYM 128FC "S.0x128FC"               #[SY=flo(X*1)]       #              # {3}
SYM 128FD "S.0x128FD"               #[UY=flo(X*1)]       #              # {3}
SYM 128FE "S.0x128FE"               #[UY=flo(X*1)]       #              # {3}
SYM 128FF "S.0x128FF"               #[UY=flo(X*1)]       #              # {3}
SYM 12900 "S.0x12900"               #[UY=flo(X*1)]       #              # {3}
SYM 12901 "S.0x12901"               #[UY=flo(X*1)]       #              # {3}
SYM 12902 "S.0x12902"               #[UW=flo(X*1)]       #              # {3}
SYM 12904 "S.0x12904"               #[UW=flo(X*1)]       #              # {3}
SYM 12906 "S.0x12906"               #[UW=flo(X*1)]       #              # {3}
SYM 12908 "S.0x12908"               #[UW=flo(X*1)]       #              # {3}
SYM 1290A "S.0x1290A"               #[UW=flo(X*1)]       #              # {3}
SYM 1290C "S.0x13390"               #[SW=flo(X*1)]       #              # SAME AS RZASA "S.0x13390" {3}
SYM 1290E "S.0x1290E"               #[UY=flo(X*1)]       #              # {3}
SYM 12910 "S.0x12910"               #[SW=flo(X*1)]       #              # {3}
SYM 12912 "HEGO_D_12912"                  #[SW=flo(X*1)]       #              # {7}
SYM 12914 "S.0x12914"               #[SW=flo(X*1)]       #              # {3}
SYM 12916 "S.0x12916"               #[SW=flo(X*1)]       #              # {3}
SYM 12918 "S.0x12918"               #[UY=flo(X*1)]       #              # {3}
SYM 12919 "S.0x12919"               #[UY=flo(X*1)]       #              # {3}
SYM 1291A "S.0x1291A"               #[UY=flo(X*1)]       #              # {3}
SYM 1291B "S.0x1291B"               #[UY=flo(X*1)]       #              # {3}
SYM 1291C "S.0x1291C"               #[UW=flo(X*1)]       #              # {3}
SYM 1291E "S.0x1291E"               #[SW=flo(X*1)]       #              # {3}
SYM 12920 "S.0x12920"               #[UW=flo(X*1)]       #              # {3}
SYM 12922 "S.0x12922"               #[UW=flo(X*1)]       #              # {3}
SYM 12924 "REF_6"                   #[UW]                               # {7}
SYM 12926 "AIR_CHG_COMP"            #[SW]                               # {7}
SYM 12928 "PSPT_ENG"                #[UW]                               # {7}
SYM 1292A "S.0x1292A"               #[SW=flo(X*1)]       #              # {3}
SYM 1292C "S.0x1292C"               #[SW=flo(X*1)]       #              # {3}
SYM 1292E "S.0x1292E"               #[SW=flo(X*1)]       #              # {3}
SYM 12930 "S.0x12930"               #[SW=flo(X*1)]       #              # {3}
SYM 12932 "S.0x12932"               #[UW=flo(X*1)]       #              # {3}
SYM 12934 "HEGO_D_12934"                  #[UW=flo(X*1)]       #              # {7}
SYM 12936 "S.0x12936"               #[SW=flo(X*1)]       #              # {3}
SYM 12938 "S.0x12938"               #[UW=flo(X*1)]       #              # {3}
SYM 1293A "TDMULT"                  #[UY=flo(X*1)]       #X 0-1.99      #TRANSPORT TIME DELAY MULTIPLIER FOR BANK 2.  tdrevs2 = FN1351 * TDMULT Base Value: 1 Resolution: 0.007812 {7}
SYM 1293C "ADAPTM"                  #[UW=flo(X*1)]       #sec           #Adapt Delay (2 of 2) {2}
#SYM1293C "S.0x1293C"               #[UW=flo(X*1)]       #              # {3}
SYM 1293E "ADEFTR"                  #[SW=flo(X*1)]       #LBM/S -0.499-0.499#TRANSIENT FUEL THRESHOLD TO UPDATE ADAPTIVE FUEL Base Value: 0.499 Resolution: 0.000015 {7}
SYM 12940 "ADPLOD"                  #[UW=flo(X*1)]       #X 0-1.99      #MINIMUM ALLOWABLE LOAD TO ENABLE ADAPTIVE LEARNING Base Value: 0.13 Resolution: 0.000030 {7}
SYM 12942 "ADPTP"                   #[UW=flo(X*1)]       #Cnts 0-1023.900024#MAXIMUM ALLOWABLE TP_REL TO ENABLE ADAPTIVE LEARNING Base Value: 500 Resolution: 0.0156 {7}
SYM 12944 "AFECT1"                  #[SY=flo(X*1)]       #DegF -40-254  #MIN ECT FOR STARTING THE ADAPTIVE FUEL TIMER Base Value: 160 Resolution: 2 {7}
SYM 12945 "AFECT2"                  #[SY=flo(X*1)]       #DegF -40-254  #OVERTEMP ECT TO ZERO THE ADAPTIVE FUEL TIMER Base Value: 235 Resolution: 2 {7}
SYM 12946 "AFACT2"                  #[UY=flo(X*1)]       #DegF 0-254    #MAX. ACT TO ENABLE ADAPTIVE LEARNING Base Value: 150 Resolution: 2 {7}
SYM 12947 "AFACT1"                  #[SY=flo(X*1)]       #DegF -40-254  #MIN. ACT TO ENABLE ADAPTIVE LEARNING Base Value: 50 Resolution: 2 {3}
SYM 12948 "ADAPT_SEL"               #[UY=flo(X*1)]       #X 0-1         #AM VERSUS LOAD SELECT SWITCH; 0 -> USE LOAD IN FN1325A AND LTMTB1/2 TABLE.  {7}
SYM 12949 "FAEGCT"                  #[UY=flo(X*1)]       #EVENTS 0-255  #ADAPTIVE EGO SENSOR SWITCH COUNT (ALLOW 'FAST' LEARNING RATE) Resolution: 1.0 {7}
SYM 1294A "ADEGCT"                  #[UW=flo(X*1)]       #EVENTS 0-255  #HEGO sensor switch count to allow normal/slow learning in Adaptive Fuel Base Value: 2.00 Resolution: 1.0 {7}
SYM 1294C "DELCOL"                  #[UW=flo(X*1)]       #ENUM 0-6      #SPEED CONSTRAINT VALUE - NORMALIZED RPM Base Value: 0.250 Resolution: 0.003900 {7}
SYM 1294E "DELROW"                  #[UW=flo(X*1)]       #NORMD 0-7     #Normalized air mass (AM) which provides the ability to lock out table updates under transient cond's Base Value: 0.250 Resolution: 0.0039{7}
SYM 12950 "S.0x12950"               #[UY=flo(X*1)]       #              # {3}
SYM 12951 "HCAMSW"                  #[UY=flo(X*1)]       #ENUM 0-1      #ADAPTIVE FUEL IDLE CELLS ON HICAM SWITCH 0 = USE IDLE CELLS ON HICAM 1 = DO NOT USE IDLE CELLS ON HI {7}
SYM 12952 "IDLE_CELL_SW"            #[UY=flo(X*1)]       #ENUM 0-1      #CALIBATION SWITCH TO ENABLE USE OF THE SPECIAL ADAPTIVE IDLE CELLS 0 = SPECIAL ADAPTIVE IDLE CELLS D {7}
SYM 12953 "KWUCNT"                  #[UY=flo(X*1)]       #EVENTS 0-255  # MAXIMUM NUMBER OF WARM UP CYCLES TO USE 'FAST' ADAPTIVE EGO COUNT (FAEGCT) Resolution: 1.0 {7}
SYM 12954 "MAXADP"                  #[UY=flo(X*1)]       #X 0-0.996     #Maximum allowable correction that can be represented in the Adaptive Fuel tables Base Value: 0.75 Resolution: 0.0039 {7}
SYM 12955 "MINADP"                  #[UY=flo(X*1)]       #X 0-0.996     #Minimum allowable correction that can be represented in the Adaptive Fuel tables {7}
SYM 1295C "S.0x1295C"               #[UW=flo(X*1)]       #              # {3}
SYM 1295E "FKEXIT_MIN"              #[UW=flo(X/65536)]   #sec           #Spark Exit Filter TC {2}
#SYM1295E "S.0x1295E"               #[UW=flo(X*1)]       #              # {3}
SYM 12960 "TARMAX"                  #[UW=flo(X*1)]       #deg/sec       #FBS Spark TAR Max {2}
#SYM12960 "S.0x12960"               #[UW=flo(X*1)]       #              # {3}

#SYM 12D00 "720_Deg"                #[UW]                #720 DEGREES  # {7}

SYM 12FA3 "Tb1327A_INJ_1"           #[  ]                #1ST INJ       # 1ST EDITABLE INJECTOR POSITION IN Tb1327A #1 IN FIRING ORDER(the zero slot is never referenced) CRAI8 9-429 {7} 

SYM 130C0 "S.0x130C0"               #[UY=flo(X*1)]       #              # {3}
SYM 130C1 "S.0x130C1"               #[UY=flo(X*1)]       #              # {3}
SYM 130C2 "S.0x130C2"               #[UW=flo(X*1)]       #              # {3}
SYM 130C4 "S.0x130C4"               #[SY=flo(X*1)]       #              # {3}
SYM 130C5 "S.0x130C5"               #[UY=flo(X*1)]       #              # {3}
SYM 130C6 "S.0x130C6"               #[UY=flo(X*1)]       #              # {3}
SYM 13108 "TFC_PG_MUL"              #[UY=flo(X*1)]       #X 0-1         #EISF multiplier used to scale TFC compensation for Purge vapor flow (0-1 range). Base Value: 0 Resolution: 0.007812 {7}
SYM 13109 "AISFM"                   #[UY=flo(X*1)]       #X 0-1.992     #MULTIPLIER ON AISF WHEN IN DFSO. DETERMINES FUEL PUDDLE SIZE UPON RE-ENTERING NORMAL FUEL. Base Value: 1 Resolution: 0.007812 {7}
SYM 1310A "MTEFTC"                  #[UY=flo(X/32)]      #xMul          #TFC Constant Multiplier {2}
#SYM1310A "S.0x1310A"               #[UY=flo(X*1)]       #              # {3}
SYM 1310B "MTEISF"                  #[UY=flo(X/32)]      #xMul          #TFC EISF Multiplier (Tip-In Modifier) {2}
#SYM1310B "S.0x1310B"               #[UY=flo(X*1)]       #              # {3}
SYM 1310C "TFCISW"                  #[UY=flo(X*1)]       #              # TRANSIENT FUEL COMPENSATION INITIALIZATION SWITCH {7}
SYM 1310D "TFCTM"                   #[UY=flo(X*1)]       #              # TIME DELAY AFTER START BEFORE ENABLING TRANSIENT FUEL COMPENSATION {7}
SYM 1310E "TFC_IDLE_OFF"            #[UY=flo(X*1)]       #              # Disable use of transient fuel at idle 1 -> no TFC at IDLE, 0 -> TFC at IDLE {7}
SYM 1310E "B0_TFC_IDLE_OFF"            :B0                  #              # Inhibit Idle Transient Fuel Correction (surge) {7}
SYM 13110 "S.0x13110"               #[UW=flo(X*1)]       #              # {3}
SYM 13112 "TFSMN"                   #[UW=flo(X*1)]       #              # MAX RPM ABOVE IDLE RPM TO DISABLE TRANSIENT FUEL {7}
SYM 1339C "AIR_DEC_MUL"             #[UW=flo(X/64)]      #              #Decel Filter Manifold Filling {7}
SYM 1339E "ANTICIPATION"                                 #              #Aircharge Anticipation SW {7}
#SYM 1339E "ANTICIPATION"            :B0                  #              #Aircharge Anticipation SW {7}
SYM 133A0 "TFC_MIN"                 #[UW=flo(X/33554432)]#lbs           #TFC Min Compensation Clip {2}
#SYM133A0 "S.0x133A0"               #[UW=flo(X*1)]       #              # {3}
SYM 134B4 "IDLRPM"                  #[UW=flo(X*1)]       #RPM 0-7000    #MAX RPM FOR CLOSED THROTTLE MODE IDLE Base Value: 800 Resolution: 0.25 {7}
SYM 134B6 "IDRPMH"                  #[UW=flo(X*1)]       #RPM 0-1000    #HYSTERESIS FOR IDLRPM Base Value: 100 Resolution: 0.25 {7}
SYM 134B8 "S.0x1363B"        #[UW=flo(X/582.53333333333)]#/30           # {2} SAME AS RZASA "S.0x1363B"
#SYM134B8 "S.0x134B8"               #[UW=flo(X*1)]       #              # {3}
SYM 134BA "SP**_ALOSL"     #[UW=flo(X/582.53333333333*Z)]#LBS/HR        #LBS/HR - Injector Low Slope {2} SAME AS RZASA S.013BF7 {7}
#SYM134BA "S.0x134BA"               #[UW=flo(X*1)]       #              # {3}
SYM 134BC "MINPW"                   #[UW=flo(X/262.144)] #PW_msec       #Injector Min PW Clip {2}
#SYM134BC "S.0x134BC"               #[UW=flo(X*1)]       #              # {3}
SYM 134EE "NOMINAL_AFR"             #[UW=flo(X/1024)]    #AFR           #(Stoich_AFR) {2} SAME AS RZASA "S.0x13A8F"
#SYM134EE "S.0x134EE"               #[UW=flo(X*1)]       #              # {3}
SYM 134F0 "CRK_PIP_CAL"             #[UY=flo(X*1)]       #EVENTS 1-8    #Number of PIP periods per injector firing for higher ECTs Base Value: 1 Resolution: 0.50 {7}
SYM 134F1 "CRK_PIP_ECT"             #[SY]                #DegF -256-254 #ECT break point which selects between the default CRK_PIP_INJ and CRK_PIP_CAL.Base Value: 40 Resolution: 2.0 {7}
SYM 134FE "OPCLT3"                  #[UY=flo(X*1)]       #secs          #CL Delay Hot {2}
SYM 134FF "OPCLT2"                  #[UY=flo(X*1)]       #secs          #CL Delay Warm {2}
SYM 13501 "OPCLT1"                  #[UY=flo(X*1)]       #secs          #CL Delay Cold {2}
SYM 13503 "ECTSTABL"                #[SY=flo(X*2)]       #*F            #Stabilized OL Fuel Min ECT (Disable FN1360) {2}
#SYM13503 "S.0x13503"               #[SY=flo(X*1)]       #              # {3}
SYM 13504 "ECTSTABL_CL"             #[SY=flo(X*1)]       #Deg -40-254   #ECTSTABL - hysteresis Base Value: 160 Resolution: 2.0 {7}
SYM 13505 "ECTSTABLTIM"             #[UY=flo(X*1)]       #Secs 0-255    #MINIMUM TIME ABOVE ECTSTABL TO USE FN1360 (SECONDS) Base Value: 30 Resolution: 1.0 {7}
SYM 13506 "HEGO_WARM"               #[SW=flo(X/8)]       #deg           #Front Hego Warm Temp {2}
#SYM13506 "S.0x13506"               #[SW=flo(X*1)]       #              # {3}
SYM 13508 "LDEH"                    #[UY=flo(X*1)]       #Deg 0-254     #MAX ECT TO ENABLE LUGGING OPEN LOOP Base Value: 220 Resolution: 2.0 {7}
SYM 13509 "LDEL"                    #[UY=flo(X*1)]       #Deg 0-254     #MIN ECT TO ENABLE LUGGING OPEN LOOP Base Value: 120 Resolution: 2.0 {7}
SYM 1350A "LDLTM"                   #[UY=flo(X*1)]       #Sec 0-31      #MINIMUM TIME IN LUGGING MODE BEFORE ENTERING LUGGING OPEN LOOP Base Value: 5.0 Resolution: 0.125 {7}
SYM 1350C "LDMH"                    #[UW=flo(X*1)]       #              #MINIMUM PERLOAD TO ENABLE LUGGING OL Base Value: 0.93 Resolution: 0.010 {7}
SYM 1350E "LDMH_SH"                 #[UW=flo(X*1)]       #X 0-1.99      #LDMH PLUS HYSTERSIS UNITLESS Base Value: 0.96 Resolution: 0.0078 {7}
SYM 13510 "DFS_PRV_SW"              #[UW=flo(X*1)]       #X 0-1         #Switch to disable the dfso hysteresis term DFS_PRV_FLG Base Value: 0 Resolution: 1 {7}
SYM 13512 "SHFRPM"                  #[UW=flo(X/4)]       #RPM           #DFSO Shift RPM {2}
#SYM13512 "S.0x13512"               #[SW=flo(X*1)]       #              # {3}
SYM 13514 "SHFRPM_CL"               #[SW=flo(X*1)]       #RPM 0-16383   #SHFRPM MINUS HYSTERESIS UNITS ARE RPM Base Value: 1800 Resolution: 1 {7}
SYM 13516 "DFSVS_RATE"              #[SW=flo(X*1)]       #MPH/S -20-20  #Minimum VS_RATE, above which MTX shift criteria will be enabled, MPH/SEC.Base Value: 0 Resolution: 0.00195 {7}
SYM 13518 "DSTM4"                   #[UW=flo(X/1024)]    #sec           #DFSO Max Time Man Trans {2}
#SYM13518 "S.0x13518"               #[UW=flo(X*1)]       #              # {3}
SYM 1351A "DFHLOD_PC"               #[UW=flo(X/32768)]   #Load          #DFSO PC Low Gear Load Min {2}
SYM 1352E "DFHLOD"                  #[UW=flo(X/32768)]   #Load          #DFSO Low Gear Load Min {2}
SYM 13530 "DFSRPM"                  #[UW=flo(X/4)]       #RPM           #DFSO Min RPM Above DSDRPM {2}
SYM 13532 "DFLOD"                   #[UW=flo(X/32768)]   #Load          #DFSO Load Max {2}
SYM 13542 "DFSO_PC_SW"                                   #              #Profile Correction Alternate SW {0}
SYM 13542 "B0_DFSO_PC_SW"              :B0                  #              #Profile Correction Alternate SW {2}
#SYM13542 "S.0x13542"               #[UY=flo(X*1)]       #              # {3}
SYM 13543 "DFS_PRV_SW"                                   #              #DFSO Disable Hysteresis {0}
SYM 13543 "B0_DFS_PRV_SW"              :B0                  #              #DFSO Disable Hysteresis {2}
#SYM13543 "S.0x13543"               #[UY=flo(X*1)]       #              # {3}
SYM 13544 "DFS_SCP_SW"              #[UY=flo(X*1)]       #X 0-1         #Switch to enable DFSO during Speed Control; 0 -> disable DFSO during Speed Control, 1 -> ignore speed control  input from scp Base Value: 1 Resolution: 1 {7}
SYM 13545 "DSTM5"                   #[UY=flo(X*1)]       #Sec 0-31.875  #Minimum closed throttle time for MTX shift DFSO, seconds Base Value: 1 Resolution: 0.125 {7}
SYM 13546 "DCECTM"                  #[UY=flo(X/8)]       #sec           #Decel Enrichment CAT CT Delay {7}
SYM 13547 "DCEVS"                   #[UY=flo(X/2)]       #MPH           #CAT Decel Enrichment MPH Min {7}
SYM 13548 "DCEVSH"                  #[UY=flo(X*1)]       #              # {7}
SYM 13549 "S.0x13549"               #[UY=flo(X*1)]       #              # {3}
SYM 1354A "S.0x1354A"               #[UY=flo(X*1)]       #              # {3}
SYM 1354B "S.0x1354B"               #[UY=flo(X*1)]       #              # {3}
SYM 1354C "S.0x1354C"               #[UY=flo(X*1)]       #              # {3}
SYM 1354D "VS_OL_CL"                #[UY=flo(X/2)]       #MPH           #Force OL MPH Hyst {7}
SYM 1354E "VS_OL_SH"                #[UY=flo(X/2)]       #MPH           #Force OL MPH {7}
SYM 1354F "CAT_TEMP_SW"                                  #              #Allow Cat Temp Lambse Control {0}
SYM 1354F "B0_CAT_TEMP_SW"             :B0                  #              #Allow Cat Temp Lambse Control {2}
#SYM1354F "S.0x1354F"               #[UY=flo(X*1)]       #              # {3}
SYM 13550 "S.0x13550"               #[UY=flo(X*1)]       #              # {3}
SYM 13551 "S.0x13551"               #[UY=flo(X*1)]       #              # {3}
SYM 13552 "S.0x13552"               #[UY=flo(X*1)]       #              # {3}
SYM 13554 "S.0x13554"               #[UW=flo(X*1)]       #              # {3}
SYM 13556 "S.0x13556"               #[UW=flo(X*1)]       #              # {3}
SYM 13558 "S.0x13558"               #[UW=flo(X*1)]       #              # {3}
SYM 1355A "S.0x1355A"               #[UW=flo(X*1)]       #              # {3}
SYM 1355C "S.0x1355C"               #[UW=flo(X*1)]       #              # {3}
SYM 1355E "S.0x1355E"               #[UW=flo(X*1)]       #              # {3}
SYM 13560 "S.0x13560"               #[UW=flo(X*1)]       #              # {3}
SYM 13562 "S.0x13562"               #[UW=flo(X*1)]       #              # {3}
SYM 13564 "S.0x13564"               #[UW=flo(X*1)]       #              # {3}
SYM 13566 "HLODH"                   #[UW=flo(X/32768)]   #Perload       #PERLOAD OL Hyst (FN320A) {2}
#SYM13566 "S.0x13566"               #[UW=flo(X*1)]       #              # {3}
SYM 13568 "LOLODH"                  #[UW=flo(X/32768)]   #LOAD          #Low Load Hysteresis (FN338 Hyst) {7}
SYM 135D2 "FRCBFT"                  #[UY=flo(X/128)]     #%ACT          #FN1362's Input ACT Fraction {2}
#SYM135D2 "S.0x135D2"               #[UY=flo(X*1)]       #              # {3}
SYM 136F4 "FUL_OLCL_SW"             #[UY=flo(X*1)]       #SW 0-1        #Switch to force either open or closed loop fuel mode; 1->Open loop, 0->Closed loop. (for DYNO, etc.) Base Value: 1 Resolution: 1 {7}
#SYM 136F4 "FUL_CTRL_SW"             #[UY=flo(X*1)]       #SW            #Force OL (FUL_OLCL_SW) {2}
#SYM136F4 "S.0x136F4"               #[UY=flo(X*1)]       #              # {3}
SYM 136F5 "FUL_OVRD_SW"                                  #              #Fuel Override SW {0}
SYM 136F5 "BO_FUL_OVRD_SW"             :B0                  #              #Fuel Override SW {2}
#SYM136F5 "S.0x136F5"               #[UY=flo(X*1)]       #              # {3}
SYM 136F6 "LAM_COLD_ENG"            #[UY=flo(X*1)]       #X 0-1.99      #Value of SPK_LAMBSE when engine is cold Base Value: 1 Resolution: 0.008 {7}
SYM 136F7 "PIPNUM"                  #[UY=flo(X*1)]       #PIPs          #Fuel Disablement Enrichment Rate (4 of 4) {2}
#SYM136F7 "S.0x136F7"               #[UY=flo(X*1)]       #              # {3}
SYM 13724 "CRKFRC"                  #[UY=flo(X/128)]     #%ACT          #Crank Fuel ACT Fraction {2}
#SYM13724 "S.0x13724"               #[UY=flo(X*1)]       #              # {3}
SYM 13755 "OLMTD1"                  #[UY=flo(X*1)]       #Sec 0-255     #NUMPR OPEN LOOP FUEL MULTIPLIER TIME DELAY, SECONDS Base Value: 0 Resolution: 1 {7}
SYM 13756 "CTHIN"                   #[SY=flo(X*1)]       #Deg 0-254     #MAX TCSTRT VALUE TO USE NUMPR Base Value: 224 Resolution: 2 {7}
SYM 13757 "NUMPR"                   #[UY=flo(X*1)]       #X 0-1.9921    #OPEN LOOP FUEL MULTIPLIER Base Value: 1 Resolution: 0.007812 {7}
SYM 13758 "OLIDRV"                  #[UY=flo(X*1)]       #X 0-1.9921    #OPEN LOOP IDLE MULTIPLIER IN DRIVE Base Value: 1 Resolution: 0.007812 {7}
SYM 13759 "OLINEUT"                 #[UY=flo(X*1)]       #X 0-1.9921    #OPEN LOOP IDLE MULTIPLIER IN NEUTRAL Base Value: 1 Resolution: 0.007812 {7}
SYM 1375A "MINACCL"                 #[SW=flo(X/512)]     #mph/sec       #WOT Lambse Multiplier Min Accel Rate (FN303) {2}
#SYM1375A "S.0x1375A"               #[SW=flo(X*1)]       #              # {3}
SYM 137CC "S.0x137CC"               #[UW=flo(X*1)]       #              # {3}
SYM 137CE "OLMCL"                   #[UW=flo(X/256)]     #xLambse       #OL Lambse Multiplier {2}
#SYM137CE "S.0x137CE"               #[UW=flo(X*1)]       #              # {3}
SYM 137D0 "FUL_OVRD_LAM"            #[UW=flo(X/32768)]   #Lambda        #Fuel Override Lambse {2}
#SYM137D0 "S.0x137D0"               #[UW=flo(X*1)]       #              # {3}
SYM 137D2 "LEAN_EXCRSN"             #[UW=flo(X/32768)]   #Lambse        #Rear o2 Lean Test Excursion Lambse {2}
#SYM137D2 "S.0x137D2"               #[UW=flo(X*1)]       #              # {3}
SYM 137D4 "RICH_EXCRSN"             #[UW=flo(X/32768)]   #Lambse        #KOER Rear Hego Rich Test Lambse {2}
#SYM137D4 "S.0x137D4"               #[UW=flo(X*1)]       #              # {3}
SYM 137D6 "LAM_EXT_MAX"             #[UW=flo(X/32768)]   #Lambse        #CAT Temp Base Lambse (LAM_1ST_STEP) {2}
#SYM137D6 "S.0x137D6"               #[UW=flo(X*1)]       #              # {3}
SYM 137D8 "LAM_EXT_MIN"             #[UW=flo(X/32768)]   #Lambse        #CAT Protect Lambse Min (1 of 3) {2}
#SYM137D8 "S.0x137D8"               #[UW=flo(X*1)]       #              # {3}
SYM 137DA "LAM_EXT_STEP"            #[UW=flo(X/32768)]   #Lambse        #CAT Lambse Step Size {2}
#SYM137DA "S.0x137DA"               #[UW=flo(X*1)]       #              # {3}
SYM 137DC "FRCSFT"                  #[UY=flo(X/128)]     #%ACT          #FN1361's Input ACT Fraction {2}
#SYM137DC "S.0x137DC"               #[UY=flo(X*1)]       #              # {3}



SYM 1387B "ACPRE_LSF_CL"            #                    #              # {7}


SYM 13934 "LMBJMP"                  #[UY=flo(X/32768)]   #-LAMBSE       #Tip-In Lambse Subtractor {2}
#SYM13934 "S.0x13934"               #[UW=flo(X*1)]       #              # {3}
SYM 13936 "LAM_ISC_SW"                                   #              #Idle Lambse Reset {0}
SYM 13936 "B0_LAM_ISC_SW"              :B0                  #              #Idle Lambse Reset {2}
#SYM13936 "S.0x13936"               #[UY=flo(X*1)]       #              # {3}
SYM 13937 "LAM_LOAD_SW"                                  #              #Lambse Reset CT Upset {0}
SYM 13937 "B0_LAM_LOAD_SW"             :B0                  #              #Lambse Reset CT Upset {2}
#SYM13937 "S.0x13937"               #[UY=flo(X*1)]       #              # {3}
SYM 13938 "RFS_TYPE"                #[UY=flo(X*1)]       #FLAG 0-1      #Type of Returnless Fuel System, 0=mechanical, 1=electronic. Base Value: 1.0 Resolution: 1.0 {7}
#SYM13938 "S.0x13938"               #[UY=flo(X*1)]       #              # {3}
SYM 13939 "INJ_PW_COMP"                                  #              #Injector PW Compensation (DeltaP) (RF_MODE) {0}
SYM 13939 "B0_INJ_PW_COMP"             :B0                  #              #Injector PW Compensation (DeltaP) (RF_MODE) {2}
#SYM13939 "S.0x13939"               #[UY=flo(X*1)]       #              # {3}
SYM 1393A "FUL_MVAC_MUL"            #[UW=flo(X/131072)]  #X             #Manifold Vac Multiplier (Inferred RGP SW) {2}
#SYM1393A "S.0x1393A"               #[UW=flo(X*1)]       #              # {3}
SYM 139BA "S.0x139BA"               #[UW=flo(X*1)]       #              # {3}
SYM 139BE "S.0x1389C"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1389C"  {7}
SYM 139C0 "CTHIGH"                  #[SY=flo(X*1)]       #Degs 100-200  #WOT START MINIMUM ENGINE COOLANT TEMPERATURE {7}
SYM 139C1 "CTLOW"                   #[SY=flo(X*1)]       #Degs 0-100    #COLD START MAXIMUM ENGINE COOLANT TEMPERATURE {3}
SYM 139C4 "TRLOAD"                  #[UY=flo(X*1)]       #SW            #Transmission Load Switch (Strategy Specific) {2}
#SYM139C4 "S.0x139C4"               #[UY=flo(X*1)]       #              # {3}
SYM 139C5 "TSTRAT"                  #[UY=flo(X*1)]       #SW            #Transmission Strategy Type {2}
#SYM139C5 "S.0x139C5"               #[UY=flo(X*1)]       #              # {3}
SYM 139D2 "SCP_DT1"                 #[UW=flo(X*1)]       #msec 0-65535  #Time delay to begin transmitting SCP network initialization message set {7}
SYM 139D4 "SCP_DT2"                 #[UW=flo(X*1)]       #msec 0-65535  #Time delay to begin transmitting SCP status request messages {7}
SYM 139D6 "ODU_TIMEOUT"             #[UY=flo(X*1)]       #Secs 0-31.875 #Time-out value for certain offboard diagnostic routines {7}
SYM 139D7 "BIHP_SCP"                                     #SW 0-1        #Switch for SCP control of Brake input switch Base Value: 0 {7}
SYM 139D8 "PATS_DISABLE"            #[UY=flo(X*1)]       #SW 0-1        # Enable / disable the Integrated PATS strategy.  0 -> PATS strategy enabled {7}
SYM 139D8 "B0_PATS_DISABLE"            :B0                  #SW 0-1        # Enable / disable the Integrated PATS strategy.  0 -> PATS strategy enabled {7}{2}
SYM 139DA "S.0x139DA"               #[UW=flo(X*1)]       #              # {3}
SYM 139DC "TXPCMID_DLY"             #[UW=flo(X*1)]       #MSec 0-65535  #Delay before starting initial PCM-ID transfer to PATS Module {7}
SYM 139E9 "DISPL_LITERS"            #[UY=flo(X/10)]      #Liters        #Engine Displacement (NUMCYL) {2}
SYM 139EC "TORQUE_PEAK"             #[UY=flo(X*4)]       #N-M           #SCP Engine Peak TQ N-M {2}
SYM 139ED "VS_PROC"                 #[UY=flo(X*1)]       #              #Selects what vehicle speed processing strategy will perform;  0 -> 'traditional' vss processing {7}
SYM 139FA "ENGCYL"                  #[UY=flo(X/2)]       #CYL           ## Pips Per Rev (NUMCYL) {2}
#SYM139FA "S.0x139FA"               #[UY=flo(X*1)]       #              # {3}
SYM 139FB "NUMEGO"                  #[UY=flo(X*1)]       #ENUM 1-2      #Number of HEGO sensors used Base Value: 2 {2}
#SYM139FB "S.0x139FB"               #[UY=flo(X*1)]       #              # {3}
SYM 139FC "MHPFD"                   #[UW=flo(X/65536)]   #DC            #Signature PIP Difference Value {2}
SYM 13A00 "HP_CIDSEL"                                    #              #CAM Sensor Type {0}
SYM 13A00 "B0_HP_CIDSEL"               :B0                  #              #CAM Sensor Type {2}
#SYM13A00 "S.0x13A00"               #[UY=flo(X*1)]       #              # {3}
SYM 13A02 "S.0x13A02"               #[UW=flo(X*1)]       #              # {3}
SYM 13A04 "AIR_ADAPT"               #[UY=flo(X*1)]       #X 0-1         #Adaptive air charge selection switch; 1 --> adaptively adjust airmeter  Base Value: 0.00 {7}
SYM 13A06 "PG_LK_ML"                #[UW=flo(X*1)]       #lbm/min       #Canister purge valve leakage multiplier, lbm/min. SAME AS RZASA "S.0x143A8" {7}
SYM 13A08 "PRLDSW"                  #[UY=flo(X*1)]       #SW            #Perload Scaling SW (PRLDSW_B)Switch to select definition of perload, unitless {2}
SYM 13A08 "B0_PRLDSW"               :B0                  #SW            #Perload Scaling SW (PRLDSW_B) {7}
SYM 13A08 "B1_PRLDSW"               :B1                  #SW            #Perload Scaling SW (PRLDSW_B) {7}
SYM 13A0A "FKARCIDLE"               #[UW=flo(X*1)]       #              #Special idle mode filter coefficient, unitless. {7}
SYM 13A0C "ARCHIDLE_SW"             #[UY=flo(X*1)]       #              #Switch to enable special idle filter; 1 -> use special idle filter.  {7}
SYM 13A0E "S.0x143AC"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x143AC" {7}
SYM 13A10 "EGR_TP_HYST"             #[UW=flo(X*1)]       #COUNTS 0-1023 #EGR TP_REL disable hysteresis {7}
SYM 13A12 "EGREN_TM_RT"             #[UW=flo(X*1)]       #%/100 0-0.99998#Fraction of ACT at start to use for calculation of EGR enable time {7}
SYM 13A14 "HEGO_DATA_BFR_13A14"           #[UW=flo(X*1)]       #              # {7}
SYM 13A16 "HEGO_DATA_BFR_13A16"           #[UW=flo(X*1)]       #              # {7}
SYM 13A18 "TC_EGR_N"                #[UW=flo(X*1)]       #Secs 0-63.999001#Time constant for N in EGR monitor {7}
SYM 13A1A "TC_EPTBAR_M6"            #[UW=flo(X*1)]       #Secs 0-63.999001#Time constant for EPTBAR for mode 06 reporting Base Value: 1 Resolution: 0.000977 {7}
SYM 13A1C "S.0x13A1C"               #[UW=flo(X*1)]       #              # {3}
SYM 13A1E "HEGO_DATA_BFR_13A1E"           #[UW=flo(X*1)]       #              # {7}
SYM 13A20 "TC_1405_M6"              #[UW=flo(X*1)]       #              # {7}
SYM 13A22 "TC_1406_M6"              #[UW=flo(X*1)]       #              # {7}
SYM 13A24 "WOTEGRTM"                #[UY=flo(X*1)]       #Secs 0-255    #Max amount of time to allow WOT EGR {7}
SYM 13A25 "BAPFMM"                  #[UY=flo(X*1)]       #INHG 12-31.875#DEFAULT BAP VALUE IN HG Base Value: 27 Resolution: 0.125 {7}
SYM 13A26 "TOTECT_FK"               #[UW=flo(X/65536)]   #%             #TOT/ECT Weighting Factor {7}
SYM 13A28 "NDS_SWPT"                #[UW=flo(X*1)]       #COUNTS 0-1023 #NDS input switch point Base Value: 512 Resolution: 0.015625 {7}
SYM 13A2A "NDDELTA"                 #[UW=flo(X*1)]       #Secs 0-63.999001#Time before N/D,D/N switch registers; High resolution Base Value: 2 Resolution: 0.001 {7}
SYM 13A2C "CPP_SEL"                 #[UY=flo(X*1)]       #X 0-1         #Calibration select for clutch test; 1 = do test Base Value: 1.0 {7}
SYM 13A2E "CPP_NMAX"                #[UW=flo(X*1)]       #RPM 0-16383.75#Maximum RPM for continuous clutch test Base Value: 450.Resolution: 0.250  {7}
SYM 13A30 "CPP_NMIN"                #[UW=flo(X*1)]       #RPM 0-16383.75#Minimum RPM for continuous switch test Base Value: 100. Resolution: 0.250 {7}
SYM 13A32 "NDS_SENSE"               #[UY=flo(X*1)]       #X 0-1         #Voltage input for setting INDS; 0 -> low, 1 -> high Base Value: 1.0 {7}
SYM 13A34 "FP_AM_HYS"               #[UW=flo(X*1)]       #LB/MIN 0-63.999020   #Hysteresis used with FN_FP_VBAT to avoid flickering fuel pump states {7}
SYM 13A36 "FP_N_ENA_CL"             #[UW=flo(X*1)]       #RPM 0-16383.75   #RPM below which hi-speed fuel pump is disabled (clear FF) {7}
SYM 13A38 "FP_N_ENA_SH"             #[UW=flo(X*1)]       #RPM 0-16383.75   #RPM above which hi-speed fuel pump is enabled (set FF) {7}
#???SYM 13A3A "PFS_LOC"                                      #              #PURGE FLOW SENSOR pin location.  0 = pin 11, 1 = pin 8 {7}
#SYM 13A3A "PFS_LOC"                 :B0                  #              #MAP Sensor Pin Location {7}
SYM 13A3B "RF_COLD_MOD"                                  #              #Alternate Cold DeltaP SW (FNRF_COLD) {7}
#SYM 13A3B "RF_COLD_MOD"             :B0                  #              #Alternate Cold DeltaP SW (FNRF_COLD) {7}
SYM 13A3C "RF_WARMRAIL"             #[SY=flo(X/0.5)]     #deg           #Warm Fuel Rail Temp Threshold (FNRF_BOIL) {7}
SYM 13A3E "RF_FRDPS_MIN"            #[UW=flo(X/64)]      #AD Cnts       #FRP Sensor Fault Min {7}
SYM 13A40 "FRP_ERRLMT"              #[UW=flo(X*1)]       #PSI 0-90      #Tolerance limits on RF_DP_ERR to set code P1235 {7}
SYM 13A42 "FRP_ERRTOL"              #[UW=flo(X/512)]     #psi           #P0191 Tolerance Limit {7}
SYM 13A44 "FRP_MID"                 #[UW=flo(X/512)]     #psi           #FRP Failure {7}
SYM 13A46 "FRP_MIDTOL"              #[UW=flo(X/512)]     #psi           #FRP Fault Tolerance Limit {7}
SYM 13A48 "FRP_RATE"                #[UW=flo(X/128)]     #psi/s         #FRP Fault Rate of Change {7}
SYM 13A52 "S.0x13A52"               #[UY=flo(X*1)]       #              # {3}
SYM 13A53 "TEMPFB"                  #[SY=flo(X/0.5)]     #ECT           #Engine Warm Temp (Cold Shifting) {7}
SYM 13A54 "NOISE_IGNR"              #[UY=flo(X*1)]       #X 0-1         #If set, enables learning of CFs usnder noisy conditions. If clear, stops learning CFs under noise Base Value: 0 Resolution: 1 {7}
SYM 13A55 "CF_DFSO_IGNR"            #[UY=flo(X*1)]       #X 0-1         #If set, enables learning of CFs regardless of the state of DFSO mode.Base Value: 0.Resolution: 1 {7}
SYM 13A56 "S.0x13A56"               #[UW=flo(X*1)]       #              # {3}
SYM 13A58 "S.0x13A58"               #[UW=flo(X*1)]       #              # {3}
SYM 13A5A "CF_VSBARMAX"             #[UY=flo(X*1)]       #RPM 0-127.5   #Maximum speed for CFs update Base Value: 100 Resolution: 0.5 {7}
SYM 13A5B "CF_VSBARMIN"             #[UY=flo(X*1)]       #RPM 0-127.5   #Minimium speed for CFs update Base Value: 10 Resolution: 0.5 {7}
SYM 13A5C "PIP_EVNT_MAX"            #[UW=flo(X*1)]       #EVENTS 0-65535#When in DFSO, number of PIP events to wait before learning CFs Base Value: 16 Resolution: 1 {7}
SYM 13A5E "TOTMIS_THRS"             #[UW=flo(X*1)]       #EVENTS 0-1    #Number of TOTMIS events above which CF updates will be disabled Base Value: 0.5 Resolution: 0.000015 {7}
SYM 13A60 "CF_LOAD_MAX"             #[UW=flo(X*1)]       #X 0-1.999969  #max load for profile correction factor updates Base Value: 0.3 Resolution: 0.000031 {7}
SYM 13A62 "CF_LOAD_MIN"             #[UW=flo(X*1)]       #X 0-1.999969  #min load for profile correction factor update Base Value: 0.7 Resolution: 0.000031 {7}
SYM 13A64 "CF_N_MAX"                #[UW=flo(X*1)]       #RPM 0-16383.75#max rpm for profile correction factor update Base Value: 5000 Resolution: 0.25 {7}
SYM 13A66 "CF_N_MIN"                #[UW=flo(X*1)]       #RPM 0-16383.75#min rpm for profile correction factor update Base Value: 1000 Resolution: 0.25 {7}
SYM 13A68 "CF_MAX_TQ"               #[SW=flo(X*1)]       #FT-LB -1024-1023#Max net torque for profile correction factor update Base Value: -1024 Resolution: 0.03125 {7}
SYM 13A6A "CF_MIN_TQ"               #[SW=flo(X*1)]       #FT-LB -1024-1023#Min net torque for profile correction update Base Value: 1023 Resolution: 0.03125 {7}
SYM 13A6C "CF_ENA"                  #[UW=flo(X*1)]       #X 0-1         #switch to turn on adaptive profile correction, 1 = on Base Value: 0  {7}
SYM 13A6E "CF_FK_SLOW"              #[UW=flo(X*1)]       #X 0-1         #Slow stepping filter constant for 'averaging' CFs Base Value: 0.01 Resolution: 0.000015 {7}
SYM 13A70 "CF_FK"                   #[UW=flo(X*1)]       #EVENTS 0-0.9999#filter constant for 'averaging' of profile correction factors Base Value: 5 Resolution: 0.000015 {7}
SYM 13A72 "S.0x183FA"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x183FA" L8B0DC {7}
SYM 13A74 "NO_BOUN"                 #[UW=flo(X*1)]       #RPM 0-16383.75#BOUNDARY FOR HEAVILY FILTERED OUTPUT SPEED Base Value: 5 Resolution: 0.25 {7}
SYM 13A76 "TCNOTA"                  #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONST. FOR HEAVILY FILTERED TRANSMISSION OUTPUT SHAFT SPEED Base Value: 0.05 Resolution: 0.000977 {7}
SYM 13A7C "TCTPS"                   #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONSTANT FOR TP_SS Base Value: 2 Resolution: 0.000977 {7}
SYM 13A7E "TMTAEXIT"                #[UW=flo(X*1)]       #Secs 0-64     #DELAY TIME BEFORE EXITING T/A Base Value: 0 Resolution: 0.00098 {7}
SYM 13A80 "TP_SYNTH_SW"             #[UY=flo(X*1)]       #FLAG 0-1      #Base Value: 0 Resolution: 1 {7}
SYM 13AA9 "S.0x13AA9"               #[UY=flo(X*1)]       #              # {3}
SYM 13AAA "PFS_LOC_??"                 #[UY=flo(X*1)]       #              # {7}
SYM 13AAB "S.0x13AAB"               #[UY=flo(X*1)]       #              # {3}
SYM 13AAC "THRMHP"                  #[UY=flo(X*1)]       #SW            #Auxiliary Hardware Present (Thermactor) {2}
#SYM13AAC "S.0x13AAC"               #[UY=flo(X*1)]       #              # {3}
SYM 13AAD "PUR_ENA_SW"              #[UY=flo(X*1)]       #SW            #Purge Enable Adaptive ISC Control {7}
SYM 13AAE "S.0x13AAE"               #[UW=flo(X*1)]       #              # {3}
SYM 13AB0 "PCOMP_SW"                                     #              #Purge Strategy Select SW {7}
SYM 13AB0 "PCOMP_SW"                :B0                  #              #Purge Strategy Select SW {7}
SYM 13AB1 "CTPRG"                   #[SY=flo(X*1)]       #DEGS 210-254  #OVERHEAT TEMPERATURE TO TURN OFF PURGE (DEGREES FARENHEIT) {7}
SYM 13AB2 "CTPRG_SL"                #[SY=flo(X*1)]       #DEGS 210-254  #CTPRG - HYSTERESIS {7}
SYM 13AB3 "PRGMPH_SH"               #[UY=flo(X*1)]       #MPH 0-127.5   #MINIMUM VEHICLE SPEED TO ALLOW PURGE {7}
SYM 13AB4 "PRGMPH_CL"               #[UY=flo(X*1)]       #MPH 0-127.5   #PRGMPH_SH MINUS HYSTERESIS {7}
SYM 13AB5 "S.0x13AB5"               #[UY=flo(X*1)]       #              # {3}
SYM 13AB6 "EVTDOT"                  #[UY=flo(X*1)]       #Secs 0-10     #EVAP PURGE TIME DELAY AT P.T. OR WOT NOTE: THE FOLLOWING PARAMETERS MUST REMAIN IN THE FOLLOWING ORD {7}
SYM 13AB7 "PRGTD1"                  #[UY=flo(X*1)]       #Secs 0-255    #ATMR1 CANISTER PURGE TIME DELAY FOR TCSTRT <= CTLOW  {7}
SYM 13AB8 "PRGTD2"                  #[UY=flo(X*1)]       #Secs 0-255    #ATMR1 CANISTER PURGE TIME DELAY FOR CTLOW < TCSTRT < CTHIGH {7}
SYM 13AB9 "PRGTD3"                  #[UY=flo(X*1)]       #Secs 0-255    #ATMR1 CANISTER PURGE TIME DELAY FOR TCSTRT >= CTHIGH {7}
SYM 13ABA "PRGTD4"                  #[UY=flo(X*1)]       #Secs 0-255    #ATMR2 CANISTER PURGE TIME DELAY FOR TCSTRT <= CTLOW {7}
SYM 13ABB "PRGTD5"                  #[UY=flo(X*1)]       #Secs 0-255    #ATMR2 CANISTER PURGE TIME DELAY FOR CTLOW < TCSTRT < CTHIGH {7}
SYM 13ABC "PURG_ADP_SF"             #[UY=flo(X*1)]       #UNITLESS 0-0.99#ADAPTIVE LEARNING SAFETY FACTOR; DELTA FROM MINADP AT WHICH TIME PURGE IS DISABLED {7}
SYM 13ABD "VBAT_MX"                 #[UY=flo(X*1)]       #Vdc 0-15.9375 #Max battery voltage below which to allow purge {7}
SYM 13ABE "PRG_LAM_SUB"             #[UW=flo(X*1)]       #UNITLESS 0-0.99#Calibration constant used as a subtractor to LAMBSEx in FN603 logic check {7}
SYM 13AC0 "PRG_CT_HLD"              #[UY=flo(X*1)]       #EIGHTHS 0-31.875 #Time in closed throttle mode after which the purge dutycycle will be held at its current value {7}
SYM 13AC1 "CANP_OSM_TM"             #[UY=flo(X*1)]       #Sec 0-255     #Time above which the purge valve is considered completely monitored. Base Value: 5 Resolution: 1 {7}
SYM 13AC6 "HWPPM"                 #[UW=flo(X*1)]       #LBM/MIN 0-0.996#DESMAF ADDER FOR HEATED WINDSHIELD Base Value: 0 Resolution: 0.000488 SAME AS RZASA L88B8D S.0x13956 {7}
SYM 13AC8 "HWIP_HP"                 #[UY]                #              #Heated Windshield Present {7}
SYM 13AC9 "DASMHYST"                #[UY=flo(X/2)]       #MPH           #DasMph Hyst {2}
#SYM13AC9 "S.0x13AC9"               #[UY=flo(X*1)]       #              # {3}
SYM 13ACA "DASMPH"                  #[UY=flo(X/2)]       #MPH           #Daspot Min Clip VS {2}
#SYM13ACA "S.0x13ACA"               #[UY=flo(X*1)]       #              # {3}
SYM 13ACC "FMMDSD"                  #[UW=flo(X/0.0625)]  #RPM           #Failure Default RPM {7}
SYM 13ACE "FMMISC"                  #[UW=flo(X/32768)]   #ISCDC         #Default ISC Dutycycle {7}
SYM 13AD0 "NRATCH_OFF"                                   #              #N_Ratch Control SW (FN894) {7}
SYM 13AD2 "RUNUP_DIFF"              #[SW=flo(X/4)]       #RPM           #Engine Bark RPM Threshold Min {7}
SYM 13AD4 "RUNUP_DIFF_A"            #[SW=flo(X/4)]       #RPM           #Engine Bark RPM Threshold Min Alternate {7}
SYM 13AD6 "ACLOD"                   #[UY=flo(X/512)]     #Load          #A/C Load {7}
SYM 13AD8 "DASCTL"                  #[UW=flo(X/4096)]    #lbs/min       #Daspot Max to allow Idle Control (Start Stall) {2}
#SYM13AD8 "S.0x13AD8"               #[UW=flo(X*1)]       #              # {3}
SYM 13ADA "ISCTM"                   #[UW=flo(X/8)]       #sec           #Decel RPM Update Time ( LOWLOD) {7}
SYM 13ADC "LOWLOD"                  #[UY=flo(X/512)]     #LOAD          #Decel Load Below Idle (FN_LOWLOD) {2}
#SYM13ADC "S.0x13ADC"               #[UY=flo(X*1)]       #              # {3}
SYM 13ADD "MINMPH"                  #[UY=flo(X/2)]       #MPH           #Idle Control Max MPH {7}
SYM 13ADE "NDIF"                    #[UW=flo(X/4)]       #RPM           #Decel / Idle RPM Limit (LOWLOD) {7}
SYM 13AE0 "RPMCTL"                  #[UW=flo(X/4)]       #RPM           #Idle ISC RPM Control (FBS Startup) (ISCFLG) {7}
SYM 13AE2 "SETLNG_TM"               #[UY=flo(X/8)]       #sec           #Idle Disturbance Delay (Dashpot Settling Time) {2}
#SYM13AE2 "S.0x13AE2"               #[UY=flo(X*1)]       #              # {3}
SYM 13AE3 "CL_TSL_SW"                                    #              #CL RPM Decel (Auto Trans) {7}
#SYM 13AE3 "CL_TSL_SW"               :B0                  #              #CL RPM Decel (Auto Trans) {7}
SYM 13AE4 "IAC_HI_LIM_S.0x13974"    #[SW=flo(X*1)]       #              # SAME AS RZASA "S.0x13974" {7}
SYM 13AE6 "IAC_LO_LIM_S.0x13976"    #[SW=flo(X*1)]       #              # SAME AS RZASA "S.0x13976" {7}
SYM 13AE8 "DEBYCP"                  #[UW=flo(X/4096)]    #lbs/min       #IAC Min Calc Flow Limit (IPSIBR) {2}
#SYM13AE8 "S.0x13AE8"               #[UW=flo(X*1)]       #              # {3}
SYM 13AEA "GI"                      #[UY=flo(X/128)]     #Gain          #ISC Valve Gain Integral {2}
#SYM13AEA "S.0x13AEA"               #[UY=flo(X*1)]       #              # {3}
SYM 13AEC "IDC_MAX"                 #[UW=flo(X/32768)]   #ISCDC         #ISCDC C/L Max {2}
#SYM13AEC "S.0x13AEC"               #[SW=flo(X*1)]       #              # {3}
SYM 13AEE "IDC_MIN"                 #[UW=flo(X/32768)]   #ISCDC         #ISCDC C/L Min {2}
#SYM13AEE "S.0x13AEE"               #[SW=flo(X*1)]       #              # {3}
SYM 13AF0 "IDCMUL"                  #[UW=flo(X/32768)]   #xISCDC        #Global ISCDC Multiplier {2}
#SYM13AF0 "S.0x13AF0"               #[UW=flo(X*1)]       #              # {3}
SYM 13AF2 "IDCOFS"                  #[UW=flo(X/32768)]   #ISCDC         #Global ISCDC Offset {2}
#SYM13AF2 "S.0x13AF2"               #[UW=flo(X*1)]       #              # {3}
SYM 13AF4 "VSCLP"                   #[UY=flo(X/2)]       #MPH           #Max MPH to allow C/L ISCDC Control {2}
#SYM13AF4 "S.0x13AF4"               #[UY=flo(X*1)]       #              # {3}
SYM 13AF5 "TR_DSDRPM_SW"                                 #              #Enable TR_DSDRPM (Auto Trans) {7}
#SYM 13AF5 "TR_DSDRPM_SW"            :B0                  #              #Enable TR_DSDRPM (Auto Trans) {7}
SYM 13AF6 "EDF_DELAY"               #[UW=flo(X/1024)]    #sec           #Fan AM Delay (EDFPPM) {7}
SYM 13AF8 "EDFPPM"                  #[UW=flo(X/2048)]    #LBS/MIN       #Fan Base PPM Adder (VSF) {7}
SYM 13AFA "PSPPM"                   #[UW=flo(X/2048)]    #PPM 0-0.996   #FAM DELTA AM FOR POWER STEERING LOAD UNITS ARE LB/MIN {7}
#SYM13AFA "S.0x13AFA"               #[UW=flo(X*1)]       #              # {3}
SYM 13AFC "PSPPM_VS"                #[UW=flo(X/2048)]    #PPM 0-0.996   #POWER STEERING AIR ADDER WITH VEHICLE MOVING UNITS ARE LB/SEC {7}
#SYM13AFC "S.0x13AFC"               #[UW=flo(X*1)]       #              # {3}
SYM 13AFE "PS_VS"                   #[UY=flo(X/2)]       #MPH 0-127.5   #SPEED BELOW WHICH PSPPM ADDITION IS ENABLED UNITS ARE MPH {7}
SYM 13B00 "BRAKE_DNDT_X_S.0x13996"  #[SW=flo(X*1)]       #              #Threshold for detection of vehicle braking - extended range # SAME AS RZASA "S.0x13996"{7}
SYM 13B02 "DASCLP_4INH"                                  #X 0-1         #Switch controls the FN894H min dashpot clip inhibit logic {0}
SYM 13B02 "DASCLP_4INH_B0"          :B0                  #X 0-1         #FN894H Enable/Disable {2}
#SYM13B02 "S.0x13B02"               #[UY=flo(X*1)]       #              # {3}
SYM 13B04 "DASPTK"                  #[UW=flo(X/1048576)] #Vdc 0-0.062499#GAIN FOR P.T. DASHPOT CALC {2}
#SYM13B04 "S.0x13B04"               #[UW=flo(X*1)]       #              # {3}
SYM 13B06 "DAS_BKDLY_A_S.0x1399C"   #[UY=flo(X*1)]       #Secs 0-31.875 #Time delay in 4th gear to recognize vehicle breaking, (secs) # SAME AS RZASA "S.0x1399C" {7}
SYM 13B07 "DAS_CNT_S.0x13B07"       #[UY=flo(X*1)]       #NONE 0-255    #Number of DNDT_ISC samples above DAS_DNDT to recognize lack of decel {7}
SYM 13B08 "DAS_CTDLY_S.0x1399E"     #[UY=flo(X*1)]       #Secs 0-30     #Closed throttle time delay before activating the lack of decel detection # SAME AS RZASA "S.0x1399E" {7}
SYM 13B0A "DAS_DNDT_X_S.0x139A0"    #[SW=flo(X*1)]       #RPM/SEC-8192-8192#Threshold for detection of lack of decel - extended range #  SAME AS RZASA "S.0x139A0" L888E8 DNDT_DAS Limit {7}
SYM 13B0C "DELHYS"                  #[UW=flo(X/64)]      #Vdc 0-1023    #DELTA ABOVE RATCH TO BEGIN DASPOT CALCULATION {7}
SYM 13B0E "DPNEU_MUL"               #[UW=flo(X/32768)]   #FRAC 0-0.996  #NEUTRAL DASPOT MULTIPLIER (UNITLESS){7}
SYM 13B10 "TCDASD"                  #[UW=flo(X/1024)]    #ec 0-63.999001#TIME CONSTANT FOR DSTPBR {2}
#SYM13B10 "S.0x13B10"               #[UW=flo(X*1)]       #              # {3}
SYM 13B12 "TCDASU"                  #[UW=flo(X/1024)]    #Sec 0-63.999001#TIME CONSTANT FOR DSTPBR {2}
#SYM13B12 "S.0x13B12"               #[UW=flo(X*1)]       #              # {3}
SYM 13B14 "BZZRPM"                  #[UW=flo(X*8)]       #RPM 0-2040    #DESIRED RPM ADDER USED ON STARTUP FOR BZZTM SECONDS Base Value: 0 Resolution: 8 {7}
SYM 13B16 "BZZRPM_ALT"              #[UW=flo(X*8)]       #RPM 0-2040    #Alternative Cal BZZRPM Base Value: 0 Resolution: 8 SAME AS RZASA "S.0x139B2" L9ED46 {7}
SYM 13B18 "BZZTM"                   #[UY=flo(X*1)]       #Secs 0-255    #TIME DELAY DURING WHICH BZZRPM IS USED AND NO PART THROTTLE KICKDOWN IS ALLOWED USED FOR DRIVE-NEUTR Base Value: 0 Resolution: 1 {7}
SYM 13B19 "BZZTM_ALT"               #[UY=flo(X*1)]       #Secs 0-255    #Alternative Cal BZZTM Base Value: 0 Resolution: 1 SAME AS RZASA "S.0x139B5" L9ED41 {7}
SYM 13B1A "HCAM_ACT_CLP"            #[UY=flo(X*8)]       #RPM 0-2040    #Maximum clip applied to FN825b(ACT) when transmission is out of neutral Base Value: 2040 Resolution: 8 SAME AS RZASA "S.0x139B6" L9ED71 {7}
SYM 13B1B "TKDTN"                   #[UY=flo(X*1)]       #Secs 0-255    #Time since start after which FN826B is eliminated {7}
SYM 13B1C "COOL_BASE"               #[UW=flo(X*1)]       #RPM 0-2040    #Base RPM when engine overheat Base Value: 1000 Resolution: 8.0 SAME AS RZASA "S.0x139B8" L9EEAF {7}
SYM 13B1E "DNPOWS"                  #[UW=flo(X/2)]       #RPM 0-1000    #DESIRED RPM ADDER FOR POWER STEERING LOAD (UNITS ARE RPM) {7}
SYM 13B20 "HEDFRPM"                 #[UW=flo(X*1)]       #RPM 0-250     #DSDRPM ADDER WHEN HIGH SPEED FAN IS ON (RPM) Base Value: 0 Resolution: 8 SAME AS RZASA "S.0x139BC" L9EE6A {7}
SYM 13B22 "ACFILTC"                 #[UW=flo(X/1024)]    #Secs 0-32     #A/C FILTER TIME CONSTANT FOR AC_RPM SPEED ADDER IN DSDRPM CALCULATION {7}
SYM 13B24 "AC_OFF_DLY"              #[UW=flo(X*1)]       #Sec 0-255     #TIME TO MAINTAIN DNAC RPM ADDER AFTER A/C HAS BEEN DISENGAGED Base Value: 0 Resolution: 1 SAME AS RZASA "S.0x139C0" L9F0BC ACIOTMR Limit {7}
SYM 13B26 "DNAC_DR"                 #[UW=flo(X/2)]       #RPM 0-200     #Desired RPM adder for A/C in drive {7}
SYM 13B28 "DNAC_NEUT"               #[UW=flo(X/2)]       #RPM 0-200     #Desired RPM adder for A/C in neutral {7}
SYM 13B2A "IPSIDLY"                 #[UY=flo(X/8)]       #Secs 0-31.875 #TIME DELAY TO DISABLE IPSIBR UPDATE {2}
#SYM13B2A "S.0x13B2A"               #[UY=flo(X*1)]       #              # {3}
SYM 13B2C "IPSIMAX"                 #[SW=flo(X/4096)]    #X 0-1.9997    #Maximum IPSIBR clip value when not in RPM control and DASPOT less than DASCTL {7}
SYM 13B2E "IPSI_SW"                                      #X 0-1         #Calibration switch to uses IPSIMAX; IPSI_SW -> 1 then IPSIBR can be clip to IPSIMAX{7}
#SYM 13B2E "IPSI_SW"                 :B0                  #X 0-1         #Calibration switch to uses IPSIMAX; IPSI_SW -> 1 then IPSIBR can be clip to IPSIMAX {7}
SYM 13B30 "TC_OVER"                 #[UW=flo(X/128)]     #Secs 0-25     #IDLE AIR RESPONSE TIME CONSTANT FOR OVERSPEED {7}
SYM 13B32 "TC_UNDER"                #[UW=flo(X/128)]     #Secs 0-25     #IDLE AIR RESPONSE TIME CONSTANT FOR UNDERSPEED {7}
#SYM13B32 "S.0x13B32"               #[UW=flo(X*1)]       #              # {3}
SYM 13B34 "RPMDED"                  #[UW=flo(X/4)]       #RPM 0-510     #RPM DEADBAND - C/L ISC {7}
SYM 13B36 "UPDISC"                  #[UY=flo(X*1)]       #Secs 0-255    #TIME @ DSDRPM PRIOR TO ISCKAM UPDATE {7}
SYM 13B38 "PSIBRM"                  #[UW=flo(X/4096)]    #PPM 0-1.9997  #MAX CLOSED LOOP MAF CORRECTION FOR ISC CODE DEPENDS ON RANGE {7}
SYM 13B3A "PSIBRN"                  #[SW=flo(X/4096)]    #LBS/MIN -1-0  #MIN CLOSED LOOP MAF CORRECTION FOR ISC {7}
#SYM13B3A "S.0x13B3A"               #[UW=flo(X*1)]       #              # {3}
SYM 13B3C "UPDATM"                  #[UY=flo(X*1)]       #EVENTS 0-255  #ISCKAM UPDATE RATE {7}
#SYM13B3C "S.0x13B3C"               #[UY=flo(X*1)]       #              # {3}
SYM 13B3D "S.0x13B3D"               #[SY=flo(X*1)]       #              # {3}
SYM 13B3E "S.0x13B3E"               #[SY=flo(X*1)]       #              # {3}
SYM 13B3F "S.0x13B3F"               #[UY=flo(X*1)]       #              # {3}
SYM 13B40 "S.0x13B40"               #[UY=flo(X*1)]       #              # {3}
SYM 13B42 "S.0x13B42"               #[UW=flo(X*1)]       #              # {3}
SYM 13B44 "S.0x13B44"               #[UW=flo(X*1)]       #              # {3}
SYM 13B46 "S.0x13B46"               #[UW=flo(X*1)]       #              # {3}
SYM 13B48 "S.0x13B48"               #[UW=flo(X*1)]       #              # {3}
SYM 13B4A "ACTP_CL"                 #[UW=flo(X*1)]       #CNTS 100-1023 #MAX. TP_REL TO INCREMENT ACTPTMR2 UNITS ARE COUNTS Base Value: 540 Resolution: 0.015625 {7}
SYM 13B4C "S.0x13B4C"               #[UW=flo(X*1)]       #              # {3}
SYM 13B4E "IDLCOT2"                 #[UW=flo(X*1)]       #Sec 0-62      #TIME DELAY FOR A/C WHEN SYSTEM IS CYCLING Base Value: 0.2 Resolution: 0.001 {7}
SYM 13B50 "S.0x13B50"               #[UY=flo(X*1)]       #              # {3}
SYM 13B52 "IDLCOT"                  #[UW=flo(X*1)]       #Sec 0-63.990002#TIME DELAY FOR A/C WHEN SYSTEM IS NOT CYCLING Base Value: 0.01 Resolution: 0.00098 {7}
SYM 13B54 "S.0x13B54"               #[UY=flo(X*1)]       #              # {3}
SYM 13B55 "AC_MN_FT"                #[UY=flo(X/4)]       #Sec 0-62      #Min. time to run low speed EDF after A/C clutch is disengaged {7}
SYM 13B56 "S.0x13B56"               #[UW=flo(X*1)]       #              # {3}
SYM 13B58 "S.0x13B58"               #[UY=flo(X*1)]       #              # {3}
SYM 13B59 "ACR_HP"                  #[UY=flo(X*1)]       #FLAG 0-1      #Status indicHardware present switch to indicate that the A/C clutch relay is controlled from the PCM hardware via a hardware pin Base Value: 1 Resolution: 1 {7}
SYM 13B5A "AC_RLY_IS_NC"            #[UY=flo(X*1)]       #FLAG 0-1      #Status indicator, Set if the relay is Normally Closed, Clear if it is Normally Open. Base Value: 1 Resolution: 1 {7}
SYM 13B5C "HLD_AC_TM"               #[UW=flo(X*1)]       #MSec 0-65535  #Time to disallow the A/C to change state afther the end of a shift is detected Base Value: 0 Resolution: 1 {7}
SYM 13B5E "AC_OBD_ON"               #[UY=flo(X*1)]       #FLAG 0-1      #Hardware present switch to indicate that A/C short-cycling fault condition is to be monitored. Base Value: 0.0 Resolution: 1.0 {7}
SYM 13B60 "CCSLP_MN_PRD"            #[UW=flo(X*1)]       #Sec 0-63.990002#Transmission CC minimum AC Period to enable slip feature Base Value: 20.0 Resolution: 0.249 {7}
SYM 13B62 "P1469_LMT"               #[UY=flo(X*1)]       #X 0-255       #Number of short A/C clutch cycles before setting code 1469 Base Value: 1.0 Resolution: 1.0 {7}
SYM 13B64 "FAN_DELAY"               #[UW=flo(X*1)]       #Sec 0-63      #Time delay before energizing EDF outpu Base Value: 0.50 Resolution: 0.0010 {7}
SYM 13B66 "HSFLOD"                  #[UW=flo(X*1)]       #X 0-1.999     #Min. LOAD for grade load high spd. fan Base Value: 1.500 Resolution: 0.000030 {7}
SYM 13B68 "EDFHP"                   #[UY=flo(X*1)]       #ENUM 0-1      #Fan hardware present switch Base Value: 0.0 Resolution: 1.0 SAME AS RZASA "S.0x177B7" {7}
SYM 13B68 "B0_EDFHP"                :B0                  #ENUM 0-1      #Fan hardware present switch Base Value: 0.0 Resolution: 1.0{7}
#CONFIGURATION:
#   If an Electro-drive fan is not used, set both EDFHP and EDFHP = 0.
#   To control a "one-speed" fan, set EDFHP = 1 and EDFHP = 0.
#   To control a "two-speed" dual-wound fan, set both EDFHP and EDFHP = 1 and DWFHP = 1.
#   To control either a "two-speed" fan with a series resistor, or two separate fans set both EDFHP and EDFHP = 1 and DWFHP = 0.  */

SYM 13B69 "HEDFHP"                                       #ENUM 0-1      #High speed EDF(ELECTRIC DRIVE FAN) hardware present switch {7}
SYM 13B6A "LSF_INVRT_HP"            #[UY=flo(X*1)]       #FLAG 0-1      #LSF Inverting Output Hardware Present Base Value: 1 Resolution: 1 {7}
SYM 13B6B "DWFHP"                   #[UY=flo(X*1)]       #ENUM 0-1      #Dual Wound Fan HP: selects state of LSF when HSF is on Base Value: 0.0 Resolution: 1.0 {7}
SYM 13B6C "HSF_ACP_ROTM"            #[UY=flo(X*1)]       #Sec 0-255     #HSF AC pressure run on time Base Value: 15.0 Resolution: 1.00 {7}
SYM 13B6D "HSFAN_DELAY"             #[UY=flo(X*1)]       #Sec 0-63.75   #Time delay before energising HEDF Base Value: 6.0 Resolution: 0.25 {7}
SYM 13B6E "HSFECT1_SH"              #[SY=flo(X*1)]       #DegF -40-254  #ECT for grade load high spd. fan turn on, lower than HSFECT2_SH Base Value: 234 Resolution: 2.0 {7}
SYM 13B6F "HSFECT2_SH"              #[SY=flo(X/0.5)]     #DegF -40-254  #ECT for normal high spd. fan turn on, higher than HSFECT1_SH Base Value: 242.0 Resolution: 2.00 {2}
#SYM13B6F "S.0x13B6F"               #[SY=flo(X*1)]       #              # {3}
SYM 13B70 "HSFECT_CL"               #[SY=flo(X/0.5)]     #DegF -40-254  #Max ECT to turn off HED Base Value: 230. Resolution: 2.0 {2}
#SYM13B70 "S.0x13B70"               #[SY=flo(X*1)]       #              # {3}
SYM 13B71 "HSFRPM"                  #[UY=flo(X*1)]       #RPM 0-4080    #Min. RPM for grade load high spd. fan Base Value: 1800. Resolution: 16.0 {7}
SYM 13B72 "HSFVS"                   #[UY=flo(X*1)]       #MPH 0-127.5   #Max. VSBAR for grade load high spd. fan Base Value: 40.0 Resolution: 0.50 {7}
SYM 13B73 "LSFECT_CL"               #[SY=flo(X/0.5)]     #DegF -40-254  #Max ECT to turn off EDF Base Value: 212. Resolution: 2.0 {2}
#SYM13B73 "S.0x13B73"               #[SY=flo(X*1)]       #              # {3}
SYM 13B74 "LSFECT_SH"               #[SY=flo(X/0.5)]     #DegF -40-254  #Min ECT for low speed fan Base Value: 216.Resolution: 2.0 {2}
#SYM13B74 "S.0x13B74"               #[SY=flo(X*1)]       #              # {3}
SYM 13B75 "LSFVS_CH"                #[UY=flo(X/2)]       #MPH 0-127.5   #Minimum vehicle speed to turn off EDF Base Value: 48.0  Resolution: 0.50 {2}
SYM 13B76 "LSFVS_SL"                #[UY=flo(X/2)]       #MPH 0-127.5   #Maximum vehicle speed for LSF due to A/C on Base Value: 42.0  Resolution: 0.50  {7}
SYM 13B77 "LSF_RLY_PRCT"            #[UY=flo(X*1)]       #Sec 0-63.75   #Time to delay turn off of LSF after it is requested, to prevent relay damage. Base Value: 4.0 Resolution: 0.25 {7}
SYM 13B78 "FC_STA_DLY"              #[UY=flo(X*1)]       #Sec 0-30      #Fan enable after start delay Base Value: 5.0 Resolution: 1.0  {7}
SYM 13B79 "OSM_EDF_DLY"             #[UY=flo(X*1)]       #Sec 0-31.875  #Time delay before energizing EDF output due to output state control Base Value: 1.00 Resolution: 0.125 {7}
SYM 13B7A "OSM_HEDF_DLY"            #[UY=flo(X*1)]       #Sec 0-31.875  #Time delay before energizing HEDF output due to output state control Base Value: 3.0 Resolution: 0.125 {7}
SYM 13B7B "ACPRE_LSF_CL"            #[UY=flo(X*1)]       #PSI 0-510     #A/C pressure below which control returns to VS/ECT Base Value: 240.0 Resolution: 2.0 {3}
SYM 13B7C "ACPRE_LSF_SH"            #[UY=flo(X*1)]       #PSI 0-510     #A/C pressure to turn on LSF Base Value: 260.0 Resolution: 2.0 {7}
SYM 13B7D "HEDF_UPOD_HP"            #[UY=flo(X*1)]       #FLAG 0-1        #Hardware present switch to indicate that the high speed fan is UPOD controlled. Base Value: 1 Resolution: 1 {7}
SYM 13B7E "EDF_LOC_??"                 #[UY=flo(X*1)]       #X 0-2         #EDF output pin selector.  0= pin 28, 1 = pin 45, 2 = pin 19  Base Value: 0 {7}
SYM 13B7F "ACL_PLSE_HP"                                  #              #Adjustable Shock Control SW {7}
#SYM 13B7F "ACL_PLSE_HP"             :B0                  #              #Adjustable Shock Control SW {7}
SYM 13B80 "HPACL"                                        #              #Adjustable Shock Control HW Present {7}
#SYM 13B80 "HPACL"                   :B0                  #              #Adjustable Shock Control HW Present {7}
SYM 13B82 "S.0x13B82"               #[UW=flo(X*1)]       #              # {3}
SYM 13B84 "SHKTP"                   #[UW=flo(X/64)]      #AD Cnts       #Shock Control TP Min {7}
SYM 13B86 "GEAR_CHG"                #[UW=flo(X/4194304)] #lb/min        #Ride Control AM Min {7}
SYM 13B88 "S.ACL_TMR"               #[UY=flo(X*1)]       #              # SAME AS RZSA L87D04 {7}
SYM 13B89 "S.0x13AF9"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x13AF9" L87D18 VSBAR Limit {7}
SYM 13B8A "S.0x13AFA"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x13AFA" L87D11 VSBAR Limit {7}
SYM 13B8B "S.0x13AFB"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x13AFB" L87C64 VSBAR Limit {7}
SYM 13B8C "S.0x13AFC"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x13AFC" L87D2C VSBAR Limit {7}
SYM 13B8E "S.0x13B8E"               #[UW=flo(X*1)]       #              # {3}
SYM 13B90 "S.0x13B00"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x13B00" L87C7A LOAD DELTA Limit {7}
SYM 13B92 "TP_ACL_TST"              #[UW=flo(X/64)]      #AD Cnts       #ACL KOEO TP Min {7}
SYM 13B94 "S.0x13B94"               #[UY=flo(X*1)]       #              # {3}
SYM 13B9A "S.0x13B9A"               #[SW=flo(X*1)]       #              # {3}
SYM 13B9C "S.0x13B9C"               #[SW=flo(X*1)]       #              # {3}
SYM 13B9E "S.0x13B9E"               #[UW=flo(X*1)]       #              # {3}

SYM 13BA0 "NOVSCNT"                 #[UY=flo(X*1)]       #cts           #N/V Counts to Validate {7}
SYM 13BA2 "NOVSDIF"                 #[UW=flo(X/16384)]   #ratio         #Gear Change Ratio {7}
SYM 13BA4 "RT_FIFTH_GR"             #[UW=flo(X/16384)]   #Ratio         #Manual 5th Gear Ratio {7}
SYM 13BA6 "RT_FOURTH_GR"            #[UW=flo(X/16384)]   #Ratio         #Manual 4th Gear Ratio {7}
SYM 13BA8 "RT_THIRD_GR"             #[UW=flo(X/16384)]   #Ratio         #Manual 3rd Gear Ratio {7}
SYM 13BAA "RT_SECOND_GR"            #[UW=flo(X/16384)]   #Ratio         #Manual 2nd Gear Ratio {7}
SYM 13BAC "RT_FIRST_GR"             #[UW=flo(X/16384)]   #Ratio         #Manual 1st Gear Ratio {7}
SYM 13BAE "TGR1"                    #[UW=flo(X/16384)]   #GEAR RATIO    #Manual Trans 1st Gear Ratio {7}
SYM 13BB0 "TGR2"                    #[UW=flo(X/16384)]   #GEAR RATIO    #Manual Trans 2nd Gear Ratio {7}
SYM 13BB2 "TGR3"                    #[UW=flo(X/16384)]   #GEAR RATIO    #Manual Trans 3rd Gear Ratio {7}
SYM 13BB4 "TGR4"                    #[UW=flo(X/16384)]   #GEAR RATIO    #Manual Trans 4th Gear Ratio {7}
SYM 13BB6 "TRAC_MAN_TC"             #[UW=flo(X/1024)]    #sec           #Manual Trans Gear Filter TC {7}
SYM 13BB8 "TRAC_VS_MAN"             #[UW=flo(X/512)]     #MPH           #Min MPH to calc Gear {7}
SYM 13BBA "NOVSBASE_(NVBase)"       #[UY=flo(X/2)]       #RPM / MPH     #N/V Manual Trans {7}
SYM 13BBE "S.0x13BBE"               #[UW=flo(X*1)]       #              # {3}
SYM 13BC0 "TRAC_AIRSW"              #[UY=flo(X*1)]       #SW 0-1        #Traction control switch; 1 = do airflow control Base Value: 1 {7}
SYM 13BC2 "TP_FSC"                  #[UW=flo(X*1)]       #COUNTS 0-1023 #Throttle breakpoint used to define 'wide open throttle' in FSC feature. Resolution: 1 Base Value: 1000 SAME AS RZASA "S.0x13B28" L99761 TP_REL Limit {7}
SYM 13BD2 "S.0x13BD2"               #[UY=flo(X*1)]       #              # {3}
SYM 13BD3 "S.0x13BD3"               #[UY=flo(X*1)]       #              # {3}
SYM 13BD4 "KAM_NO_RESET"            #[UY=flo(X*1)]       #X 0-1         #SWITCH WHICH INDICATES IF KAM SHOULD BE RESET UPON AN EGO FAILURE; 1 ->DO NOT RESET KAM. Base Value: 0 {7}
SYM 13BD6 "ALT_CAL_DIST"            #[UW=flo(X*1)]       #              #Distance traveled before alternate calibration is revoked, miles. SAME AS RZASA "S.0x13B2A" L884E7 {7}
SYM 13BD8 "S.0x13BD8"               #[UW=flo(X*1)]       #              # {3}
SYM 13BDA "S.FLF_HOLD_TMR"          #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x13B2E" L0DBA9 {7}
SYM 13BDB "COOL_MIL_SW"             #[UY=flo(X*1)]       #SW            #Failsafe Cooling MIL SW {7}
SYM 13BDC "S.0x13BDC"               #[UY=flo(X*1)]       #              # {3}
SYM 13BDD "P1000SW"                 #[UY=flo(X*1)]       #SW            #Rediness Monitor Incomplete {7}
SYM 13BDE "FLF_OR_NG_SW"            #[UY=flo(X*1)]       #SW 0-2        #Flex fuel or CNG switch. 0 = Neither, 1=Flex Fuel, 2= CNG {7}
SYM 13BE0 "MIN_IMRC_RPM"            #[UW=flo(X*1)]       #RPM 0-16383.75#minimum engine RPM to perform IMRC OSC substituion Base Value: 400 #SAME AS RZASA "S.0x13B30" L97085 RPM limit {7}
SYM 13BE2 "VSBAR_MIN"               #[UY=flo(X/2)]       #MPH           #Inferred Movement MPH Min {7}
SYM 13BE4 "OSC_TANK_MIN"            #[SW=flo(X*1)]       #IN. WATER -64-63.990002#MINIMUM TANK PRESSURE TO ALLOW OCS SUBSTITUTION OF PG_DC AND PGM_CVS_DC PARAMETERS Base Value: -10.0 #SAME AS RZASA "S.0x13B34" L96F71 PGM_TANK_PRS Limit {7}
SYM 13BE6 "OSC_HEGO_TM"             #[UY=flo(X*1)]       #Sec 0-255     #Time delay before allowing OSC of HEGO heaters #SAME AS RZASA "S.0x13B36" L96F43 ATMR3 Limit {7}
SYM 13BE7 "INJON_TM"                #[UY=flo(X*1)]       #Sec 0-2.5     #Maximum amount of time to turn on fuel injectors while engine is off Base Value: 2.50 {7}
SYM 13BE8 "INJOFF_TM"               #[UY=flo(X*1)]       #Sec 0-31.75   #Maximum amount of time to turn off fuel injectors while engine is on Base Value: 2.50 #SAME AS RZASA "S.0x13B38" L9706E INJOFF_TMR Limit {7}
SYM 13BEA "IDLMAF"                  #[UW=flo(X*1)]       #LBM/MIN 0-2   #MAXIMUM AM AT IDLE UNITS ARE LB./MIN Base Value: 0.50 {7}
SYM 14334 "ACPSW_HP"                                     #              #A/C Pres SW Present {0}
SYM 14334 "ACPSW_HP"                :B0                  #              #A/C Pres SW Present {2}
#SYM14334 "S.0x14334"               #[UY=flo(X*1)]       #              # {3}
SYM 14336 "IACPSW_BKPT"             #[UW=flo(X*1)]       #Vdc 0-1023.960022#A/C Medium pressure switch analogue input breakpoint Base Value: 512 Resolution: 0.015625 {7}
SYM 14338 "ACPSEN_HP"                                    #              #A/C Pressure Sensor Present {0}
SYM 14338 "ACPSEN_HP"               :B0                  #              #A/C Pressure Sensor Present {2}
#SYM14338 "S.0x14338"               #[UY=flo(X*1)]       #              # {3}
SYM 14339 "P1461_TM_LMT"            #[UY=flo(X*1)]       #Sec 0-31.875  #Time fault present before setting code 1461 Base Value: 1 Resolution: 0.125 {7}
SYM 1433A "P1462_TM_LMT"            #[UY=flo(X*1)]       #Sec 0-31.875  #Time fault present before setting code 1462 Base Value: 1 Resolution: 0.125 {7}
SYM 1433B "P1463_LIMIT"             #[UY=flo(X*1)]       #EVENTS 0-255  #Number of consecutive failures of Insufficient A/C head pressure rise before setting code P1463 Base Value: 0 Resolution: 1 {7}
SYM 1433C "AC_PRES_DLTA"            #[UY=flo(X*1)]       #PSI 0-510     #AC Pressure Delta for code 1463 Base Value: 30 Resolution: 2 {7}
SYM 1433D "AC_PRES_TM"              #[UY=flo(X*1)]       #Sec 0-63.900002#Time period over which AC Pressure is monitored for fault 1463 Base Value: 15 Resolution: 0.25 {7}
SYM 1433E "ACPRES_CL"               #[UY=flo(X*1)]       #PSI 0-510     #A/C Head Pressure to Clear disable flag Base Value: 250 Resolution: 2 {7}
SYM 1433F "ACPRES_FMEM"             #[UY=flo(X*1)]       #PSI 0-510     #FMEM value for ACPRES. Base Value: 450 Resolution: 2 {7}
SYM 14340 "ACPRES_SH"               #[UY=flo(X*1)]       #PSI 0-510     #A/C Head Pressure to disable A/C clutch Base Value: 420 Resolution: 2 {7}
SYM 14341 "ACPRE_HSF_CL"            #[UY=flo(X*1)]       #PSI 0-510     #AC Pressure to turn off HSF Base Value: 300 Resolution: 2 {7}
SYM 14342 "ACPRE_HSF_SH"            #[UY=flo(X*1)]       #PSI 0-510     #AC Pressure to turn on HSF Base Value: 350 Resolution: 2 {7}
SYM 14344 "IACPRES_MAX"             #[UW=flo(X*1)]       #CNTS 0-1023   #Maximum allowable value of AC Pressure Base Value: 1000 Resolution: 1 {7}
SYM 14346 "IACPRES_MIN"             #[UW=flo(X*1)]       #CNTS 0-1023   #Minimum allowable value of AC Pressure Base Value: 5 Resolution: 1 {7}
SYM 14358 "BPCNTSMAX"               #[UW=flo(X*1)]       #CNTS 0-1023.984009#Max. acceptable A/D reading of analog BP sensor Base Value: 980 Resolution: 0.015625 {7}
SYM 1435A "BPCNTSMIN"               #[UW=flo(X*1)]       #CNTS 0-1023.984009#Min. acceptable A/D reading of analog BP sensor Base Value: 44 Resolution: 0.015625 {7}
SYM 1435C "BPCNTS_HI"               #[UW=flo(X*1)]       #CNTS 0-1023.984009#Maximum BP_CNTS value Base Value: 1022 Resolution: 0.015625 {7}
SYM 1435E "BPCNTS_LO"               #[UW=flo(X*1)]       #CNTS 0-1023.984009#Minimum BP_CNTS value Base Value: 1 Resolution: 0.015625 {7}
SYM 14360 "BPOFFS"                  #[SY=flo(X*1)]       #IN HG -16-15.875#BP sensor offset, signed (IBAP @ 0 counts) {7}
SYM 14361 "BPSLOPE"                 #[UY=flo(X*1)]       #IN HG/COUNTS 0-0.124512#Change in BP per change in A/D counts Base Value: 0.0365 Resolution: 0.000488 {7}
SYM 14362 "FILHYS"                  #[UY]                #X 0-20        #FMEM FILTER COUNT HYSTERESIS UNITS ARE FILTER COUNTS Base Value: 5 Resolution: 1 {7}
SYM 14364 "P0106_TC"                #[UW]                #Sec 0-16      #Fault filter time constant for BP out-of-range fault Base Value: 1 Resolution: 0.0625 {7}
SYM 14366 "P0107_TC"                #[UW]                #Sec 0-16      #Fault filter time constant for BP circuit low fault Base Value: 1 Resolution: 0.0625 {7}
SYM 14368 "P0108_TC                 #[UW]                #Sec 0-16      #Fault filter time constant for BP circuit high fault Base Value: 1 Resolution: 0.0625 {7}

SYM 1436C "FILFRC"                  #[UW=flo(X/256)]     #X             #Transient Filter Fraction {7}
SYM 1436E "FILFRC_IN"               #[UW=flo(X/256)]     #X             #Transient Filter Fraction (Tip-In Pump Shot) {7}
SYM 14370 "S.0x14370"               #[UY=flo(X*1)]       #              # {3}
SYM 14371 "SW_TA_UNLK"              #[           ]       #FLAG 0-1      #switch to enable unlock durring traction control event Base Value: 1 {7}
SYM 143B2 "CHT_TC"                  #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for filtered CHT Base Value: 1.2 Resolution: 0.000977 {7}
SYM 143B4 "COOL_CHT"                #[UY=flo(X*1)]       #Deg 0-510     #Normal delta temperature seen between ECT and CHT sensors Base Value: 20 Resolution: 2 {7}
SYM 143B5 "ECT_WUT"                 #[SY=flo(X*1)]       #Deg -40-255   #Min engine coolant for warm-up Base Value: 180 Resolution: 2 {7}
SYM 143B6 "IIVPWR"                  #[UW=flo(X*1)]       #Vdc 0-1023.984009#VREF Init. Value: 0. Resolution: 0.015625 {7}
SYM 143B8 "BIHP"                                         #X 0-1         #Brake input hardware present; 0 -> no, 1 -> yes Base Value: 0 {7}
SYM 143B9 "PSPSHP"                                       #ENUM 0-1      #POWER STEERING PRESSURE Switch 'Hardware Present' indicator (0 = NO, 1 = YES) Base Value: 0 {7}
SYM 143D2 "ACT_FMEM"                #[SY=flo(X*1)]       #Deg 0-250     #FMEM value for failed ACT sensor Base Value: 100 Resolution: 2 {7}
SYM 143D3 "SWCVS_CL"                #[UY=flo(X*1)]       #MPH           #Maximum vehicle speed to turn off Speed Warning Chime, mph SAME AS RZASA "S.0x1439E" {7}
SYM 143D4 "SWCVS_SH"                #[UY=flo(X*1)]       #MPH           #Minimum vehicle speed to turn on Speed Warning Chime, mph SAME AS RZASA "S.0x1439F" {7}
SYM 143D5 "SWC_HP"                                       #SW 0-1        #Speed Warning Chime Hardware Present 0 -> No SWC hardware present 1 -> SWC hardware present {7}
SYM 143D6 "INLRPM"                  #[UW=flo(X/4)]       #RPM 0-7000    #MAX RPM TO INCREMENT CTHTMR Base Value: 900 Resolution: 0.25 {3}
SYM 143D8 "INLRPH"                  #[UW=flo(X/4)]       #RPM 0-7000    #HYSTERESIS FOR INLRPM Base Value: 200 Resolution: 0.25 {3}
SYM 143DA "NIHYS"                   #[UY=flo(X*1)]       #sec  0-255    #HYSTERESIS TIME DELAY TO ENABLE CLOSED LOOP FUEL AFTER EXITTING NEUTRAL IDLE OPEN LOOP UNITS ARE SEC Base Value: 2 Resolution: 1 {7}
SYM 143DC "THBP_DECH"               #[UW=flo(X/64)]      #AD Cnts       #Crank Dechoke TPREL Min {2}
#SYM143DC "S.0x143DC"               #[UW=flo(X*1)]       #              # {3}
SYM 143DE "WOTADP_SW"                                    #X 0-1         #Switch to enable SADP mode at WOT operation Base Value: 0 {0}
SYM 143DE "WOTADP_SW"               :B0                  #              #Enable SADP Mode at WOT Test {2}
#SYM143DE "S.0x143DE"               #[UY=flo(X*1)]       #              # {3}
SYM 143EF "P1270_LVL"               #[UY=flo(X/256)]     #X             #P1270 Fault Threshold {2} SAME AS RZASA A2_??
#SYM143EF "S.0x143EF"               #[UY=flo(X*1)]       #              # {3}
SYM 143F0 "NIOLD"                   #[UY=flo(X*1)]       #sec  0-255    #MAX TIME TO ALLOW CLOSED LOOP FUEL IF IN NEUTRAL AT IDLE UNITS ARE SECONDS Base Value: 255 Resolution: 1.0 {7}
#SYM xxxx "NITMR1"                  #[UY=flo(X*1)]       #sec  0-255    #ATMR1 DELAY FOR FIXED IDLE TIMING Base Value: 0.0 Resolution: 1.0 {2}
#SYM xxxx "NITMR2"                  #[UY=flo(X*1)]       #sec  0-255    #ATMR1 DELAY FOR FIXED IDLE TIMING Base Value: 189 Resolution: 1.0 {2}
#SYM xxxx "NITMR3"                  #[UY=flo(X*1)]       #sec  0-255    #ATMR1 DELAY FOR FIXED IDLE TIMING Base Value: 75 Resolution: 1.0 {2}
#SYM xxxx "NITMR4"                  #[UY=flo(X*1)]       #sec  0-255    #ATMR2 DELAY FOR FIXED IDLE TIMING Base Value: 189 Resolution: 1.0 {2}
#SYM xxxx "NITMR5"                  #[UY=flo(X*1)]       #sec  0-255    #ATMR2 DELAY FOR FIXED IDLE TIMING Base Value: 0 Resolution: 1.0 {2}


SYM 14480 "FUL_BOILTEMP"            #[SY=flo(X/0.5)]     #deg F         #Fuel Rail Boiling Temp {2}
#SYM14480 "S.0x14480"               #[UY=flo(X*1)]       #              # {3}
SYM 14482 "FUL_BOIL_DP"             #[UW=flo(X/512)]     #psi           #Boiling Rail Pres Commanded {2}
#SYM14482 "S.0x14482"               #[UW=flo(X*1)]       #              # {3}
SYM 14484 "DYN_LMAX_LL"             #[UW=flo(X/32768)]   #Lambse        #Lambse Max Clip CL (LAMMAX) {2}
#SYM14484 "S.0x14484"               #[UW=flo(X*1)]       #              # {3}
SYM 14486 "DYN_LMAX_UL"             #[UW=flo(X/32768)]   #Lambse        #Lambse Min Clip CL (LAMMIN) {2}
#SYM14486 "S.0x14486"               #[UW=flo(X*1)]       #              # {3}
SYM 14488 "MAX_ROA_L"               #[UW=flo(1-X/32768)] #Lambse        #(LAMMIN) (LAMBDA) (KAMRF Matured) {2}
#SYM14488 "S.0x14488"               #[UW=flo(X*1)]       #              # {3}
SYM 1448A "MAX_ROA_R"               #[UW=flo(1+X/32768)] #Lambse        #(LAMMAX) (Lambda) (KAMRF Matured) {2}
#SYM1448A "S.0x1448A"               #[UW=flo(X*1)]       #              # {3}
SYM 14492 "OSS_HP"                  #[UY=flo(X*1)]       #X 0-1         #Output speed sensor hardware present switch; 1 -> OSS Present {7}
SYM 14494 "WOPEN"                   #[UW=flo(X/32768)]   #PIP period fraction#Knk Threshold Window Opening Beta {2}
#SYM14494 "S.0x14494"               #[UW=flo(X*1)]       #              # {3}
SYM 14496 "S.0x14496"               #[UW=flo(X*1)]       #              # {3}
SYM 14498 "KNKWIN_START"            #[UW=flo(X/32768)]   #              #Knock Detection Window Offset {7}
SYM 1449A "KNKWIN_LEN"              #[UW=flo(X/32768)]   #              #Knock Detection Window Length {7}
SYM 1449C "AICE3_EM_HP"                                  #              #AICE Emulator Hardware Present (Knk) {7}
SYM 1449C "AICE3_EM_HP"             :B0                  #              #AICE Emulator Hardware Present (Knk) {7}
SYM 1449D "S.0x1449D"               #[UY=flo(X*1)]       #              # {3}
SYM 1449E "NW_PLACEMENT"                                 #              #Knock Control Noise Window Placement {7}
#SYM 1449E "NW_PLACEMENT"            :B0                  #              #Knock Control Noise Window Placement {7}
SYM 1449F "S.0x1449F"               #[UY=flo(X*1)]       #              # {3}
SYM 144A0 "AICE3_MODE"              #[UY=flo(X*1)]       #x             #AICE VAL for Setup (knk) {2}
#SYM144A0 "S.0x144A0"               #[UY=flo(X*1)]       #              # {3}
SYM 144A1 "S.0x144A1"               #[UY=flo(X*1)]       #              # {3}
SYM 144A2 "S.0x144A2"               #[UY=flo(X*1)]       #              # {3}
SYM 144A3 "S.0x144A3"               #[UY=flo(X*1)]       #              # {3}
SYM 144AA "S.0x144AA"               #[UY=flo(X*1)]       #              # {3}
SYM 144AB "S.0x144AB"               #[UY=flo(X*1)]       #              # {3}
SYM 144AC "KNK_TH_MUL1"             #[UY=flo(X/32)]      #%             #Cyl 1-A Knk Detect Thres Multiplier {7}
SYM 144AD "KNK_TH_MUL2"             #[UY=flo(X/32)]      #%             #Cyl 3-B Knk Detect Thres Multiplier {7}
SYM 144AE "KNK_TH_MUL3"             #[UY=flo(X/32)]      #%             #Cyl 7-C Knk Detect Thres Multiplier {7}
SYM 144AF "KNK_TH_MUL4"             #[UY=flo(X/32)]      #%             #Cyl 2-D Knk Detect Thres Multiplier {7}
SYM 144B0 "KNK_TH_MUL5"             #[UY=flo(X/32)]      #%             #Cyl 6-E Knk Detect Thres Multiplier {7}
SYM 144B1 "KNK_TH_MUL6"             #[UY=flo(X/32)]      #%             #Cyl 5-F Knk Detect Thres Multiplier {7}
SYM 144B2 "KNK_TH_MUL7"             #[UY=flo(X/32)]      #%             #Cyl 4-G Knk Detect Thres Multiplier {7}
SYM 144B3 "KNK_TH_MUL8"             #[UY=flo(X/32)]      #%             #Cyl 8-H Knk Detect Thres Multiplier {7}
SYM 144B4 "KNK_TH_MUL9"             #[UY=flo(X/32)]      #%             #Cyl 9-I Knk Detect Thres Multiplier {7}
SYM 144B5 "KNK_TH_MUL10"            #[UY=flo(X/32)]      #%             #Cyl 10-J Knk Detect Thres Multiplier {7}
SYM 144B6 "KNK_TH_ADD1"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl A {7}
SYM 144B7 "KNK_TH_ADD2??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl B {7}
SYM 144B8 "KNK_TH_ADD3??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl C {7}
SYM 144B9 "KNK_TH_ADD4??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl D {7}
SYM 144BA "KNK_TH_ADD5??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl E {7}
SYM 144BB "KNK_TH_ADD6??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl F {7}
SYM 144BC "KNK_TH_ADD7??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl G {7}
SYM 144BD "KNK_TH_ADD8??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl H {7}
SYM 144BE "KNK_TH_ADD9??"             #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl i {7}
SYM 144BF "KNK_TH_ADD10??"            #[SY=flo(X/0.5)]     #X             #Knock Detection Threshold Adder Cyl J {7}


SYM 144C0 "S.0x144C0"               #[UY=flo(X*1)]       #              # {3}
SYM 144C2 "UP_ACCEL"                #[UW=flo(X*1)]       #Rate          #RPM Change Threshold Accel Knock Event Constants {7}
SYM 144C4 "DN_ACCEL"                #[UW=flo(X*1)]       #Rate          #RPM Change Threshold Decel Knock Event Constants {7}
SYM 144C6 "UP_FAST_EC"              #[UY=flo(X*1)]       #X             #Knock Control Event Constant Up Averaging Transients {7}
SYM 144C7 "DN_FAST_EC"              #[UY=flo(X*1)]       #X             #Knock Control Event Constant Down Averaging Transients {7}
SYM 144C8 "KNK_FAST_CNT"            #[UY=flo(X*1)]       #              #Pip Events Fast Constant After Transient {7}
SYM 144C9 "UP_NORM_EC"              #[UY=flo(X*1)]       #Constant      #Knock Control Event Constant Up Averaging {7}
SYM 144CA "DN_NORM_EC"              #[UY=flo(X*1)]       #Constant      #Knock Control Event Constant Down Averaging {7}
SYM 144CB "KW_MIN_DELAY"            #[UY=flo(X*1)]       #X             #Knock Detection Win Min Offset Pip Rising {7}
SYM 144CC "KNKTST_NMIN"             #[UW=flo(X*1)]       #RPM 0-8191    #Minimum RPM for knock sensor diagnostics test Base Value: 8191 Resolution: 1.0 {7}
SYM 144CE "KNK_SENSORS"             #[UY=flo(X*1)]       #X 0-15        #Number of knock sensors on vehicle Base Value: 0.0 Resolution: 1.0 {7}
SYM 144CF "S.0x144CF"               #[UY=flo(X*1)]       #              # {3}
SYM 144D0 "KIHP"                    #[UY=flo(X*1)]       #FLAG 0-1      #KNOCK HARDWARE PRESENT {7}
#SYM144D0 "S.0x144D0"               #[UY=flo(X*1)]       #              # {3}
SYM 144D1 "KNK_FAIL_INC"            #[UY=flo(X*1)]       #X 0-255       #Amount by which to update knock sensor FMEM counter in case of a failure event  Base Value: 1.0 Resolution: 1.0 {7}
SYM 144D2 "KNK_PASS_INC"            #[UY=flo(X*1)]       #X 0-255       #Amount by which to update knock sensor FMEM counter in case of a pass event  Base Value: 1.0 Resolution: 1.0 {7}
SYM 144D3 "KNK_FAIL_CNT"            #[UY=flo(X*1)]       #X 0-255       #Knock FMEM counter value at which knock sensor is declared in a failure state Base Value: 255.0 Resolution: 1 {7}
SYM 144D4 "KNKTST_MIL"              #[UY=flo(X*1)]       #FLAG 0-1      #Flag to indicate whether or not knock sensor diagnostics should light MIL Base Value: 0 Resolution: 1.0 {7}
SYM 144D5 "KNK_FMEM_CLR"            #[UY=flo(X*1)]       #X 0-1         #Re-enable knock control if the knock sensor recovers from a failure.  Allow re-enabling when set to 1 Base Value: 0. Resolution: 1.0 {3}
SYM 144D6 "KNK_MIN_RPM"             #[UW=flo(X*1)]       #RPM 0-8000    #Minimum engine speed to enable knock control Base Value: 500 Resolution: 0.25 {7}
SYM 144D8 "KNK_MAX_RPM"             #[UW=flo(X*1)]       #RPM 0-8000    #Maximum engine speed to enable knock control Base Value: 7000 Resolution: 0.25 {7}
SYM 144DA "KNK_MIN_LOAD"            #[UW=flo(X*1)]       #X 0-1         #Minimum load to enable knock control Base Value: 0.15 Resolution: 0.00005 {7}
SYM 144DC "KNK_DIS_TM"              #[UY=flo(X*1)]       #Sec 0-255     #Time since start for which knock is disabled Base Value: 1. {7}
SYM 144DD "KNK_MIN_ECT"             #[SY=flo(X*1)]       #DegF -40-254  #Minimum engine coolant temperature to enable knock control Base Value: 120 Resolution: 2.0 {7}
SYM 144DE "KNK_VERS"                #[UY=flo(X*1)]       #X             #Knock Control Version Selection (Knk Enable/Disable) {0}
SYM 144DF "SPK_IO_VERS"             #[UY=flo(X*1)]       #X 1-2         #Version of Spark I/O to be used.  1-> SAPW Line Spark Output, 2-> Serial Digital (SPI) Output {7}
SYM 144E0 "EDIS_BITRATE"            #[UY]                               # {7} COULD BE 4E0 _??
#SYM 144E0 "S.0x144E0"               #[UY=flo(X*1)]       #              # {3}
SYM 144E1 "EDIS_SLEW_FR"            #[UY=flo(X*1)]       #X 0-0         #Minimum Fraction of Previous Dwell Required  by the EDIS when Slewing Spark in the Advance Direction {7}
SYM 144E2 "SAPW_UP_SH"              #[UW=flo(X*1)]       #RPM 0-8000    #Eng speed set for SAPW_HIGH=1 Base Value: 1875 Resolution: 0.25 {3}
SYM 144E4 "SAPW_UP_CL"              #[UW=flo(X*1)]       #RPM 0-8000    #Eng speed clear for SAPW_HIGH Base Value: 1575 Resolution: 0.25 {3}
SYM 144E6 "REPET_SPK_LO"            #[UW=flo(X*1)]       #RPM 0-8000    #REPETITIVE SPARK ENABLED BELOW THIS RPM Base Value: 0 Resolution: 0.25 {7}
SYM 144E8 "REPET_SPK_HI"            #[UW=flo(X*1)]       #RPM 0-8000    #REPETITIVE SPARK DISABLED ABOVE THIS RPM Base Value: 8000 Resolution: 0.25 {7}
SYM 144EA "REP_SPK_DSRD"            #[UY=flo(X*1)]       #X 0-1         #REPETITIVE SPARK DESIERED WHEN SET TO 1 Base Value: 0 {7}



SYM 1455A "SPK_D_AIRCHG"            #[UW=flo(X*1)]       #LBM 0-0.015   #Minimum difference in cylinder air charge to allow a tip-in retard event  {7}
SYM 1455C "SPK_ARCH_MIN"            #[UW=flo(X*1)]       #LBM/PIP 0-0.015#Cylinder-to-cylinder difference in air charge to sense end of tip-in event {7}
SYM 1455E "TIPINC"                  #[UY=flo(X*1)]       #DEG 0-31.75   #ADVANCE PER PIP FOLLOWING A TIP-IN RETARD {7}
SYM 1455F "TIP_RMP_DLY"             #[UY=flo(X*1)]       #Pip Cycles    #Tip-In Retard Time Delay {2}
#SYM1455F "S.0x1455F"               #[UY=flo(X*1)]       #              # {3}
SYM 14560 "S.0x14560"               #[SY=flo(X*1)]       #              # {3}
SYM 14561 "SPUCLP"                  #[UY=flo(X*1)]       #Deg 32-55     #Upper limit spark clip Base Value: 53.5 Resolution: 0.25 {7}
SYM 14562 "SPK_CYL_ADDx_??"            #[           ]       #DEG 0-0       #Pre-production spark adder x=CYL NUMBER {7}


SYM 14570 "SPKAD_CYL8"              #[SW=flo(X/4)]       #*BTDC         #Global Spark Modifier Cyl H / 8 (SPK_CYL_ADD7) (P0XXX - Cyl A Circuit Malfunction) {2}
SYM 14576 "SPK_FGMOD_SW"            #[UY=flo(X*1)]       #FLAG 0-1      #Calibration switch to allow use of  SPK_ABS_CAL in the final foreground spark calc {7}
SYM 14578 "SPK_ABS_CAL"             #[UW=flo(X*1)]       #DEG -8192-8191.75#The absolute spark advance for calibration purposes only.  Used with SPK_FGMOD_SW {7}
SYM 1457A "SPK_UNDSP"               #[UY=flo(X/4)]       #Deg -30-60    #The spark advance for underspeed conditions Base Value: 10 Resolution: 0.25 {2}
#SYM1457A "S.0x1457A"               #[UW=flo(X*1)]       #              # {3}
SYM 1457C "FBS_ENTRY_TC"            #[UW=flo(X/1024)]    #Sec 0-63.99902#Time constant which paces the entry into feedback spark.Base Value: 4 Resolution: 0.000977 {2}
#SYM1457C "S.0x1457C"               #[UW=flo(X*1)]       #              # {3}
SYM 1457E "SPK_FBS_GAIN"            #[UW=flo(X/16384)]   #X 0-3.984375  #Feedback spark control proportional gain term.  Normally calibrated to one.Base Value: 1 Resolution: 0.015625 {2}
#SYM1457E "S.0x1457E"               #[UW=flo(X*1)]       #              # {3}
SYM 14580 "SPK_FBS_MIN"             #[SW=flo(X/128)]     #Deg CA -10-63.5#Most retarded spark allowed when in Feedback Spark.Base Value: 0 Resolution: 0.5 {2}
#SYM14580 "S.0x14580"               #[SW=flo(X*1)]       #              # {3}
SYM 14582 "S.0x14582"               #[UW=flo(X*1)]       #              # {3}
SYM 14584 "TR_DELTA"                #[UW=flo(X/32768)]   #X 0-1         #Deviation from TR_RES which controls entry into feedback spark state 2.Base Value: 0.03125 Resolution: 0.007812 {2}
#SYM14584 "S.0x14584"               #[UW=flo(X*1)]       #              # {3}
SYM 14586 "SPK_ALT_MIN"             #[SW=flo(X/128)]     #Deg CA -10-63.5#Most retarded spark allowed when in feedback spark and running anti plug fouling calibration.Base Value: 0 Resolution: 0.5 {2}
#SYM14586 "S.0x14586"               #[UW=flo(X*1)]       #              # {3}
SYM 14588 "SPK_FBS_DLT"             #[UW=flo(X/128)]     #Deg CA 0-63.75#Spark value which makes the minimum spark retard a DELTA from the min spark, for Idle speed control Base Value: 20 Resolution: 0.25 {2}
#SYM14588 "S.0x14588"               #[UW=flo(X*1)]       #              # {3}
SYM 1458A "CLLS_AT_PT"                                   #X 0-1         #Enables and disables the cold low load spark clip at part throttle Base Value: 1 Resolution: 1 {0}
SYM 1458A "B0_CLLS_AT_PT"           :B0                  #X 0-1         #Enables and disables the cold low load spark clip at part throttle Base Value: 1 Resolution: 1 {2}
#SYM1458A "S.0x1458A"               #[UY=flo(X*1)]       #              # {3}
SYM 1458B "CSSR_MN_MVAC"            #[UY=flo(X/8)]       #IN HG 0-31.875#Minimum allowable manifold vacuum during aggressive spark retard excursions Base Value: 5.0 Resolution: 0.125 {2}
#SYM1458B "S.0x1458B"               #[UY=flo(X*1)]       #              # {3}
SYM 1458C "STAB_LOLD_AM"            #[UW=flo(X/1024)]    #lbs/min 0-63.99902#Value of AM below which spark may be clipped for Stable Low Load conditions Base Value: 63.999020 Resolution: 0.000977 {2}
#SYM1458C "S.0x1458C"               #[UW=flo(X*1)]       #              # {3}
SYM 1458E "SPK_LOLD_STP"            #[UW=flo(X/1024)]    #Deg CA 0-63.999001#Spark advance step to maintain manifold vacuum or ISCDTY range of authority Base Value: 0 Resolution: 0.000977 {2}
#SYM1458E "S.0x1458E"               #[UW=flo(X*1)]       #              # {3}
SYM 14590 "CSSR_MAXISC"             #[UW=flo(X/32768)]   #FRAC OF ONE 0-1#Maximum allowable Idle Speed motor Duty Cycle during aggressive spark retard excursions Base Value: 0.9 Resolution: 0.00003 {2}
#SYM14590 "S.0x14590"               #[UW=flo(X*1)]       #              # {3}
SYM 14592 "ALT_CLLS_ENA"            #[UY=flo(X*1)]       #X 0-1         #Enable low load spark during alternate anti-plug fouling strategy when set to 1, disable low load spark when set to 0.Base Value: 0 Resolution: 1.0 {7}
SYM 14594 "SPK_ADD"                 #[SW=flo(X/4)]       #Deg -64-63.75 #Calibration adder to over-all spark equation.  Explicitly specificy spark advance with SPK_MUL = 0.Base Value: 0 Resolution: 0.5 {2}
#SYM14594 "S.0x14594"               #[UW=flo(X*1)]       #              # {3}
SYM 14596 "SPK_MUL"                 #[SW=flo(X/2048)]    #X-2-1.984375  #Calibration multiplier to over-all spark equation.  Set to zero and control spark with SPK_ADD.Base Value: 1 Resolution: 0.015625 {2}
#SYM14596 "S.0x14596"               #[SW=flo(X*1)]       #              # {3}
SYM 14598 "KACRAT"                  #[SW=flo(X/32)]      #Vdc 0-1023    #THROTTLE RATE TO ACTIVATE TIP IN MULTI-CYLLINDER KNOCK Base Value: 200 Resolution: 0.03125 {2}
#SYM14598 "S.0x14598"               #[SW=flo(X*1)]       #              # {3}
SYM 1459A "NTIP"                    #[UW=flo(X/4)]       #RPM 0-16383   #MAX RPM FOR TIP-IN RETARD Base Value: 2000 Resolution: 0.25 {2}
#SYM1459A "S.0x1459A"               #[UW=flo(X*1)]       #              # {3}
SYM 1459C "TIPLOD_CH"               #[UW=flo(X/32768)]   #X 0-1.99      #TIPLOD + HYSTERESIS Base Value: 0.23 Resolution: 0.000031 {2}
#SYM1459C "S.0x1459C"               #[UW=flo(X*1)]       #              # {3}
SYM 1459E "TIPLOD_SL"               #[UW=flo(X/32768)]   #FRAC 0-1.99   #Maximum Load to set CTFLG Base Value: 0.18 Resolution: 0.000031 {2}
#SYM1459E "S.0x1459E"               #[UW=flo(X*1)]       #              # {3}
SYM 145A0 "ECTIP"                   #[SY=flo(X/0.5)]     #DegF -40-254  #DISABLE TIP-IN LOGIC Base Value: 120 Resolution: 2 {2}
#SYM145A0 "S.0x145A0"               #[SY=flo(X*1)]       #              # {3}
SYM 145A1 "SPK_TIPAC_SW"            #[UY=flo(X*1)]       #FLAG 0-1      #Calibration switch to enable or disable air charge based tipin spark control  {7}
#SYM 145A2 "TQ_OSC_SW"                                    #              #OSCMOD Tip-In Control SW (SPK_TIPTP_SW) (87 Octane) {0}
#SYM 145A2 "TQ_OSC_SW"               :B0                  #              #OSCMOD Tip-In Control SW (SPK_TIPTP_SW) (87 Octane) {2}
SYM 145A2 "SPK_TIPTP_SW"            #[UY=flo(X*1)]       #FLAG 0-1      #Calibration switch to enable or disable throttle based tipin spark control {7}
SYM 145A3 "SPK_BDL_LAM"                                  #              #BDL Spark Always Active {0}
SYM 145A3 "SPK_BDL_LAM"             :B0                  #              #BDL Spark Always Active {2}
#SYM145A3 "S.0x145A3"               #[UY=flo(X*1)]       #              # {3}
SYM 145A4 "SPK_BASE_PM"             #[UY=flo(X*1)]       #Deg -32-31.75 #Degrees spark per percent methanol added to base spark Base Value: 0 Resolution: 0.25 {7}
SYM 145A5 "SPK_MBT_PM"              #[UY=flo(X*1)]       #Deg -32-31.75 #Degrees spark per percent methanol added to mbt spark Base Value: 0 Resolution: 0.25 {7}


SYM 155EA "TM_SFT_IN_??"               #[UW]                #mSec          #Word Timer [1C] SHOWS UP IN RZASA AS RP15 OR RBA EA (1580){7}


SYM 156C0 "TCNDT_SPK"               #[UW=flo(X/1024)]    #sec           #TC DNDT_SPK {2}
#SYM156C0 "S.0x156C0"               #[UW=flo(X*1)]       #              # {3}



SYM 15726 "LUGTIM"                  #[UY=flo(X*1)]       #Sec 0.125-25  #ENGINE LOAD TRANSITION TIME, SECONDS Base Value: 0.125 Resolution: 0.125 {7}
SYM 15727 "LUGSW"                   #[UY]                #FLAG 0-1      #LUGTMR LOGIC SWITCH Base Value: 0.0 Resolution: 1 {7}
SYM 15727 "B0_LUGSW"                :B0                  #FLAG 0-1      #LUGTMR LOGIC SWITCH Base Value: 0.0 Resolution: 1 {7} L_99C86
SYM 1574A "DEGPIP"                  #[UW=flo(X*1)]       #Deg 0-16383.75#Engine degrees per PIP period 90 degrees for 8 cylinder 120 degrees for 6 cylinder 180 degrees for 4 {7}
SYM 1574C "NUMCYL"                  #[UW=flo(X/32)]      ##             ## Cylinders Engine {2}
#SYM1574C "S.0x1574C"               #[UW=flo(X*1)]       #              # {3}
SYM 1574E "NUMCYL_0"                #[UY=flo(X*1)]       ##             #Number of Engine Cylinders (EDIS SAPW)
SYM 15750 "TCINJD"                  #[UW=flo(X/1024)]    #sec           #Injector Delay TC {2}
#SYM15750 "S.0x15750"               #[UW=flo(X*1)]       #              # {3}
SYM 15752 "INJ_STAGE_SW"            #[UY]                #X 0-1         #Multiple stage cylinder scheduling switch Base Value: 0.0 Resolution: 1.0 {7}
SYM 15753 "FG_DOL_SW"               #[UY=flo(X*1)]       #X 0-1         #Bypass switch when FUEL_SUM is not needed or calculated in background Base Value: 0 Resolution: 1 {7}
SYM 15754 "NCNT"                    #[UY=flo(X*1)]       #PIP_CTS       #Pip Count to Exit Crank {2}
#SYM15754 "S.0x15754"               #[UY=flo(X*1)]       #              # {3}
SYM 15755 "EGRMPT"                  #[UY=flo(X*1)]       #Secs 0-255    #EGRATE RAMP TIME FOR TCSTRT <= CTLOW, SECONDS {7}
SYM 15756 "EGR_RATE_ADD"            #[UY=flo(X*1)]       #-- 0-31.875   #Desired EGR flow rate development adder {7}
SYM 15757 "PFEHP"                   #[UY=flo(X*1)]       #SW            #EGR Type SW (Speed Density Note) {2}
#SYM15757 "S.0x15757"               #[UY=flo(X*1)]       # %/100 0-1.99 #EGR development multiplier {7}
SYM 15758 "EGR_MUL"                 #[UY=flo(X*1)]       #              # {7}
SYM 1575A "S.0x1575A"               #[UW=flo(X*1)]       #              # {3}
SYM 1575C "S.0x1575C"               #[UW=flo(X*1)]       #              # {3}
SYM 1575E "S.0x1575E"               #[UW=flo(X*1)]       #              # {3}
SYM 15760 "S.0x15760"               #[SW=flo(X*1)]       #              # {3}
SYM 15762 "S.0x15762"               #[UW=flo(X*1)]       #              # {3}
SYM 15764 "EPTZER_IV"               #[UW=flo(X*1)]       #COUNTS 0-1023 #Initial or default value for EPTZER and EPTBAR Base Value: 650 Resolution: 0.015625 {7}
SYM 15766 "TCEACT"                  #[UW=flo(X*1)]       #Secs 0-63.999001#TIME CONSTANT FOR EGRACT {7}
SYM 15768 "EGR_IMR_MUL"             #[UY=flo(X*1)]       # %/100 0-1.99 #EGR multiplier when IMRC is on {7}
SYM 1576A "S.0x1576A"               #[SW=flo(X*1)]       #              # {3}
SYM 1576C "S.0x1576C"               #[SW=flo(X*1)]       #              # {3}
SYM 1576E "EPTBAR_CH"               #[UW=flo(X*1)]       #COUNTS 0-1023 #Above this value, the EPT sensor is saturated {7}
SYM 15770 "EPTBAR_SL"               #[UW=flo(X*1)]       #COUNTS 0-1023 #Below this value, the EPT sensor is not saturated {7}
SYM 15772 "IERPMH"                  #[UW=flo(X*1)]       #RPM 0-4080    #IDLE RPM HYSTERISIS TERM FOR EPTZER UPDATE {7}
SYM 15774 "IXFRPR"                  #[SW=flo(X*1)]       #Vdc -10-10    #INVERSE OF XFREPT, H20 TO COUNTS {7}
SYM 15776 "MINDES_CL"               #[UW=flo(X*1)]       #-- 0-1.9      #The desired EGR mass, DESEM, below which the EGR is turned off {7}
SYM 15778 "MINDES_SH"               #[UW=flo(X*1)]       #-- 0-1.9      #The desired EGR mass, DESEM, above which the EGR is turned on {7}
SYM 1577A "TCDELPR"                 #[UW=flo(X*1)]       #Secs 0-63.900002#Time constant for filtering DELPR {7}
SYM 1577C "TCDP"                    #[UW=flo(X*1)]       #Secs 0-63.999001#TIME CONSTANT FOR DESDP {7}
SYM 1577E "TCEPT"                   #[UW=flo(X*1)]       #Secs 0-63.999001#TIME CONSTANT FOR EPT {7}
SYM 15780 "TCEPTZER"                #[UW=flo(X*1)]       #Secs 0-63.900002#Time constant for filtering EPTZER {7}
SYM 15782 "TCEPTZER_OFF"            #[UW=flo(X*1)]       #Secs 0-63.900002#Time constant for filtering EPTZER_OFF {7}
SYM 15784 "TKYON2"                  #[UW=flo(X/1024)]    #sec           #Key On Update Delay {7}
SYM 15786 "XFREPT"                  #[SW=flo(X*1)]       #Vdc -0.2-0.2  #EPT TRANSFER FUNCTION, COUNT TO H20 {7}
SYM 15788 "S.0x15788"               #[UW=flo(X*1)]       #              # {3}
SYM 1578A "EGR_HT_AM_MX"            #[UW=flo(X*1)]       #LB/MIN 0-63.990002#EGR OBDII Hose Test Air Mass Maximum Base Value: 10 Resolution: 0.25 {7}
SYM 1578C "EGR_402_AM"              #[UW=flo(X*1)]       #LBM/MIN 0-63.99902# Engine Air Mass required before forcing open the valve during P0402 retest.Base Value: 5 Resolution: 0.000977 {7}
SYM 1578E "EGR_WOT_AM"              #[UW=flo(X*1)]       #LBM/MIN 0-63.99902#Threshold Air Mass to initialite a wait before performing hose test Base Value: 10 Resolution: 0.000977 {7}
SYM 15790 "EGR_WOTAM_MX"            #[UW=flo(X/1024)]    #lb/min        #EGR Monitor Update Max AM {7}
SYM 15792 "EGR_OBD_NMAX"            #[UW=flo(X/4)]       #RPM           #EGR Monitor RPM Max {7}
SYM 15794 "S.0x15794"               #[UW=flo(X*1)]       #              # {3}
SYM 15796 "EGRTST_TM"               #[UW=flo(X*1)]       #Sec 0-1020    #Time required to run OBDII EGR tests before EGR is enabled Base Value: 20 Resolution: 4 {7}
SYM 15798 "TCSYS_DELPR"             #[UW=flo(X*1)]       #Sec 0-63.900002#TC for filtering SYS_DELPR Base Value: 0.10 Resolution: 0.001 {7}
SYM 1579A "S.0x1579A"               #[UY=flo(X*1)]       #              # {3}
SYM 1579B "EGR_TST_DC"              #[UY=flo(X*1)]       #%/100 0-1.99  #Minimum duty cycle for 1409 test Base Value: 0.35 Resolution: 0.0078 {7}
SYM 1579D "S.0x1579D"               #[UY=flo(X*1)]       #              # {3}
SYM 1579E "BP_EGRMON"               #[UY=flo(X*1)]       #INHG 0-31.875 #Allow EGR monitor to complete below this BP Base Value: 0 Resolution: 0.125 {7}
SYM 157A0 "S.0x157A0"               #[UW=flo(X*1)]       #              # {3}
SYM 157A2 "EGR_MIN_AMB"             #[SW=flo(X*1)]       #Deg -1024-1023#Min ambient temp for reporting of EGR faults Base Value: 32. Resolution: 0.031250 {7}
SYM 157A4 "EGR_MON_ACTH"            #[SY=flo(X*1)]       #Deg -256-254  #Allow EGR monitor to complete above this ACT Base Value: 254 Resolution: 2 {7}
SYM 157A5 "EGR_MON_ACTL"            #[SY=flo(X*1)]       #Deg -256-254  #Allow EGR monitor to complete below this ACT Base Value: -256 Resolution: 2 {7}
SYM 157A6 "EGR_REP_SW"              #[UY=flo(X*1)]       #EVENTS 0-2    #Enables EGR fault retesting.  1->retest always, 2-> retest after first pass {7}
SYM 157A8 "TCTQ_BAR"                #[UW=flo(X*1)]       #sec           # Time constanty for TQ_BAR {7}
SYM 157AA "TR3A_CLOSED"             #[UW=flo(X*1)]       #A/D CNTS 0-1023#Value below which TR3 switch is considered closed.Base Value: 1.30 SAME AS RZASA "S.0x15394" L89CB3 INDS Limit {7}
SYM 157AC "TR3A_OPEN"               #[UW=flo(X*1)]       #A/D CNTS 0-1023#Value below which TR3 switch is considered open.Base Value: 2.60 SAME AS RZASA "S.0x15396" L89CCD INDS Limit {7}
SYM 157AE "RT_CHAIN"                #[UW=flo(X/32768)]   #X             #Auto Trans DSDRPM Coast Down Multiplier (Coast_Frac) {7}
SYM 157B0 "TCDESN"                  #[UW=flo(X/1024)]    #sec           #DSDRPM Filter TC {7}
SYM 157B2 "CHGTM"                   #[UY=flo(X*1)]       #sec           #Delay to Decrement Discharge VOLTMR (FN821) {7}
SYM 157B3 "LOWVOL_CH"               #[UY=flo(X/16)]      #Volts         #Battery Charging Threshold Voltage {7}
SYM 157B4 "LOWVOL_SL"               #[UY=flo(X/16)]      #Volts         #Low Voltage Discharging Threshold (Min V to Increment Timer) {7}
SYM 157B5 "COAST_FRAC"              #[UY=flo(X/32)]      #fraction      #Min DSDRPM Neutral Coast Down (Auto Trans) {7}
SYM 157B6 "TCBPA"                   #[UW=flo(X/1024)]    #sec           #IPSIBR Update Rate {7}
SYM 157B8 "TCBPA_DER"               #[UW=flo(X/1024)]    #sec           #IPSIBR Derivative Update Rate {7}
SYM 157BA "LAM_MOD_MIN"             #[SW=flo(X*1)]       #              #Minimum value for LAMBSE MODn, NORM A/F {7}
SYM 157BC "LAM_MOD_MAX"             #[SW=flo(X*1)]       #              #Maximum value for LAMBSE MODn, NORM A/F {7}
SYM 157BE "S.0x157BE"               #[SW=flo(X*1)]       #              # {3}
SYM 157C0 "S.0x157C0"               #[SW=flo(X*1)]       #              # {3}
SYM 157C2 "S.0x157C2"               #[UY=flo(X*1)]       #              # {3}
SYM 157C4 "S.0x157C4"               #[UW=flo(X*1)]       #              # {3}
SYM 157C6 "S.0x157C6"               #[UY=flo(X*1)]       #              # {3}
SYM 157C8 "S.0x157C8"               #[UW=flo(X*1)]       #              # {3}
SYM 157CA "S.0x157CA"               #[UW=flo(X*1)]       #              # {3}
SYM 157CC "S.0x157CC"               #[UW=flo(X*1)]       #              # {3}
SYM 157CE "S.0x157CE"               #[UW=flo(X*1)]       #              # {3}
SYM 157D0 "S.0x157D0"               #[UW=flo(X*1)]       #              # {3}
SYM 157D2 "S.0x157D2"               #[UY=flo(X*1)]       #              # {3}
SYM 157D3 "JUMP_FRAC"               #[UY=flo(X/256)]     #xLAMBSE       #PTPAmp Jumpback Fraction (1 of 2) {2}
#SYM157D3 "S.0x157D3"               #[UY=flo(X*1)]       #              # {3}
SYM 157D4 "S.0x157D4"               #[UY=flo(X*1)]       #              # {3}
SYM 157D5 "PTPAMP_FK"               #[UY=flo(X*1)]       #X 0-0.996094  #Filter constant for averaging PTPAMP actual Base Value: 0.50 Resolution: 0.003906 {7}
SYM 157D6 "TD_ECT_MIN"              #[SY=flo(X*1)]       #Deg -256-256  #Minimum ECT to enable adaptive transport delay Base Value: -256 Resolution: 2 {3}
SYM 157D8 "S.0x157D8"               #[SW=flo(X*1)]       #              # {3}
SYM 157DA "S.0x157DA"               #[SW=flo(X*1)]       #              # {3}
SYM 157DC "RR_MULT_GAIN"            #[UY=flo(X*1)]       #x             #Blending Ramp Rate Gain {2}
#SYM157DC "S.0x157DC"               #[UW=flo(X*1)]       #              # {3}
SYM 157DE "S.0x157DE"               #[UY=flo(X*1)]       #              # {3}
SYM 157E0 "S.0x157E0"               #[SW=flo(X*1)]       #              # {3}
SYM 157E2 "S.0x157E2"               #[SW=flo(X*1)]       #              # {3}
SYM 157E4 "TD_LOADMAX"              #[UW=flo(X*1)]       #X 0-1.9999    #Maximum LOAD to enable adaptive transport delay Base Value: 0 Resolution: 0.000031 {7}
SYM 157E6 "TD_LOADMIN"              #[UW=flo(X*1)]       #X 0-1.9999    #Minimum LOAD to enable adaptive transport delay Base Value: 0 Resolution: 0.000031 {7}
SYM 157E8 "TD_NMAX"                 #[UW=flo(X*1)]       #RPM 0-16383.75#Maximum engine speed to enable adaptive transport delay Base Value: 16383.75 Resolution: 0.25 {7}
SYM 157EA "TD_NMIN"                 #[UW=flo(X*1)]       #RPM 0-16383.75#minimum engine speed to enable adaptive transport delay Base Value: 0 Resolution: 0.25 {7}
SYM 157EC "S.0x157EC"               #[UW=flo(X*1)]       #              # {3}
SYM 157EE "S.0x157EE"               #[UW=flo(X*1)]       #              # {3}
SYM 157F0 "S.0x157F0"               #[UW=flo(X*1)]       #              # {3}
SYM 157F2 "S.0x157F2"               #[UY=flo(X*1)]       #              # {3}
SYM 157F4 "S.0x157F4"               #[SW=flo(X*1)]       #              # {3}
SYM 157F6 "S.0x157F6"               #[SW=flo(X*1)]       #              # {3}
SYM 157F8 "S.0x157F8"               #[UY=flo(X*1)]       #              # {3}
SYM 157F9 "S.0x157F9"               #[UY=flo(X*1)]       #              # {3}
SYM 157FA "TD_BASE_SW"              #[UY=flo(X*1)]       #SWITCH 0-1    #Calibration switch to zero out transport delay Base Value: 0 Resolution: 1 {7}
SYM 157FB "S.0x157FB"               #[UY=flo(X*1)]       #              # {3}
SYM 157FC "FAOSC_ENA_SW"            #[UY=flo(X*1)]       #SWITCH 0-1    #Calibration switch for FAOSC fault lockout logic Base Value: 0 Resolution: 1 {7}
SYM 157FD "S.0x157FD"               #[UY=flo(X*1)]       #              # {3}
SYM 157FE "S.0x157FE"               #[UY=flo(X*1)]       #              # {3}
SYM 157FF "S.0x157FF"               #[SY=flo(X*1)]       #              # {3}
SYM 15800 "S.0x15800"               #[SY=flo(X*1)]       #              # {3}
SYM 15801 "S.0x15801"               #[UY=flo(X*1)]       #              # {3}
SYM 15802 "S.0x15802"               #[UY=flo(X*1)]       #              # {3}
SYM 15804 "S.0x15804"               #[UW=flo(X*1)]       #              # {3}
SYM 15806 "S.0x15806"               #[UW=flo(X*1)]       #              # {3}
SYM 15808 "S.0x15808"               #[SW=flo(X*1)]       #              # {3}
SYM 1580A "S.0x1580A"               #[SW=flo(X*1)]       #              # {3}
SYM 1580C "S.0x1580C"               #[UW=flo(X*1)]       #              # {3}
SYM 1580E "S.0x1580E"               #[UW=flo(X*1)]       #              # {3}
SYM 15810 "S.0x15810"               #[UW=flo(X*1)]       #              # {3}
SYM 15812 "S.0x15812"               #[SW=flo(X*1)]       #              # {3}
SYM 15814 "S.0x15814"               #[UW=flo(X*1)]       #              # {3}
SYM 15816 "S.0x15816"               #[UW=flo(X*1)]       #              # {3}
SYM 15818 "S.0x15818"               #[UW=flo(X*1)]       #              # {3}
SYM 1581A "S.0x1581A"               #[UW=flo(X*1)]       #              # {3}
SYM 1581C "S.0x1581C"               #[UW=flo(X*1)]       #              # {3}
SYM 1581E "TC_VEGO_FA"              #[UW=flo(X*1)]       #Sec 0-63.990002#TIME CONSANT FOR REAR HEGO FILTER TO BE USED IN FORE/AFT CONTROL Base Value: 0 Resolution: 0.001{3}
SYM 15820 "TC_VEGO_FA_I"            #[UW=flo(X*1)]       #Sec 0-63.990002#TIME CONSANT FOR REAR HEGO FILTER TO BE USED IN FORE/AFT INTEGRALCONTROL Base Value: 0 Resolution: 0.001{3}
SYM 15822 "S.0x15822"               #[UW=flo(X*1)]       #              # {3}
SYM 15824 "S.0x15824"               #[UW=flo(X*1)]       #              # {3}
SYM 15826 "S.0x15826"               #[SW=flo(X*1)]       #              # {3}
SYM 15828 "S.0x15828"               #[SW=flo(X*1)]       #              # {3}
SYM 1582A "S.0x1582A"               #[UW=flo(X*1)]       #              # {3}
SYM 1582C "S.0x1582C"               #[UW=flo(X*1)]       #              # {3}
SYM 1582E "S.0x1582E"               #[SW=flo(X*1)]       #              # {3}
SYM 15830 "S.0x15830"               #[SW=flo(X*1)]       #              # {3}
SYM 15832 "TCTPT"                   #[UW=flo(X/1024)]    #sec           #OSC TP_REL TC {2}
#SYM15832 "S.0x15832"               #[UW=flo(X*1)]       #              # {3}
SYM 15834 "COOL_KNK_ENA"            #[UY=flo(X*1)]       #X 0-1         #Flag to enable/disable knock control when in fail-safe cooling mode Base Value: 0 Resolution: 1.0 {7}
SYM 15836 "DELTA"                   #[UW=flo(X*1)]       #EVENTS 0-1023 #A/D COUNTS, CT/PT DELTA VALUE: THBP = DELTA + RATCH EEC-IV Base Value: 10 Resolution: 1 {7}
SYM 15838 "DELTA_CH"                #[UW=flo(X*1)]       #X 0-1023      #A/D COUNTS, DELTA PLUS HYSTERESIS VALUE Base Value: 30 Resolution: 1 {7}
SYM 1583A "HYST2"                   #[UW=flo(X*1)]       #Vdc 0-1023    #A/D COUNTS, PT TO WOT HYSTERESIS VALUE Base Value: 20 Resolution: 1 {7}
                            
SYM 15D18 "TCN"                     #[UW=flo(X/1024)]    #sec           #TC for RPM (NUMCYL) {2} SAME AS RZASA R4CD
#SYM15D18 "S.0x15D18"               #[UW=flo(X*1)]       #              # {3}
SYM 15D1A "TCNDBR"                  #[UW=flo(X/1024)]    #sec           #TC NDBAR {2}
#SYM15D1A "S.0x15D1A"               #[UW=flo(X*1)]       #              # {3}
SYM 15D1C "S.0x15D1C"               #[UW=flo(X*1)]       #              # {3}
SYM 15D1E "S.0x15D1E"               #[UW=flo(X*1)]       #              # {3}
SYM 15D20 "S.0x15D20"               #[UW=flo(X*1)]       #              # {3}
SYM 15D22 "S.0x15D22"               #[UW=flo(X*1)]       #              # {3}
SYM 15D24 "NSTALL"                  #[UW=flo(X*1)]       #RPM 0-500     #Engine stall speed to re-enter CRANK mode Base Value: 50 Resolution: 0.25{7}
SYM 15D26 "UNRPMH"                  #[UW=flo(X*1)]       #RPM 0-500     #Hysteresis for UNRPM Base Value: 150 Resolution: 0.25 {7}
SYM 15D28 "VCAMHP"                  #[UY=flo(X*1)]       #X 0-1         #Variable CAM timing hardware present; 1 -> VCT present 0 -> NO VCT HARDWARE {7}
SYM 15D2A "TCVBAT"                  #[UW=flo(X*1)]       #Sec 0-63.999001#VBAT time constant Base Value: 0.108 Resolution: 0.000977 {7}
SYM 15D2C "FAR_LEAN_LIM"            #[UY=flo(X*1)]       #X 0-1         #Lean limit of fuel multiplier Base Value: 0.5 Resolution: 0.007812 {7}
SYM 15D2D "FAR_RICH_LIM"            #[UY=flo(X*1)]       #X 1-1.992     #Rich limit of fuel multiplier Base Value: 1.5 Resolution: 0.007812 {7}
SYM 15D2E "FAR_MUL_RAMP"            #[UY=flo(X*1)]       #Sec 1-31.5    #Desired duration of fuel mass multiplier ramp Base Value: 1 Resolution: 0.5 {7}
SYM 15D2F "FAR_MUL_SW"              #[UY=flo(X*1)]       #X 0-0         #Switch to enable use of fuel mass multiplier for development, must be set with RCON Base Value: 0 Resolution: 1 {7}
SYM 15D30 "TP_HYS_OL"               #[UW=flo(X/64)]      #Cts           #OL TPREL Hyst (FN311) {2}
#SYM15D30 "S.0x15D30"               #[UW=flo(X*1)]       #              # {3}

SYM 15D32 "S.0x1593A"               #[ W]                               # SAME AS RZASA "S.0x1593A" {7}

SYM 15D34 "TRS_TYPE"                #[UY=flo(X*1)]       #SW            #TRS Sensor Type (Auto Trans) {7}
SYM 15D35 "AUTO_TRNS_SW"                                 #              #Auto Trans Present SW {0}
SYM 15D35 "AUTO_TRNS_SW"            :B0                  #              #Auto Trans Present SW {2}
#SYM15D35 "S.0x15D35"               #[UY=flo(X*1)]       #              # {3}
SYM 15D36 "HP_4X4L"                                      #X 0-1         #4x4 Low Input Hardware Present {7}
SYM 15D36 "HP_4X4L"                 :B0                  #X 0-1         #4x4 Low Input Hardware Present {7}
SYM 15D37 "SS_EO_LVL"               #[UY=flo(X*1)]       #X             #Shift Solenoid Fault Threshold (P0750, P0755, P1754) {7}
SYM 15D38 "SS_CKT_UP"               #[UY=flo(X*1)]       #              # {7}
SYM 15D39 "SS_CKT_LVL"              #[UY=flo(X*1)]       #              # {7}
SYM 15D3A "ETV_GAIN"                #[UY=flo(X*1)]       #Vdc 0-3.98    #ETVOCM VOLTAGE GAIN/ONE COUNT TV_COUNTS {7}
SYM 15D3C "INERTIA_ENG"             #[UW=flo(X/32768)]   #ft lbs/rpm/s  #Inferred Movement Engine Inertia {7}
SYM 15D3E "TCTQBRKS"                #[UW=flo(X/1024)]    #sec           #Filtered Net Eng TQ TC {7}
SYM 15D40 "TQ_CK_SW"                #[UY=flo(X*1)]       #SWITCH 0-1    #Calibration switch to enable/disable using torque as an inferred vehicle motion condition {7}
SYM 15D42 "TQ_CK_VMOV"              #[SW=flo(X*1)]       #FT-LBS -1020-1020#Engine torque above which vehicle motion can be inferred Base Value: 50 {7}
SYM 15D44 "TQ_VMOV"                 #[SW=flo(X*1)]       #FT-LBS -1020-1020#Transmission input torque above which vehicle motion may be inferred Base Value: 40 {7}
SYM 15D46 "S.0x18408"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x18408" L8B137 TRANS_TQ_IN Limit {7}
SYM 15D48 "S.0x183F6"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x183F6"L8B14B TOTMISFIL Limit {7}
SYM 15D4A "OTEMP_EXIT_S"            #[SW=flo(X*1)]       #Degs -4096-4095.875 #Temperature below which the otemp failure mode is exitted-signed value SAME AS RZASA "S.0x16912" L8B318 TOT Limit {7}
SYM 15D4C "TOT_OTEMP_S"             #[SW=flo(X*1)]       #Degs -4096-4095.875 #temperature above which the trans. overtemp. fault filter is called-signed value SAME AS RZASA "S.0x1692C" L8B305 TOT Limit {7}
SYM 15D4E "OTEMP_TIM"               #[UY=flo(X*1)]       #Secs 0-31.875 #Maximum time TOT can be above the overtemperature value without setting a fault code SAME AS RZASA "S.0x16914" L8B355 TOT Limit {7}
SYM 15D50 "TP_DIF_MX"               #[UW=flo(X*1)]       #COUNTS 0-255  #Max change in TP_REL under which a break away will be recognized SAME AS RZASA "S.0x168FA" L8C118 TP_REL Limit {7}
SYM 15D52 "NOVCNT"                  #[UY=flo(X*1)]       #events        #N/V KAM Update Rate {7}
SYM 15D53 "MX_SMPL_CNT"             #[UY=flo(X*1)]       #X 0-255       #Maximum number of 'bad' samples taken for a single time in a gear - allows multiple events before a code stored {7}
SYM 15D54 "RT4X4L"                  #[UW=flo(X*1)]       #X 0-3.99      #4X4 LOW TRANSFER CASE RATIO UNITS: DIMENSIONLESS {7}
SYM 15D56 "RTNVMX"                  #[UW=flo(X/128)]     #X 0-3.99      #MAXIMUM VALID RT_NOVS_KAM VALUE UNITS: DIMESIONLESS {7}
SYM 15D58 "RTNVMN"                  #[UW=flo(X/128)]     #X 0-3.99      #MINIMUM VALID RT_NOVS_KAM VALUE UNITS: DIMENSIONLESS {7}
SYM 15D5A "MLUS_MX_TOT"             #[SW=flo(X*1)]       #Deg -4096-4095.875#TOT high temp limit to test MLUS SAME AS RZASA "S.0x18382" L8BFFD TOT Limit {7}
SYM 15D5C "S.TCC_TST_TMR"           #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x183D5" L8BD0E {7}
SYM 15D5D "S.TCC_TST_TMR"           #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x183DA" L8BD32 {7}
SYM 15D5E "S.0x183E4"               #[SW=flo(X*1)]       #              # SAME AS RZASA "S.0x183E4" L8BD6F TQ_BRK_SBAR Limit {7}
SYM 15D60 "S.0x183E6"               #[SW=flo(X*1)]       #              # SAME AS RZASA "S.0x183E6" L8BD76 TQ_BRK_SBAR Limit {7}
SYM 15D62 "S.0x1693A"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1693A" L8BD5D TP_REL Limit {7}
SYM 15D64 "S.0x1693C"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1693C" L8BD64 TP_REL limit {7}
SYM 15D66 "S.0x183D7"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x183D7" L8BDC5 TCC_OK_CTR Limit {7}
SYM 15D67 "S.0x183D8"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x183D8" L8BE35 TCC_TST_CTR Limit {7}
SYM 15D68 "TCC_LK_UP"               #[UY=flo(X*1)]       #COUNTS 0-255  #Fault filter upcount for TCC lock test {7}
SYM 15D69 "TCC_LK_LVL"              #[UY=flo(X*1)]       #COUNTS 0-255  #fault threshold for TCC lock test SAME AS RZASA "S.0x183D4" L8C03F TCC_LK_FIL Limit {7}
SYM 15D6A "S.0x15D6A"               #[UY=flo(X*1)]       #              # {3}
SYM 15D6B "TCC_MIL_SW"              #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable MIL illumination for TCC functional fualts {7}
SYM 15D6C "TCC_LK_CNT"              #[UY=flo(X*1)]       #X 0-255       #Number of good speed ratio samples required to pass TCC lock test {7}
SYM 15D6D "TCC_UNLK_CNT"            #[UY=flo(X*1)]       #X 0-255       #Number of good speed ratio samples required to pass TCC unlock test SAME AS RZASA "S.0x183D9" L8BEEE TCC_TST_CTR Limit {7}
SYM 15D6E "S.0x183D2"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x183D2" L8BE49 TCC_ERR_CTR Limit {7}
SYM 15D70 "S.0x1691C"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1691C" L8BDE2 SPD_RATIO Limit {7}
SYM 15D72 "SR_LK_DLT"               #[UW=flo(X*1)]       #X 0-3.999939  #Minimum rise in SPD_RATIO required to pass TCC lock test SAME AS RZASA "S.0x16918" L8B7FE SR_STRT_TST Adder {7}
SYM 15D74 "SR_UNLK_DLT"             #[UW=flo(X*1)]       #X 0-3.999939  #Speed ratio unlock delta; minimum required speed ratio decrease to pass the TCC unlock test SAME AS RZASA "S.0x1691E" L8BEC6 SR_STRT_TST Limit {7}
SYM 15D76 "S.0x183D0"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x183D0" L8BDFF BCSDC_OUT Limit {7}
SYM 15D78 "S.0x16922"               #[SW=flo(X*1)]       #              # SAME AS RZASA "S.0x16922" L8BE13 BCSDC_OUT Limit {7}
SYM 15D7A "TCLK_TPSUB"              #[UW=flo(X*1)]       #COUNTS 0-1023.984009#Maximum amount TP can drop during TCC lock test {7}
SYM 15D7C "TCUNLK_TPSUB"            #[UW=flo(X*1)]       #COUNTS 0-1023.984009#Maximum amount TP can drop during TCC unlock test SAME AS RZASA "S.0x1692A" L8BEA5 {7}
SYM 15D7E "TCLK_TPADD"              #[UW=flo(X*1)]       #COUNTS 0-1023.984009#Maximum amount TP can rise during TCC lock test SAME AS RZASA "S.0x16924" L8BF6A {7}
SYM 15D80 "TCUNLK_TPADD"            #[UW=flo(X*1)]       #COUNTS 0-1023.984009#Maximum amount TP can rise during TCC unlock test SAME AS RZASA "S.0x16928" L8BEB2 {7}
SYM 15D82 "TCLK_VSADD"              #[UY=flo(X*1)]       #MPH 0-127.5   #Maximum amount vehicle speed can rise during TCC lock test SAME AS RZASA "S.0x183DB" L8BF48 {7}
SYM 15D83 "TCLK_VSSUB"              #[UY=flo(X*1)]       #MPH 0-127.5   #Maximum amount vehicle speed can drop during TCC lock test SAME AS RZASA "S.0x183DC" L8BF37 VS_STRT_TST Subtractor {7}
SYM 15D84 "TCUNLK_VSADD"            #[UY=flo(X*1)]       #MPH 0-127.5   #Maximum amount vehicle speed can rise during TCC unlock test SAME AS RZASA "S.0x183E0" L8BE90 {7}
SYM 15D85 "TCUNLK_VSSUB"            #[UY=flo(X*1)]       #MPH 0-127.5   #Maximum amount vehicle speed can drop during TCC unlock test SAME AS RZASA "S.0x183E1" L8BE7F  {7}
SYM 15D86 "S.0x15D86"               #[UY=flo(X*1)]       #              # {3}
SYM 15D87 "MLUS_UPCNT"              #[UY=flo(X*1)]       #COUNTS 0-255  #Converter clutch excessive slip error upcount {7}
SYM 15D88 "S.0x15D88"               #[SW=flo(X*1)]       #              # {3}
SYM 15D8A "S.0x15D8A"               #[SW=flo(X*1)]       #              # {3}
SYM 15D8C "S.0x15D8C"               #[UY=flo(X*1)]       #              # {3}
SYM 15D8D "S.0x15D8D"               #[UY=flo(X*1)]       #              # {3}
SYM 15D8E "VSGRV4"                  #[UY=flo(X*1)]       #MPH 0-127.5   #Minimum vehcile speed to run the 4th gear open TCC ratio test for failures to 1st , 2nd or 3rd  SAME AS RZASA "S.0x183EC" L8BA66 {7}
SYM 15D8F "VSGRV3"                  #[UY=flo(X*1)]       #MPH 0-127.5   #Minimum vehcile speed to run the3rd gear open TCC ratio test for failures to 1st or 2nd  SAME AS RZASA "S.0x183EB" L8BA5A {7}
SYM 15D90 "VSGRV2"                  #[UY=flo(X*1)]       #MPH 0-127.5   #Minimum vehcile speed to run the 2nd gear open TCC ratio test for failures to 1st SAME AS RZASA "S.0x183EA" L8BA49 {7}
SYM 15D91 "RT_ERR_LVL"              #[UY=flo(X*1)]       #X 0-255       #Ratio error fautl threshold {7}
SYM 15D92 "NEGRVMIN"                #[UW=flo(X*1)]       #RPM 0-16383.75#Minimum engine speed to allow gear ratio calculation {7}
SYM 15D94 "RT_LOW_TOL"              #[UY=flo(X*1)]       #X 0-0.99      #Low ratio error tolerance SAME AS RZASA "S.0x183AB" L8BA70 {7}
SYM 15D96 "NOGRVMIN"                #[UW=flo(X*1)]       #RPM 0-16383.75#Minimum output shaft speed to allow gear ratio test entry  {7}
SYM 15D98 "RT_ERR_UP"               #[UY=flo(X*1)]       #X 0-255       #Ratio error upcount {7}
SYM 15D99 "ISIG_ENA_LVL"            #[UY=flo(X*1)]       #X 0-255       #Number of shift errors required to enable inductive signature for shift solenoids SAME AS RZASA "S.0x15A86" L8277A P078FIL Limit {7}
SYM 15D9A "ISPWM_ON_LVL"            #[UY=flo(X*1)]       #X 0-255       #Threshold to determine if the PWM solenoid is mechanically 'on' when commanded 'off', for enabling TCC ISIG testing SAME AS RZASA "S.0x15A88" L827F3 PWM_ON_CNT Limit {7}
SYM 15D9B "ISTCC_ENALVL"            #[UY=flo(X*1)]       #X 0-255       #Number of TCC errors required to enable inductive signature for TCC solenoid SAME AS RZASA "S.0x15A89" L827D2 TCC_LK_FIL Limit {7}
SYM 15D9C "IS_OK_LVL"               #[UY=flo(X*1)]       #X 0-255       #Number of 'good' inductive signature events required to call the solenoid montiored {7}
SYM 15D9D "SS1_IS_SW"                                    #              #Shift Sol A Test SW {7}
#SYM 15D9D "SS1_IS_SW"               :B0                  #              #Shift Sol A Test SW {7}
SYM 15D9E "SS2_IS_SW"                                    #              #Shift Sol B Test SW {7}
#SYM 15D9E "SS2_IS_SW"               :B0                  #              #Shift Sol B Test SW {7}
SYM 15D9F "IS_SS_TRPSW"             #[UY=flo(X*1)]       #SWITCH 0-1    #Switch to enable/disable counting shift solenoid inductive signature test as part of a trip  {7}
SYM 15DA0 "S.0x15DA0"               #[UY=flo(X*1)]       #              # {3}
SYM 15DA1 "IS_ERR_LVL"              #[UY=flo(X*1)]       #X 0-255       #Fault threshold for inductive signature errors {7}
SYM 15DA2 "S.0x15DA2"               #[UY=flo(X*1)]       #              # {3}
SYM 15DA3 "IND_SIG_CAL"             #[UY=flo(X*1)]       #rate          #Inductive Signature Sample Rate (Auto Trans) {7}
SYM 15DA4 "VBAT_IS_MIN"             #[UY=flo(X*1)]       #VOLTS 0-15.5  #Minimum voltage to perform inductive signature tests SAME AS RZASA "S.0x15AA7" L82935 VBAT Limit {7}
SYM 15DA5 "VBAT_IS_MAX"             #[UY=flo(X*1)]       #VOLTS 0-15.5  #Maximum voltage to perform inductive signature tests SAME AS RZASA "S.0x15AA8" L8293C VBAT Limit {7}
SYM 15DAA "IS_PWRUP_DLY"            #[UY=flo(X*1)]       #secs 0-254    #Start up delay for inductive signature tests SAME AS RZASA "S.0x15A8F" L8296F ATMR1 Limit {7}
SYM 15DAB "S.SS1ISDLY_TMR"          #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x15A8A" L82843 {7}
SYM 15DAC "S.SS1ISDLY_TMR"          #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x15A8D" L82827 {7}
SYM 15DAD "S.0x15DAD"               #[UY=flo(X*1)]       #              # {3}
SYM 15DAE "S.0x15DAE"               #[UY=flo(X*1)]       #              # {3}
SYM 15DAF "TVP_ISIG_MAX"            #[UY=flo(X*1)]       #PSI 0-127.5   # Maximum allowed throttle valve pressure for proper ISIG operation SAME AS RZASA "S.0x15AA6" L82753 TV_PRES Limit {7}
SYM 15DB0 "IS_RTLOW_LVL"            #[UY=flo(X*1)]       # 0-255        #Number of low  ratio error events required to enable inductive signature for shift solenoids SAME AS RZASA "S.0x15A92" L82793 {7}
SYM 15DB1 "IS_RTERR_LVL"            #[UY=flo(X*1)]       # 0-255        #Number of  ratio error events required to enable inductive signature for shift solenoids SAME AS RZASA "S.0x15A90" L827B2 RT_ERR_CTR3, RT_ERR_CTR4 Limits {7}
SYM 15DB2 "IS_RTHI_LVL"             #[UY=flo(X*1)]       # 0-255        #Number of high  ratio error events required to enable inductive signature for shift solenoids SAME AS RZASA "S.0x15A91" L827A4 {7}
SYM 15DB3 "IS_TCCOK_LVL"            #[UY=flo(X*1)]       # 0-255        #Number of non-TCC ratio errors found by TCC test required to enable inductive signature for shift solenoids SAME AS RZASA "S.0x15A93" L82788 {7}
SYM 15DB4 "S.0x15DB4"               #[UW=flo(X*1)]       #              # {3}
SYM 15DB6 "S.0x15DB6"               #[UW=flo(X*1)]       #              # {3}
SYM 15DB8 "TCC_IS_SW"               #[UY=flo(X*1)]       # 0-1          #TCC inductive signature enable switch; 1 -> TCC test enabled {7}
SYM 15DB9 "TCC_ISER_LVL"            #[UY=flo(X*1)]       # 0-255        #Fault threshold for TCC inductive signature errors {7}
SYM 15DBA "TCC_ISOK_LVL"            #[UY=flo(X*1)]       # 0-255        #Number of 'good' inductive signature events required to call the TCC solenoid montiored {7}
SYM 15DBB "TCC_ISER_UP"             #[UY=flo(X*1)]       # 0-255        #Upcount for TCC inductive signature errors. {7}
SYM 15DBC "S.TM_PDL_RES"            #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x15AE2" L8A4C0 {7}
SYM 15DBE "S.0x15DBE"               #[UW=flo(X*1)]       #              # {3}
SYM 15DC0 "TQ_MAX_HRD3"             #[UW=flo(X/32)]      #FT-LBS 0-1020 # ENGINE TORQUE LIMIT REQUIRED TO PROTECT THE CONVERTER WHEN HARDLOCKED IN 3RD GEAR {7}
SYM 15DC2 "TQ_MAX_HRD4"             #[UW=flo(X/32)]      #FT-LBS 0-1020 # ENGINE TORQUE LIMIT REQUIRED TO PROTECT THE CONVERTER WHEN HARDLOCKED IN 4TH GEAR {7}
SYM 15DC4 "TQ_CUT_PCNT_RZAS.0x15B12"             #[UY=flo(X*1)]       #              # {7} SAME AS RZASA S.0x15B12
SYM 15DC6 "TMVEUP"                  #[UW=flo(X/1024)]    #sec           #Upshift Delay Time (87 Octane) {7}
SYM 15DC8 "TMVEDN"                  #[UW=flo(X/1024)]    #sec           #Downshift Delay Time (87 Octane) {7}
SYM 15DCA "TMVETOUP"                #[UW=flo(X/1024)]    #sec           #Upshift Tip-Out Delay Time {7}
SYM 15DCC "S.0x15DCC"               #[SW=flo(X*1)]       #              # {3}
SYM 15DCE "S.0x15DCE"               #[UW=flo(X*1)]       #              # {3}
SYM 15DD0 "S.0x15DD0"               #[UY=flo(X*1)]       #              # {3}
SYM 15DD2 "S.0x15DD2"               #[UW=flo(X*1)]       #              # {3}
SYM 15DD4 "TMW12DLY"                #[UY=flo(X*1)]       #Sec 0-15.9375 #Shift hardware delay time associated with a WOT 1-2 after a kickdown, secs. Base Value: 0.5 Resolution: 0.0625 {7}
SYM 15DD6 "TP12AKD"                 #[UW=flo(X*1)]       #CNTS 0-1023.984009##Threshold to determine high throttle condition, counts Base Value: 650 Resolution: 0.015625 {7}
SYM 15DD8 "TM12AKD"                 #[UW=flo(X*1)]       #Sec 0-31.99   #Time threshold in 1st gear to disable compensation for WOT 1-2 after a 3-1 kickdown, secs Base Value: 15 Resolution: 0.125 {7}
SYM 15DDA "TP12HYS"                 #[UW=flo(X*1)]       #CNTS 0-1023.984009#Hysterisis value to determine a low throttle condition, counts Base Value: 100 Resolution: 0.015625 {7}
SYM 15DDC "VS31MIN"                 #[UY=flo(X*1)]       #MPH 0-127.5   #Minimum vehicle speed to trigger the WOT 1-2 after a kickdown logic, mph. Base Value: 12 Resolution: 0.5 {7}
SYM 15DDE "TCNO"                    #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONST. FOR FILTERED TRANSMISSION OUTPUT SHAFT SPEED UNITS ARE SECONDS Base Value: 0.05 Resolution: 0.000977 {7}
SYM 15DE0 "TCNE"                    #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONST. FOR FILTERED RPM ( UNITS ARE IN SEC'S. ). Base Value: 0.025 Resolution: 0.000977 {7}
SYM 15DE2 "TCTPTV"                  #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONST. FOR FILTERED TP FOR TV PRESS. UNITS ARE SECONDS Base Value: 0.25 Resolution: 0.000977 SAME AS RZASA "S.0x15ADA" L8A457 {7}
SYM 15DE4 "TCTPTE"                  #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONST. FOR FILTERED TP ( UNITS ARE IN SEC'S. ) Base Value: 0.25 Resolution: 0.000977 SAME AS RZASA "S.0x15ADC" L8A41E {7}
SYM 15DE6 "TCTPREL"                 #[UW=flo(X*1)]       #Sec 0-63.999002#Time constant for TP_REL_BAR Base Value: 0.25 Resolution: 0.000970 {7}
SYM 15DE8 "DELTAT"                  #[UW=flo(X*1)]       #ADCT 0-1023.900024#P.T. TO C.T. BRKPT FOR POWER MODE Base Value: 8 Resolution: 0.0156 SAME AS RZASA "S.0x15ADE" L8A479 TP_REL Limit {7}
SYM 15DEA "HYSTST"                  #[UW=flo(X*1)]       #ADCT 0-1023.900024#HYST FOR DELTAT FOR POWER MODE Base Value: 5 Resolution: 0.0156 SAME AS RZASA "S.0x15AE0" L8A480 {7}
SYM 15DEC "TCVST"                   #[UW=flo(X/1024)]    #Sec 0-63.999001#TIME CONST. FOR VEH. SPEED ( UNITS ARE IN SEC'S. )Base Value: 0.05 Resolution: 0.000977 {7}
SYM 15DEE "TCVS"                    #[UW=flo(X*1)]       #Sec 0-63.999001#TIME CONSTANT FOR VS Base Value: 0.025 Resolution: 0.000977 {7}
SYM 15DF0 "TCVSRPH"                 #[UW=flo(X*1)]       #Sec 0-63.98   #Time constant for Vehicle Accel Base Value: 0.5 Resolution: 0.000970 SAME AS RZASA "S.0x176EC" L8A732 {7}
SYM 15DF2 "TCVSR"                   #[UW=flo(X/1024)]    #Sec 0-63.98   #TIME CONSTANT FOR VEHICLE ACCEL Base Value: 0.5 Resolution: 0.000970 {7}
SYM 15DF4 "S.0x15DF4"               #[UW=flo(X*1)]       #              # {3}
SYM 15DF6 "VSRATE_MAX"              #[UW=flo(X*1)]       #MPH/S 0-20   #Maximum allowable vehicle acceleration to be used in shift schedule compensation. Base Value: 5.0 Resolution: 0.00195 {7}
SYM 15DF8 "VSRATE_MIN"              #[SW=flo(X*1)]       #MPH/S -20-0  #Minimum allowable vehicle acceleration to be used in shift schedule compensation. Base Value: -5.0 Resolution: 0.00195 {7}
SYM 15DFA "TCILTM1"                 #[UY=flo(X*1)]       #Secs 0-31.875 #The time period which TCIL is 'on' or 'off' during flashing Base Value: 1 {7}
SYM 15DFB "SFT_12_ERR"              #[UY=flo(X*1)]       #COUNTS 0-255  #Number of 1-2 shift errors for solenoid functionality test {7}
SYM 15DFC "SFT_23_ERR"              #[UY=flo(X*1)]       #COUNTS 0-255  #Number of 2-3 shift errors for solenoid functionality test {7}
SYM 15DFD "SFT_34_ERR"              #[UY=flo(X*1)]       #COUNTS 0-255  #Number of 3-4 shift errors for solenoid functionality test {7}
SYM 15DFE "GOOD_12_LVL"             #[UY=flo(X*1)]       #COUNTS 0-255  #Number of good 1-2 shifts required to set the shift solenoid monitor flag {7}
SYM 15DFF "GOOD_23_LVL"             #[UY=flo(X*1)]       #COUNTS 0-255  #Number of good 2-3 shifts required to set the shift solenoid monitor flag {7}
SYM 15E00 "GOOD_34_LVL"             #[UY=flo(X*1)]       #COUNTS 0-255  #Number of good 3-4 shifts required to set the shift solenoid monitor flag {7}
SYM 15E01 "S.0x15E01"               #[UY=flo(X*1)]       #              # {3}
SYM 15E02 "S_VAL_TPADD"             #[UW=flo(X*1)]       #X 0-1024      #UPPER TP LIMIT FOR SHIFT VALIDATION {7}
SYM 15E04 "S_VAL_TPSUB"             #[UW=flo(X*1)]       #X 0-1024      #LOWER TP LIMIT FOR SHIFT VALIDATION {7}
SYM 15E06 "S_VAL_VSSUB"             #[UY=flo(X*1)]       #MPH 0-127.5   #LOWER VS LIMIT FOR SHIFT VALIDATION {7}
SYM 15E07 "S_VAL_VSADD"             #[UY=flo(X*1)]       #MPH 0-127.5   #UPPER VS LIMIT FOR SHIFT VALIDATION {7}
SYM 15E08 "TP_SH_VAL2"              #[U          ]       #Vdc 0-1024    #Min. TP to val. shift to second {7}
SYM 15E0A "TP_SH_VAL3"              #[U          ]       #Vdc 0-1024    #Min. TP to val. shift to third {7}
SYM 15E0C "TP_SH_VAL4"              #[U          ]       #Vdc 0-1024    #Min. TP to val. shift to fourth gear {7}
SYM 15E0E "VS_SH_VAL2"              #[UY=flo(X*1)]       #MPH 0-127.5   #MIN. VS TO VALIDATE AN UP SHIFT TO 2ND GEAR UNITS: MPH {7}
SYM 15E0F "VS_SH_VAL3"              #[UY=flo(X*1)]       #MPH 0-127.5   #MIN. VS TO VALIDATE AN UP SHIFT TO 3RD GEAR UNITS: MPH {7}
SYM 15E10 "VS_SH_VAL4"              #[UY=flo(X*1)]       #MPH 0-127.5   #MIN. VS TO VALIDATE AN UP SHIFT TO 4TH GEAR UNITS: MPH {7}
SYM 15E11 "NE_DROP_LCK"             #[UY=flo(X*1)]       #RPM 0-255     #Expected engine rpm drop for a power on upshift started with a locked converter {7}
SYM 15E12 "NE_DROP_OPEN"            #[UY=flo(X*1)]       #RPM 0-255     #Expected engine rpm drop for a power on upshift started with an open converter {7}
SYM 15E14 "PDL_W_LVL"               #[UW=flo(X*1)]       #EVENTS 0-65535#TRS failure fault threshold, (Word Size) {7}
SYM 15E16 "TRNS_EO_LVL"             #[UW=flo(X*1)]       #EVENTS 0-65535#TRS failed to transition state EO fault threshold {7}
SYM 15E18 "TRS_EOW_LVL"             #[UW=flo(X*1)]       #EVENTS 0-65535#Engine-OFF  TRS circuit failure fault threshold, (Word Size) {7}
SYM 15E1A "TRS_ERRW_LVL"            #[UW=flo(X*1)]       #EVENTS 0-65535#TRS circuit malfunction fault threshold, (Word Size) {7}
SYM 15E1C "TRS_ERRW_UP"             #[UW=flo(X*1)]       #EVENTS 0-65535#Upcount for TRS circuit malfunctions, (Word Size) {7}
SYM 15E1E "TRS_TRNS_LVL"            #[UW=flo(X*1)]       #EVENTS 0-65535#TRS failed to transition state fault threshold  {7}
SYM 15E20 "TRS_INT_SW"              #[UY=flo(X*1)]       #UNITLESS 0-1  #Calibration switch to enable/desable the NON-MIL Intermittent Fault code for TRS circuit malfunctions {7}
SYM 15E21 "CLTSW_EO_ENA"            #[UY=flo(X*1)]       #UNITLESS 0-1  #Calibration switch to enable/disable the Engine Off Clutch Switch test; 1 -> enable {7}
SYM 15E22 "MAX_NODELT"              #[UW=flo(X*1)]       #MPH 0-16383.75#Maximum realistic change in unfiltered output shaft speed from one background loop to the next. Base Value: 250 Resolution: 0.25 {7}
SYM 15E24 "MX_TSLOS_SPK"            #[UY=flo(X*1)]       #Sec 0-31.875  #Maximum time since last O5S spike for the noise counter to update Base Value: 1.0 Resolution: 0.125{3}
SYM 15E25 "OSCNT"                   #[UY=flo(X*1)]       #RAM 0-255     #Upcount for unrealistic changes in output shaft speed Base Value: 5.0 Resolution: 1.0 {3}
SYM 15E26 "OSS_INT_SW"              #[UY=flo(X*1)]       #X 0-1         #Calibration switch to enable/desable the NON-MIL Intermittent Fault code for OSS circuit malfunctions Base Value: 0.0 Resolution: 1.0 {7}
SYM 15E27 "OSS_SW"                  #[UY=flo(X*1)]       #SWITCH 0-1    #OSS test calibration switch; 1 -> test cal'ed in Base Value: 1.0 Resolution: 1.0 {7}
SYM 15E28 "OS_NOISE_LVL"            #[UY=flo(X*1)]       #RAM 0-255     #Fault threshold for noisy OSS malfunction Base Value: 50 Resolution: 1.0 {7}
SYM 15E29 "TCS_TST_ENA"             #[UY=flo(X*1)]       #CAL SWITCH 0-1#TCS test enable switch; 1 -> On demand TCS test enabled Base Value: 1 Resolution: 1.0 {3}
SYM 15E2A "BCVOFFDN"                #[UW=flo(X*1)]       #CNTS 0-255    #Down count for bypass valve 'off' in 1st gear counter {7}
SYM 15E2C "BCVOFFUP"                #[UW=flo(X*1)]       #CNTS 0-255    #Up count for bypass valve 'off' in 1st gear counter {7}
SYM 15E2E "BCVONDN"                 #[UW=flo(X*1)]       #CNTS 0-255    #Down count for bypass valve 'on' in 1st gear counter {7}
SYM 15E30 "BCVONUP"                 #[UW=flo(X*1)]       #CNTS 0-255    #Up count for bypass valve 'on' in 1st gear counter {7}
SYM 15E32 "CCOFFDN"                 #[UW=flo(X*1)]       #CNTS 0-255    #Down count for converter 'no-applied' counter {7}
SYM 15E34 "CCOFFUP"                 #[UW=flo(X*1)]       #CNTS 0-255    #Up count for converter 'not-applied' counter {7}
SYM 15E36 "CCONDN"                  #[UY=flo(X*1)]       #CNTS 0-255    #Down count for converter 'appled' counter SAME AS RZASA "S.0x168DF" L8C41A {7}
SYM 15E38 "CCONUP"                  #[UY=flo(X*1)]       #CNTS 0-255    #Up count for converter 'applied' counter SAME AS RZASA "S.0x168E2" L8C409 {7}
SYM 15E3A "CC_OFF_LVL"              #[UY=flo(X*1)]       #CNTS 0-255    #Threshold to determine if converter is 'not-applied {7}
SYM 15E3B "CC_ON_LVL"               #[UY=flo(X*1)]       #CNTS 0-255    #Threshold to determine if converter applied {7}
SYM 15E3C "PWMOFFDN"                #[UW=flo(X*1)]       #CNTS 0-255    #Down count for PWM 'mechanically off' counter {7}
SYM 15E3E "PWMOFFUP"                #[UW=flo(X*1)]       #CNTS 0-255    #Up count for PWM 'mechanically off' counter {7}
SYM 15E40 "PWMONDN"                 #[UW=flo(X*1)]       #CNTS 0-255    #Down count for PWM 'mechanically on' counter {7}
SYM 15E42 "PWMONUP"                 #[UW=flo(X*1)]       #CNTS 0-255    #Up count for PWM 'mechanically on' counter {7}
SYM 15E44 "BCV_OFF_LVL"             #[UY=flo(X*1)]       #CNTS 0-255    #Threshold to determine if bypass valve NOT stuck 'on' in 1st gear {7}
SYM 15E45 "BCV_ON_LVL"              #[UY=flo(X*1)]       #CNTS 0-255    #Threshold to determine if bypass valve stuck 'on' in 1st gear {7}
SYM 15E46 "CC_TOT_DL"               #[SW=flo(X*1)]       #DEG F -4096-4095.875#TOT threshold below which PWM test disabled, deg F {7}
SYM 15E48 "CC_TOT_DH"               #[SW=flo(X*1)]       #DEG F -4096-4095.875#TOT threshold above which PWM test disabled, deg F. {7}
SYM 15E4A "CC_SR_DH"                #[UW=flo(X*1)]       #X 0-3.9999    #Speed Ratio threshold above which PWM test disabled {7}
SYM 15E4C "CC_SR_DL"                #[UW=flo(X*1)]       #X 0-3.9999    #Speed Ratio threshold below which PWM test disabled {7}
SYM 15E4E "CC_TP_DL"                #[UW=flo(X*1)]       #CNTS 0-1023.984009#Throttle threshold below which PWM test disabled, counts {7}
SYM 15E50 "CC_TP_DH"                #[UW=flo(X*1)]       #CNTS 0-1023.984009#Throttle threshold above which PWM test disabled, counts {7}
SYM 15E52 "CC_TP_SS"                #[UW=flo(X*1)]       #CNTS 0-1023.984009#Maximum allowable change in TP_REL to allow PWM test, counts {7}
SYM 15E54 "CC_NO_DL"                #[UW=flo(X*1)]       #RPM 0-16383.75#Output shaft speed threshold below which PWM test disabled, rpm {7}
SYM 15E56 "CC_TQ_DL"                #[UY=flo(X*1)]       #FT-LBS 0-510  #Input torque threshold below which PWM test disabled, ft-lbs {7}
SYM 15E57 "CC_TQ_DH"                #[UY=flo(X*1)]       #FT-LBS 0-510  #Input torque threshold above which PWM test disabled, ft-lbs {7}
SYM 15E58 "CC_TQ_SS"                #[UY=flo(X*1)]       #FT-LBS 0-510  #Maximum allowable change in input torque to allow PWM test, ft-lbs {7}
SYM 15E59 "CC_TQ_SS1"               #[UY=flo(X*1)]       #FT-LBS 0-510  #Maximum allowable change in input torque to allow PWM test, ft-lbs {7}
SYM 15E5A "K_CONV1"                 #[UW=flo(X*1)]       #FT-LB/RPM/S 0-0.000967#Torque conv. coeff. that relates input torque to slip multiplied by turbine speed SAME AS RZASA "S.0x16902" L8C34E NTBART Multiplier {7}
SYM 15E5C "PWM_OFF_LVL"             #[UY=flo(X*1)]       #CNTS 0-255    #Threshold to determine if PWM solenoid mechanically 'off' when commanded 'off' SAME AS RZASA "S.0x183A6" L8C4C2 PWM_OFF_CNT Limit {7}
SYM 15E5D "PWM_ON_LVL"              #[UY=flo(X*1)]       #CNTS 0-255    #Threshold to determine if the PWM solenoid is mechanically 'on' when commanded 'off' SAME AS RZASA "S.0x183A7" L8C4D5 {7}
SYM 15E5E "SLIP_ACT_LK"             #[SW=flo(X*1)]       #RPM 0-63.990002#Threshold of slip below which converter is locked, rpm SAME AS RZASA "S.0x183B4" L8C407 SLIP_ACT Limit {7}
SYM 15E60 "SLP_CC_ON"               #[SW=flo(X*1)]       #RPM 0-4096    #Slip difference (SLIP_OPEN - SLIP_ACT) threshold above which converter is said to be applied SAME AS RZASA "S.0x183B8" L8C3E6 SLIP_DIF Limit {7}
SYM 15E62 "SLP_OPN_MIN"             #[SW=flo(X*1)]       #RPM 0-4096    #Threshold of SLIP_OPEN above which the state of the converter can be determined, rpm SAME AS RZASA "S.0x183BA" L8C3FC SLIP_OPEN1 Limit {7}
SYM 15E64 "SW_1742_MIL"             #[UY=flo(X*1)]       #SW 0-1        #Switch to allow setting a MIL code for a P1742 fault, 1 -> set MIL code {7}
SYM 15E65 "SW_1743_NMIL"            #[UY=flo(X*1)]       #SW 0-1        #Switch to allow setting a NON-MIL code for a P1743 fault {7}
SYM 15E66 "SW_PWM_TST"              #[UY=flo(X*1)]       #SW 0-1        #Test switch to disable BCSDC criteria to allow test; 1 -> disable BCSDC criteria {7}
SYM 15E67 "TSTDLYTM"                #[UY=flo(X*1)]       #Secs 0-31.875 #PWM functionality test delay time, secs SAME AS RZASA 183E8 L8C3BA {7}
SYM 15E68 "TCTQPWM"                 #[UW=flo(X*1)]       #Secs 0-63     #Time constant for TQ_BAR_PWM SAME AS RZASA "S.0x183DE" L8C32B {7}
SYM 15E82 "SS_TRIP_SW"              #[UY=flo(X*1)]       #SWITCH 0-1    #Shift solenoid trip switch; 1 -> shift sol. functional test count toward a trip {7}
SYM 15E83 "S.0x15E83"               #[UY=flo(X*1)]       #              # {3}
SYM 15E84 "MAX_VSDELT"              #[UW=flo(X*1)]       #MPH 0-255.996094#Maximum change in VS between succesive edges to signal noise for contol of FFG_VS Base Value: 10 Resolution: 0.0039 {7}
SYM 15E86 "MX_TSLVS_SPK"            #[UY=flo(X*1)]       #Sec 0-31.875  #Maximum time since last VS spike for the noise counter to update Base Value: 1.0 Resolution: 0.125 {7}
SYM 15E87 "SCP_VS_TSTSW"            #[UY=flo(X*1)]       #X 0-1         #Switch used to enable/disable testing SCP VS by same requirements as a VSS Base Value: 1.0 Resolution: 1.0 {7}
SYM 15E88 "U1039_SW"                #[UY=flo(X*1)]       #SWITCH 0-1    #Calibration switch to enable/disable storing a U1039 code (SCP VS failure) Base Value: 0.0 Resolution: 1.0 {7}
SYM 15E89 "VSCNT"                   #[UY=flo(X*1)]       #X 0-255       #INCREMENT TO VSCTR INDICATING FAILED MHP SENSOR Base Value: 2 Resolution: 1.0 {7}
SYM 15E8A "VSHP_SCP"                                     #SWITCH 0-1    #Vehicle Speed supplied by SCP = 1, by Hardware = 0 {7}
SYM 15E8A "VSHP_SCP"                :B0                  #SWITCH 0-1    #Vehicle Speed supplied by SCP = 1, by Hardware = 0 {7}
SYM 15E8B "VSS_ERR_LVL"             #[UY=flo(X*1)]       #COUNTS 0-255  #VSS error fault threshold Base Value: 0.0 Resolution: 1.0 {7}
SYM 15E8C "VSS_ERR_UP"              #[UY=flo(X*1)]       #COUNTS 0-255  #VSS error upcount Base Value: 5.0 Resolution: 1.0 {7}
SYM 15E8D "VSS_INT_SW"               #[UY=flo(X*1)]       #X 0-1         #Calibration switch to enable/desable the NON-MIL Intermittent Fault code for VSS circuit malfunctions Base Value: 0 Resolution: 1.0 {3}
SYM 15E8E "VSS_MON_TIM"             #[UY=flo(X*1)]       #Sec 0-255     #Minimum amount of time the vehicle speed sensor must be observed to function to set the monitor flag Base Value: 120 Resolution: 1.0 {7}
SYM 15E8F "VSSMN1"                  #[UY=flo(X*1)]       #MPH 0-88      #MAXIMUM VEHICLE SPEED TO ENTER VSS TEST Base Value: 5.0 Resolution: 0.50 {7}
SYM 15E90 "VSSTIM"                  #[UY=flo(X*1)]       #Sec 0-31.875  #MINIMUM STABLIZED TIME BEFORE PERFORMING CVIP VSS TEST Base Value: 3.0 Resolution: 0.125 {7}
SYM 15E91 "VS_NOISE_LVL"            #[UY=flo(X*1)]       #COUNTS 0-255  #Fault threshold for a noisy VSS Base Value: 50 Resolution: 1.0 {7}

SYM 15E96 "BND_M2_OD"               #[UY=flo(X*1)]       #Vdc 0-1023    #TRS manual_2 to overdrive break-point (COUNTS)Base Value: 383 #SAME AS RZASA "S.0x15A40" L89C58 INDS Limit {7}


SYM 15EA0 "MLPS_2"                  #[UY=flo(X*1)]       #ENUMERATED 2-3#IPDL when MLPS is in 2nd to last pos.; 2=Manual 2 hardware present, 3=Drive hardware present, no TCS #SAME AS RZASA L89C82 IPDL {7}
SYM 15EA2 "MNOSSPER"                #[UW=flo(X*1)]       #CLK_TICKS 0-16383#Minimum time between OSS rising edges for the edge to be valid. UNITS:CLOCK TICKS Base Value: 833. {7}
SYM 15EA4 "OSS_TEETH"               #[UY=flo(X*1)]       #X 0-255       #Number of teeth used on the output shaft speed sensor to generate OSS Base Value: 12 (RZA="OS_PULS_REV") {7} {2}
#SYM15EA4 "S.0x15EA4"               #[UY=flo(X*1)]       #              # {3}
SYM 15EA5 "TSLVS_MAX"               #[UY=flo(X*1)]       #Sec 0-31.875  #Time period since no vehicle speed edges have been seen, after which zero VS is assumed.Base Value: 0.25 Resolution: 0.125 SAME AS RZASA "S.0x15A83" L82507 TV_COUNTS Multiplier {7}
SYM 15EA6 "VS_DT_MN"                #[UW=flo(X*1)]       #delta time    #VSS Doubling Threshold Max {7}
SYM 15EA8 "VS_DT_MX"                #[UW=flo(X*1)]       #delta time    #VSS Halving Threshold Min {7}
SYM 15EAA "S.0x15AF6"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x15AF6" L8AA14 {7}
SYM 15EAC "RZAS.0x15A58"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x15A58" L89E8E {7}
SYM 15EAE "TMTCS"                   #[UW=flo(X/1024)]    #Sec 0-63.990002#Transmission Control Switch Residence time {7}
SYM 15EB0 "TM4X4L"                  #[UW=flo(X*1)]       #Sec 0-63.990002#4X4 LOW SWITCH RESIDENCE TIME SAME AS RZASA "S.0x15A5E L89FC7 {7}
SYM 15EB2 "TO_TP_RATE"              #[SW=flo(X*1)]       #Vdc -512-511.899994#TP_RATE REQUIRED TO RECOGNIZE A TIP-OUT UNITS: A TO D COUNTS PER BG LOOP  SAME AS RZASA "S.0x169C6" L8D4F7 TP_RATE Limit {7}
SYM 15EB4 "GRMSFT"                  #[UY=flo(X/2)]       #GEAR          #Gear Commanded Locked Out (Dyno Pull) {7}
SYM 15EB5 "SW_MSF"                                       #              #Gear Commanded Lockout SW (Dyno Pull) {7}
SYM 15EB5 "SW_MSF"                  :B0                  #              #Gear Commanded Lockout SW (Dyno Pull) {7}

SYM 15EB8 "S.TMR_41AUT"             #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x169CA" L8D7C6 {7}
SYM 15EBA "S.TMR_42AUT"             #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x169CC" L8D7CF {7}
SYM 15EBE "S.TM_34_DEL"             #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x169CE" L8D613 {7}

SYM 15EC0 "DEFAULT_GEAR"            #[UY=flo(X*1)]       #GEAR 1-3      #Default gear, desired gear in the event all availalbe gears are failed SAME AS RZASA "S.0x169D0" L8D34A {7}
SYM 15EC1 "S.0x15EC1"               #[UY=flo(X*1)]       #              # {3}
SYM 15EC2 "S.0x169D1"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x169D1" L8DA60 {7}
SYM 15EC4 "GR_SEQ_131"              #[UY=flo(X/2)]       #Gear          #Gear Shift 1-3 Sequence 1st Step {7}
SYM 15EC5 "GR_SEQ_132"              #[UY=flo(X/2)]       #Gear          #Gear Shift 1-3 Sequence 2nd Step {7}
SYM 15EC6 "GR_SEQ_141"              #[UY=flo(X/2)]       #Gear          #Gear Shift 1-4 Sequence 1st Step {7}
SYM 15EC7 "GR_SEQ_142"              #[UY=flo(X/2)]       #Gear          #Gear Shift 1-4 Sequence 2nd Step {7}
SYM 15EC8 "GR_SEQ_143"              #[UY=flo(X/2)]       #Gear          #Gear Shift 1-4 Sequence 3rd Step {7}
SYM 15EC9 "GR_SEQ_241"              #[UY=flo(X/2)]       #Gear          #Gear Shift 2-4 Sequence 1st Step {7}
SYM 15ECA "GR_SEQ_242"              #[UY=flo(X/2)]       #Gear          #Gear Shift 2-4 Sequence 2nd Step {7}
SYM 15ECB "GR_SEQ_311"              #[UY=flo(X/2)]       #Gear          #Gear Shift 3-1 Sequence 1st Step {7}
SYM 15ECC "GR_SEQ_312"              #[UY=flo(X/2)]       #Gear          #Gear Shift 3-1 Sequence 2nd Step {7}
SYM 15ECD "GR_SEQ_411"              #[UY=flo(X/2)]       #Gear          #Gear Shift 4-1 Sequence 1st Step {7}
SYM 15ECE "GR_SEQ_412"              #[UY=flo(X/2)]       #Gear          #Gear Shift 4-1 Sequence 2nd Step {7}
SYM 15ECF "GR_SEQ_413"              #[UY=flo(X/2)]       #Gear          #Gear Shift 4-1 Sequence 3rd Step {7}
SYM 15ED0 "GR_SEQ_421"              #[UY=flo(X/2)]       #Gear          #Gear Shift 4-2 Sequence 1st Step {7}
SYM 15ED1 "GR_SEQ_422"              #[UY=flo(X/2)]       #Gear          #Gear Shift 4-2 Sequence 2nd Step {7}
SYM 15ED2 "TMDELUP"                 #[UW=flo(X/1024)]    #sec           #TV Ramp Shift Delay Time {7}
SYM 15ED4 "S.0x169E4"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x169E4"L8DA29 {7}
SYM 15ED6 "TMSQ23PL"                #[UW=flo(X/1024)]    #SEC           #4x4 Shift Delay Time Min 2-3 {7}
SYM 15ED8 "TMSQ34PL"                #[UW=flo(X/1024)]    #sec           #4x4 Shift Delay Time Min 3-4 {7}
SYM 15EDC "TMSQ21P4"                #[UW=flo(X/1024)]    #SEC           #Shift Delay Time Min 2-1 {7}
SYM 15EDE "S.TM_UNLK_WDOG"          #[UW=flo(X*1)]       #              #SAME AS RZASA "S.0x169F4 L8D5C6 {7}
SYM 15EE0 "TMSQ21P1"                #[UW=flo(X/1024)]    #SEC           #Shift Delay Time Min Manual 2-1 {7}
SYM 15EE2 "TMSQ32P2"                #[UW=flo(X/1024)]    #sec           #Shift Delay Time Min Manual 3-2 {7}
SYM 15EE4 "VS21PI"                  #[UY=flo(X/2)]       #MPH           #2-1 Pullin Max Speed {7}
SYM 15EE5 "VS32P2"                  #[UY=flo(X/2)]       #MPH           #3-2 Pullin Max Speed {7}
SYM 15EE6 "S.0x169FC"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x169FC" {7}
SYM 15EE8 "TCDNMF"                  #[UW=flo(X/1024)]    #sec           #Power Off Downshift Manual Time {7}
SYM 15EEA "S.0x16A04"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x16A04" {7}
#SYM 15EEC "TCUPON23"                #[UW=flo(X/1024)]    #SEC           #Upshift Time 2-3 {7}
SYM 15EEC "TCDNON"                  #[UW=flo(X/1024)]    #sec           #Power Downshift Completion Time {7}

#SYM 15EEE "TCUPON12"                #[UW=flo(X/1024)]    #SEC           #Upshift Time 1-2 {7}
SYM 15EEE "TCUPON34"                #[UW=flo(X/1024)]    #SEC           #Upshift Time 3-4 {7}

SYM 15EF0 "S.0x15EF0"               #[UW=flo(X*1)]       #              # {3}
SYM 15EF2 "S.0x15EF2"               #[UW=flo(X*1)]       #              # {3}
SYM 15EF4 "TCDN1ON"                 #[UW=flo(X/1024)]    #sec           #Power Downshift Time 1st {7}

SYM 15EFE "GRRAT1"                  #[UW=flo(X/16384)]   #RATIO         #1st Gear Ratio Auto {7}
SYM 15F00 "GRRAT2"                  #[UW=flo(X*1)]       #X 0.25-3.99   #GEAR RATIO FOR 2ND; UNITS: DIMENSIONLESS  Base Value: 1.5430 Resolution: 0.000061 {7}
SYM 15F06 "CLDCTM"                  #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x15A2A" L9FC54 CYCCTR Limit {7}COLD SHIFT SOLENOID CYCLE TIME
SYM 15F09 "SSCYCCLD"                #[UY=flo(X*1)]       #X             #Solenoid State Cold Cycling (Auto Trans) {7}
SYM 15F0A "NVBASE"                  #[UY=flo(X/2)]       #RATIO         #RPM / VSBAR Ratio (Auto Trans) {7}
SYM 15F0D "S.0x15F0D"               #[UY=flo(X*1)]       #              # {3}
SYM 15F0E "PUL_PER_REV_??"          #[UY=flo(X*1)]       #EVENTS/REV 0-127.5#PULSES PER REVOLUTION NUMBER OF PIPS PER ENGINE REVOLUTION FOR E4OD_GAS 1/2 THE NUMBER OF FUEL PUMP Base Value: 4. Resolution: 0.5 {7}
SYM 15F10 "BRK_AWAY_LVL"            #[UY=flo(X*1)]       #COUNTS 0-255  #Number of break aways at which cont. slip will be disabled SAME AS RZASA "S.0x168DE" L8C231 BRK_AWAY_CNT Limit {7}
SYM 15F11 "ECSM_LVL"                #[UY=flo(X*1)]       #Cycles        #Slip Mode Disabled Cycles {7}
SYM 15F12 "ENA_CSLP_TST"                                 #              #TCC Slip Test SW {7}
#SYM 15F12 "ENA_CSLP_TST"            :B0                  #              #TCC Slip Test SW {7}
SYM 15F13 "SLP_TDLY_TIM"            #[UY=flo(X*1)]       #Secs 0-31.875 #Slip transient delay time SAME AS RZASA 183BC L8C132 {7}
SYM 15F14 "TQ_DIF_MX"               #[UY=flo(X*1)]       #FT-LBS 0-255  #Max change in TQ_NET under which a break away will be recognized SAME AS RZASA "S.0x1693E" L8C10E TQ_NET-TQ_NET_ENT Limit {7}
SYM 15F18 "VER_BRK_TIM"             #[UW=flo(X*1)]       #MSecs 0-510   #Min time ERR_T0 must remain in break away zone to be counted as a break away  {7}
SYM 15F1A "CNET_TP_MIN"             #[UY=flo(X*1)]       #COUNTS 0-100  #Minimum throttle position to allow catchnet test entry SAMAE AS RZASA "S.0x183E3" L8C125 {7}
SYM 15F1C "S.0x15F1C"               #[UW=flo(X*1)]       #              # {3}
SYM 15F1E "SLIP_DIF_MX"             #[UW=flo(X*1)]       #RPM 0-255     #Max change in slip desired under which a break away will be recognized SAME AS RZASA "S.0x183B6" L8C0F6 {7}
SYM 15F20 "ERR_BRK_AWAY"            #[UW=flo(X*1)]       #ENU 0-255     #Value of ERR_T0 (with no transients) that means the conv. clutch has broken away SAME AS RZASA "S.0x168FE" L8C175 {7}
SYM 15F22 "ERR_TST_BRK"             #[UW=flo(X*1)]       #RPM 0-255     #Max value of ERR_T0 to allow cont. slip test mode to be initiated  SAME AS RZASA "S.0x16900" L8C168 {7}
SYM 15F24 "BCSDC_HRD"               #[UW=flo(X*1)]       #X 0-1.0       #BCSDC when converter is hardlock Base Value: 0.95 Resolution: 0.01 SAME AS RZASA S.0x16960 "S.BCSDC_FM_MIN" L8CD56 {7}
SYM 15F2A "S.0x169C4"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x169C4" L8D5DE SLIP_ABS {7}
SYM 15F36 "S.TC_HRD_OFF"            #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x16868" L822E2 {7}
SYM 15F38 "ERR_DB_SL"               #[UY=flo(X*1)]       #RPM 0-255     #ERR_T0 threshold defining Deadband Region for PID control Base Value: 25 Resolution: 1 {7}
SYM 15F39 "ERR_DB_CH"               #[UY=flo(X*1)]       #RPM 0-255     #ERR_T0 threshold indicating error is not within Deadband Region Base Value: 35 Resolution: 1 {7}
SYM 15F3A "S.0x15F3A"               #[UY=flo(X*1)]       #              # {3}
SYM 15F3B "MXSFTRMPTM"              #[UY=flo(X*1)]       #Secs 0-31.875 #Maximum time to be in ramp open mode prior to upshift {7}
SYM 15F3C "S.0x15F3C"               #[UY=flo(X*1)]       #              # {3}
SYM 15F3D "S.0x15F3D"               #[UY=flo(X*1)]       #              # {3}
SYM 15F3E "OPNRMPMULTU"             #[UY=flo(X/64)]      #FTLB/FTLB 0-3.984#Multiplier of TQ_BAR to reset tcap_req when going from hardlock to slip control for upshifts {7}
SYM 15F3F "SLPRMPOPN"               #[UY=flo(X/4)]       #RPM 0-63      #Slip above which ramp open mode is exited {7}
SYM 15F40 "S.0x15F40"               #[UY=flo(X*1)]       #              # {3}
SYM 15F41 "S.0x15F41"               #[UY=flo(X*1)]       #              # {3}
SYM 15F42 "S.0x15F42"               #[SY=flo(X*1)]       #              # {3}
SYM 15F43 "SWBCTST"                                      #              #Force TCC Lock (Dyno Pull) {7}
SYM 15F43 "SWBCTST"                 :B0                  #              #Force TCC Lock (Dyno Pull) {7}
SYM 15F44 "SW_AC_PID"               #[UY=flo(X*1)]       #FLAG 0-1      #Wsitch to freeze P and I temrs shile holding slip durring and AC hit {7}
SYM 15F45 "SW_DB_D"                 #[UY=flo(X*1)]       #ENUMERATED 0-1#Switch to allow contribution of Derivative term when in Deadband Region; 1 -> allow Derivative.  {7}
SYM 15F47 "SW_SFT_RMP"              #[UY=flo(X*1)]       #SW 0-1        #switch to enable ramp open mode before upshifts {7}
SYM 15F48 "SW_SUPD"                 #[UY=flo(X*1)]       #ENUMERATED 0-1#Switch to activate 2nd update of information for c.c. upshift control {7}
SYM 15F49 "TCAPSTRMULT"             #[UY=flo(X*1)]       #FTLB/FTLB 0-1.99#Scalar multiplier of TQ_BAR to determin stroke torque capacity  {7}
SYM 15F4A "S.0x15F4A"               #[UY=flo(X*1)]       #              # {3}
SYM 15F4B "S.0x15F4B"               #[UY=flo(X*1)]       #              # {3}
SYM 15F4C "S.0x15F4C"               #[UY=flo(X*1)]       #              # {3}
SYM 15F4D "S.0x15F4D"               #[UY=flo(X*1)]       #              # {3}
SYM 15F5A "DSRU2"                   #[ W]                #              # {7} L_8E101
SYM 15F5C "DSRU3"                   #[ W]                #              # {7}
SYM 15F5E "DSRU4"                   #[ W]                #              # {7}
SYM 15F60 "GAIN_C"                  #[UW=flo(X/1024)]    #              #TCC PID Slip Control Gain {7}
SYM 15F62 "GAIN_D"                  #[UW=flo(X/64)]      #              #TCC Slip PID D-Gain {7}
SYM 15F64 "GAIN_I"                  #[UW=flo(X/8)]       #              #TCC Slip PID I-Gain {7}
SYM 15F66 "GAIN_P"                  #[UW=flo(X/8)]       #              #TCC Slip PID P-Gain {7}
SYM 15F68 "S.0x15F68"               #[UW=flo(X*1)]       #              # {3}
SYM 15F6A "K_CLUTCH"                #[UW=flo(X/32768)]   #PSI/LB-FT 0-.99 #Inverse of converter bypass clutch, gain; psi/lb-ft {7}
SYM 15F6C "K_CONV"                  #[UW=flo(X/33554432)]#FT*LB/(RPM2)0-0.000967#Torque conv. coeff. that relates input torque to slip multiplied by turbine speed {7}
SYM 15F6E "K_VALVE"                 #[UW=flo(X*1)]       #PSI/LB-FT 0-3 #Bypass Clutch control valve pressure gain; psi/lb-ft {7}
SYM 15F70 "S.0x15F70"               #[UW=flo(X*1)]       #              # {3}
SYM 15F72 "OPNRMPOFFU"              #[SW=flo(X/32)]      #ft lbs        #TQ Cap Reset Slip Hardlock {7}
SYM 15F74 "S.0x15F74"               #[UW=flo(X*1)]       #              # {3}
SYM 15F76 "PWM_BREAKPNT"            #[UW=flo(X*1)]       #PSI 0-50      #PWM output pressure at which PWM gain changes, psi  {7}
SYM 15F78 "PWM_OFFSET"              #[UW=flo(X*1)]       #PSI 0-50      #Maximum PWM output pressure at zero (0) pressure difference across converter clutch; psi {7}
SYM 15F7A "SLIP_STEP"               #[UW=flo(X*1)]       #RPM 0-255     #Minimum RPM difference between SLIP_DES & SLIP_TARGET, to allow desired slip to step to target. Base Value: 5 Resolution: 1 {7}
SYM 15F7C "S.0x15F7C"               #[UW=flo(X*1)]       #              # {3}
SYM 15F7E "S.0x15F7E"               #[UW=flo(X*1)]       #              # {3}
SYM 15F80 "S.0x15F80"               #[UW=flo(X*1)]       #              # {3}
SYM 15F84 "S.0x15F84"               #[UW=flo(X*1)]       #              # {3}
SYM 15F86 "S.0x15F86"               #[UW=flo(X*1)]       #              # {3}
SYM 15F88 "S.0x15F88"               #[UW=flo(X*1)]       #              # {3}
SYM 15F8A "S.0x15F8A"               #[UW=flo(X*1)]       #              # {3}
SYM 15F8C "TCAPSTR"                 #[UW=flo(X*1)]       #FT LBS 0-1023 #Torque capacity used to 'Stroke' the clutch, ft-lbs {7}
SYM 15F8E "S.0x15F8E"               #[UW=flo(X*1)]       #              # {3}
SYM 15F90 "S.0x15F90"               #[UW=flo(X*1)]       #              # {3}
SYM 15F92 "TCDNS"                   #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for SLIP_DES_S during downshift Base Value: 1 Resolution: 0.000977 {7}
SYM 15F94 "TCERRD"                  #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for ERR_T0_FD Base Value: 1 Resolution: 0.000977 {7}
SYM 15F96 "TCERRI"                  #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for ERR_T0_FI Base Value: 1 Resolution: 0.000977 {7}
SYM 15F98 "TCERRP"                  #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for ERR_T0_FP Base Value: 1 Resolution: 0.000977 {7}
SYM 15F9A "TCLCK"                   #[UW=flo(X/1024)]    #sec           #Time Constant SLIP_DES_S {7}
SYM 15F9C "TCLCKL"                  #[UW=flo(X/1024)]    #sec           #Time Constant SLIP_DES Low TPREL {7}
SYM 15F9E "S.0x15F9E"               #[UW=flo(X*1)]       #              # {3}
SYM 15FA0 "S.0x15FA0"               #[UW=flo(X*1)]       #              # {3}
SYM 15FA2 "TCRMP11U"                #[UW=flo(X*1)]       #FT*LBF/S 0-500#slip_tcap ramp open ramp rate; for upshifts {7}
SYM 15FA4 "S.0x15FA4"               #[UW=flo(X*1)]       #              # {3}
SYM 15FA6 "S.0x15FA6"               #[UW=flo(X*1)]       #              # {3}
SYM 15FA8 "S.0x15FA8"               #[UW=flo(X*1)]       #              # {3}
SYM 15FAA "TCULCK"               #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for desired slip during an unlock.Base Value: 1 Resolution: 0.000977  SAME AS RZASA "S.0x159F0" L8F4DA {7}
SYM 15FAC "TCUPS"                   #[UW=flo(X/1024)]    #sec           #TCC Slip Time During Shift {7}
SYM 15FAE "S.0x15FAE"               #[UW=flo(X*1)]       #              # {3}
SYM 15FB0 "S.0x15FB0"               #[UW=flo(X*1)]       #              # {3}
SYM 15FB2 "S.0x15FB2"               #[UW=flo(X*1)]       #              # {3}
SYM 15FB4 "S.0x15FB4"               #[UW=flo(X*1)]       #              # {3}
SYM 15FB6 "S.0x15FB6"               #[UW=flo(X*1)]       #              # {3}
SYM 15FB8 "S.0x15FB8"               #[UW=flo(X*1)]       #              # {3}
SYM 15FCC "S.0x15FCC"               #[UW=flo(X*1)]       #              # {3}
SYM 15FCE "S.TM_SFT_SLP"            #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x15A14" L8F336 {7}
SYM 15FD0 "S.0x15FD0"               #[UW=flo(X*1)]       #              # {3}
SYM 15FD2 "TPBRKTCSLP"              #[UW=flo(X/64)]      #TP_REL        #TCLCKL Max TP_REL {7}
SYM 15FD4 "S.0x15FD4"               #[UW=flo(X*1)]       #              # {3}
SYM 15FD6 "TSTBCSDC"                #[UW=flo(X*1)]       #FRAC 0-1      #Fixed test value of BCSDC SAME AS RZASA "S.0x15A1C" L8F198 {7}
SYM 15FD8 "TSTSLIP"                 #[UW=flo(X*1)]       #RPM 0-100     #Fixed test value of SLIP_DES SAME AS RZASA "S.0x15A1E" L8F189 {7}
SYM 15FDA "S.TCAP_REQ2"             #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x15A20" L8F1C4 {7}
SYM 15FDC "SW_TQM"                  #[UY=flo(X*1)]       #SW            #(TP_REL or TQ_NET) {2}
SYM 15FDC "B0_SW_TQM"               :B0                  #              #FNPCTUx Input (FNTQNN, FNTQTPN) {7}
SYM 15FDC "B1_SW_TQM"               :B1                  #              #FNPCTDx Input (FNTQNN, FNTQTPN) {7}
SYM 15FDC "B2_SW_TQM"               :B2                  #              #Downshift TQM Trigger Control {7} L_029B9
SYM 15FDC "B3_SW_TQM"               :B3                  #              #Upshift TQM Trigger Control {7}
SYM 15FDD "TP_MIN_TQM"              #[UY=flo(X*4)]       #Cnts 0-1020   #Minimum TP_REL to do torque modulation {7}
SYM 15FDE "TP_DELTL"                #[UY=flo(X*1)]       #Cnts 0-1020   #Lower limit on the delta counts TP_REL can move to do torque modulation  SAME AS RZASA "S.0x15AFD" L8CF15 TP_STRT_SFT Substractor {7}
SYM 15FDF "TP_DELTU"                #[UY=flo(X*1)]       #Cnts 0-1020   #Upper limit on the delta counts TP_REL can move in order to do torque modulation SAME AS RZASA "S.0x15AFE" L8CF06 TP_STRT_SFT Adder {7}
SYM 15FE2 "S.0x15FE2"               #[UW=flo(X*1)]       #              # {3}
SYM 15FE4 "S.0x15FE4"               #[UW=flo(X*1)]       #              # {3}
SYM 15FE6 "S.0x15FE6"               #[UW=flo(X*1)]       #              # {3}
SYM 15FE8 "S.0x15FE8"               #[UW=flo(X*1)]       #              # {3}
SYM 15FEA "S.0x15FEA"               #[UW=flo(X*1)]       #              # {3}
SYM 15FEC "S.0x15FEC"               #[UW=flo(X*1)]       #              # {3}
SYM 16186 "CS_MAX_TIME"             #[UW=flo(X*1)]       #Secs 0-65535  #MAX TIME ALLOWED IN COLD START SHIFT SCHEDULES (SECONDS) Base Value: 600 {7}
SYM 16188 "CS_MULT"                 #[UY=flo(X*1)]       #X 0-1.99      #COLD START MULTIPLIER Base Value: 1.0 {7}
SYM 16202 "NE_DTFR"                 #[UW=flo(X*1)]       #RPM 0-8000    #MINIMUM ENGINE SPEED TO ALLOW DELTA TQ. TO UPDATE Base Value: 1500 Resolution: 0.25 SAME AS RZASA "S.0x15B7E" L09339 NEBART Limit {7}
SYM 16204 "TP_DTFR"                 #[UW=flo(X*1)]       #COUNTS 0-1020 #MINIMUM THROTTLE POSITION TO ALLOW DELTA TQ. TO UPDATE Base Value: 100 Resolution: 4 SAME AS RZASA "S.0x15B80" L09392 TPBART_DT Limit {7}
SYM 16206 "TMFR"                    #[UY=flo(X*1)]       #Sec 0-8       #MINIMUM TIME IN THIRD TIME BEFORE ALLOWING DELTA TORQUE TO UPDATE Base Value: 0.5 Resolution: 0.03125 SAME AS RZASA 15B82 L093A0 {7}
SYM 16308 "TCTPPWF"                 #[UW=flo(X/1024)]    #sec 0-63.99902#Time constant for TP filter for PWF determination Base Value: 0.25 Resolution: 0.000977 {7}
SYM 1630A "TCPWFE"                  #[UW=flo(X/1024)]    #sec 0-63.99902#Performance weighting factor time constant for economy mode Base Value: 2 Resolution: 0.000977 {7}
SYM 1630C "TMHOLDPWF"               #[UW=flo(X/1024)]    #sec 0-63.990002#Time to hold PWF after a downshift Base Value: 5 Resolution: 0.01 {7}
SYM 1630E "CHTG_HP"                                      #              #Cylinder head temperature gauge hardware present switch {7}
SYM 16310 "IS_DRBASE"               #[UW=flo(X/32)]      #RPM           #Idle RPM Drive/Gear (Auto Trans Only) (DRBASE) {2}
#SYM16310 "S.0x16310"               #[UW=flo(X*1)]       #              # {3}
SYM 16312 "IS_DRBASE_A"             #[UW=flo(X/32)]      #RPM           #Idle RPM Drive Alternate (DRBASE_ALT) {7}
SYM 16314 "IS_NUBASE"               #[UW=flo(X/32)]      #RPM           # Idle RPM Neutral/Park/Manual (NUBASE) {2}
#SYM16314 "S.0x16314"               #[UW=flo(X*1)]       #              # {3}
SYM 16316 "IS_NUBASE_A"             #[UW=flo(X/32)]      #RPM           #Idle RPM Manual/Neutral/Park (NUBASE_ALT) {7}
SYM 16318 "TCTRAN_RPM"              #[UW=flo(X/1024)]    #sec           #DSDRPM Trans Change Filter TC {7}
SYM 1631A "CRKTIM"                  #[UY=flo(X*1)]       #Sec 0-255     #TIME AFER START TO DELAY GPAS CLIP Base Value: 2.0 Resolution: 1.0 {7}
SYM 1631B "CTXS"                    #[UY=flo(X*1)]       #X 0-1         #CTX transmission present switch; 1 -> CTX present, 0 -> no CTX Base Value: 0 Resolution: 1.0 {7}
SYM 1631C "ISCLPD"                  #[UW=flo(X*1)]       #              #UPPER LIMIT DRIVE CLIP ON DESIRED RPM EXTRA BYTE HERE SAVES 3 IN CODE Base Value: 1100 Resolution: 8 {7}
SYM 1631E "ISCLPD_ALT"              #[UW=flo(X*1)]       #              #Alternative Cal ISCLPD Base Value: 1100 Resolution: 8 {7}
SYM 16320 "IS_GPAS_TC"              #[UW=flo(X*1)]       #Sec 0-5       #Time constant used with filter on GPAS clip Base Value: 0 Resolution: 0.125 {3}
SYM 16322 "IS_BATV_DR"              #[UW=flo(X/2)]       #RPM           #Max VBAT DSDRPM Drive {7}
SYM 16324 "TC_VBAT"                 #[UW=flo(X/1024)]    #sec           #Alternator Voltage Update Rate {7}
SYM 16326 "VOLTCLP"                 #[UY=flo(X*1)]       #sec           #Max Discharge Voltage Timer Value (FN821) {7}
SYM 16327 "NG_TST_SW"               #[UY=flo(X*1)]       #SW            #A logic 0 will disable the monitor while CNG fuel is being used in a dual fuel vehicle {7}
SYM 16327 "CAT_NG_SW"               :B0                  #SW            #CAT NG test calibration switch; 1=Allow test during CNG operation of dual fuel vehicle {7}
SYM 16327 "CCM_NG_SW"               :B1                  #SW            #CCM NG test calibration switch; 1=Allow test during CNG operation of dual fuel vehicle {7}
SYM 16327 "PURG_NG_SW"              :B2                  #SW            #Purge NG test calibration switch; 1 -> Allow test during CNG operation of dual fuel vehicle {7}
SYM 16327 "SAIR_NG_SW"              :B3                  #SW            #SAIR NG test calibration switch; 1 -> Allow test during CNG operation of dual fuel vehicle {7}
SYM 16327 "FUEL_NG_SW"              :B4                  #SW            #FUEL NG test calibration switch; 1 -> Allow test during CNG operation of dual fuel vehicle {7}
SYM 16327 "EGO_NG_SW"               :B5                  #SW            #EGO NG test calibration switch; 1=Allow test during CNG operation of dual fuel vehicle {7}
SYM 16327 "EGR_NG_SW"               :B6                  #SW            #EGR NG test calibration switch; 1=Allow test during CNG operation of dual fuel vehicle {7}
SYM 16327 "MIS_NG_SW"               :B7                  #SW            #Misfire NG test calibration switch; 1 -> Allow test during CNG operation of dual fuel vehicle {7}
SYM 16328 "S.NG_HOLD_TMR"           #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x16863" L0D9FE {7}




SYM 168A2 "DRC21"                   #[UW=flo(X/16384)]   #delta_ratio   #Delta Ratio Finished 2-1 {7}
SYM 168A4 "DRC23"                   #[UW=flo(X/16384)]   #sec           #Delta Ratio Finished 2-3 {7}
SYM 168A6 "DRC34"                   #[UW=flo(X/16384)]   #sec           #Delta Ratio Finished 3-4 {7}
SYM 168A8 "SW_BP_INTR"              #[UY=flo(X*1)]       #X 0-1         #1 -> select BP_+INTR to compensate shift schedules; 0 -> select TQ_INTR to compensate shift {7}
SYM 168AC "SW_SFTIN"                #[UY=flo(X*1)]       #ENUMERATED 0-1#DESIRED GEAR SHIFT IN PROGRESS SWITCH 0 = FLG_SFT_IN = 0 FOR NEW DESIRED GEAR 1 = ALWAYS DETERMINE N SAME AS RZASA "S.0x16A20" {7}
SYM 168AE "BCSDC_INC"               #[UW=flo(X*1)]       #Frac 0-1.999969#Increment on TCC duty cycle failure mode clip SAME AS RZASA "S.0x1695E" L8CD45 BCSDC_OUT Adder {7}
SYM 168B0 "BCSDC_MXCLIP"            #[UW=flo(X*1)]       #Frac 0-1.999969#Maximum allowed failure mode TCC duty cycle clip  SAME AS RZASA "S.0x16960" L8CD56 {7}
SYM 168B2 "CNET_ERR_SW"             #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for Catchnet malfunctions {7}
SYM 168B3 "ECT_HOT_ENG"             #[SY=flo(X*2)]       #deg *F -40-254#TOT fmem calibration value whihc indicates powertrain hot, time to switch to high fmem TOT{7}
SYM 168B4 "EPC_ERR_SW"              #[UY=flo(X*1)]       #SW 0-1        #Calibration selection switch to enable/disable flashing TCIL for EPC open circuit error {7}
SYM 168B5 "EPC_FM_CLIP"             #[UY=flo(X*1)]       #PSI 0-127.5   #Minimum EPC clip when in fmem SAME AS RZASA "S.0x16964" L8C6B1 {0} {7}
SYM 168B6 "EPC_MAF_CLIP"            #[UY=flo(X*1)]       #PSI 0-127.5   #Minimum EPC clip when in MAF sensor fmem {7}
SYM 168B7 "EPC_OPN_CLIP"            #[UY=flo(X*1)]       #PSI 0-127.5   #Minimum EPC clip when in open circuit EPC VFS fmem SAME AS RZASA "S.0x16965" L8C688 {7}
SYM 168B8 "EPC_SHORT_SW"            #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for short circuit EPC  {7}
SYM 168B9 "FMMMLP"                  #[UY=flo(X*1)]       #NONE 1-4      #IPDL VALUE WHEN PDL_ERROR PRESENT SAME AS RZASA "S.0x16967" L8C656 {7}
SYM 168BA "IS_ERR_SW"               #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for inductive signature malfunctions; 1 -> enable {7}
SYM 168BC "NELK_FM"                 #[UW=flo(X*1)]       #RPM 0-16383.75#Engine Speed to lock converter when TP sensor has failed, for FMEM {7}
SYM 168BE "NEU_ENA_GR4"                                  #SW 0-1        #Calibration switch to enable/disable 4th gear being commanded in Neutral; 1 -> enable {7}
SYM 168BF "OSS_ERR_SW"              #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for OSS malfunctionsl {7}
SYM 168C0 "OS_NOISE_SW"             #[UY=flo(X*1)]       #SW 0-1        #Calibration switch to enable/disable flashing the TCIL for a noisy OSS failure {7}
SYM 168C1 "OTEMP_ERR_SW"            #[UY=flo(X*1)]       #SW 0-1        #Calibration selection switch to enable/disable flashing TCIL for Transmission overtemperature {7}
SYM 168C2 "SFT_ERR_SW"              #[UY=flo(X*1)]       #SW 0-1        #FLASHING OCIL FOR SHIFT ERROR SELECTION SWITCH {7}
SYM 168C3 "SOL_CKT_SW"              #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for shift solenoid cirucit failures  {7}
SYM 168C4 "SP_VSS_FMSW"             #[UY=flo(X*1)]       #SW 0-1        #Calibratiom switch to enable/disable use of VSS in place of OSS for shifting during OSS fmem; 1 -> VSS used in place of OSS {7}
SYM 168C6 "SRLK_FM"                 #[UW=flo(X*1)]       #X 0-3.999939  #Speed Ratio to lock converter for Failure Mode Management SAME AS RZASA "S.0x16974" L8C715 SPD_RATIO Limit {7}
SYM 168C8 "SW_1743_TCIL"            #[UY=flo(X*1)]       #SW 0-1        #Switch to allow flashing the TCIL for a P1743 fault {7}
SYM 168C9 "SW_4X4L_ERR"             #[UY=flo(X*1)]       #SW 0-1        #Calibration selection switch to enable/disable flashing TCIL for 4X4L errors {7}
SYM 168CA "TCCDES_SLPMX"            #[SW=flo(X*1)]       #RPM -4096-4095#Maximum desired slip value at which the intrusive TCC duty cycle logic tor un  SAME AS RZASA "S.0x1696A" {7}
SYM 168CC "TCC_CKT_SW"              #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for TCC circuit malfunctions {7}
SYM 168CD "TCC_FMDC_TIM"            #[UY=flo(X*1)]       #Secs 0-31.875 #TCC failure mode duty cycle delay time  SAME AS RZASA "S.0x16976" L8CD65 {7}
SYM 168CE "TCC_FNERR_SW"            #[UY=flo(X*1)]       #SW 0-1        #Calibration  switch to enable/disable flashing the TCIL for TCC function error; 1-> enable. {7}
SYM 168CF "TCC_ICTL_SW"                                  #SW 0-1        # TCC intrusive control switch; 1 -> diagnostics will force duty cycle high if slip errors occur {7}
SYM 168D0 "TCC_MX_SLIP"             #[SW=flo(X*1)]       #EN -4096-4095 #TCC slip value above which intrusive control to raise duty cycle  will be initiated SAME AS RZASA "S.0x16978" {7}
SYM 168D2 "TCC_TDLY_TIM"            #[UY=flo(X*1)]       #Secs 0-31.875 #TCC transient delay time {7}
SYM 168D3 "TOTIR_FMEXIT"            #[UY=flo(X*1)]       #X 0-255       #Number of 'good' in-range TOT events required to allow exit of fmem {7}
SYM 168D4 "TOT_ERR_SW"              #[UY=flo(X*1)]       #SW 0-1        #Calibration switch to enable flashing the TCIL for TOT failures {7}
SYM 168D6 "TOT_FM_DES(2)"           #[SW=flo(X*1)]       #Deg -4096-4095.875#Desired failure mode TOT SAME AS RZASA "S.0x16984" L8C71D {7}
SYM 168D8 "TOT_FM_RAMP"             #[SW=flo(X*1)]       #Deg -4096-4095.875#TOT failure mode ramp - how much TOT will be ramped up/down each background toward the desired SAME AS RZASA "S.0x16986" L8C78F {7}
SYM 168DA "TRANS_SLP_SW"            #[UY=flo(X*1)]       #SW 0-1        #Calibration switch to enable/disable flashing the TCIL for a transmission slip error (P1728); 1 -> enable {7}
SYM 168DB "TRS_ENTER_FM"            #[UY=flo(X*1)]       #EVENTS 0-255  #Number of consecutive samples the TRS must indicate an invalid position before fmem is entered SAME AS RZASA "S.0x1698A" L8C5B8 TRS_STB_CTR Limit {7}
SYM 168DC "TRS_ERR_SW"              #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for TRS malfunctions {7}
SYM 168DD "TRS_MON_LVL"             #[UY=flo(X*1)]       #EVENTS 0-255  #number of backgrounds TRS must indicate a valid state to be called good SAME AS RZASA "S.0x1698B" L8C5A8 TRS_STB_CTR Limit {7}
SYM 168DE "VS43PI"                  #[UY=flo(X/2)]       #MPH           #Max MPH Allowed in 3rd (4-3 Pullin Max Speed) {7}
SYM 168DF "VSS_ERR_SW"              #[UY=flo(X*1)]       #SW 0-1        #Switch to enable/disable flashing the TCIL for VSS malfunctions {7}
SYM 168E0 "VS_NOISE_SW"             #[UY=flo(X*1)]       #SW 0-1        #Calibration switch to enable/disable flahsing the TCIL for a noisy VSS {7}
SYM 169F6 "S.0x169F6"               #[UW=flo(X*1)]       #              # {3}
SYM 169F8 "OTCTDLY"                 #[UY=flo(X/8)]       #secs          #CT TCC Relock Delay Overtemp {7}
SYM 169F9 "CTDLY"                   #[UY         ]       #Sec 0-31.875  #CLOSED THROTTLE RELOCK DELAY (SECONDS) Base Value: 1 {7}
SYM 169FA "TRADLY"                  #[UY         ]       #Sec 0-31.875  #HIGH THROTTLE RATE, ACCEL RELOCK DELAY Base Value: 5 {7}
SYM 169FB "TRDDLY"                  #[UY         ]       #Sec 0-31.875  #HIGH THROTTLE RATE, DECEL RELOCK DELAY (SECONDS) Base Value: 2 {7}
SYM 169FC "BRKRLCKTM"               #[UY         ]       #Sec 0-31.875  #Time to remain unlocked after transition from brake off to brake on Base Value: 1 {7}
SYM 169FD "PRNDLY"                  #[UY         ]       #Sec 0-31.875  #PRNDL RELOCK DELAY Base Value: 2 {7} 
SYM 169FE "LUDLY"                   #[UY         ]       #Sec 0-31.875  #HIGH ALT./COLD ENGINE RELOCK DELAY (SECONDS) Base Value: 5 {7}
SYM 169FF "BPUNMH"                  #[UY=flo(X*1)]       #INHG 0- 31.875#HYSTERESIS FOR BPUNMN (IN HG.)Base Value: 1. {7} SAME AS RZASA "S.0x171FA"
SYM 16A00 "BPUNMN"                  #[UY=flo(X*1)]       #INHG 0- 31.875#MIN BP TO UNLOCK CONVERTER CLUTCH (IN HG.)Base Value: 20 {7} SAME AS RZASA "S.0x171FB"
SYM 16A01 "D21DLY"                  #[UY=flo(X/8)]       #sec           #2-1 Shift Relock Delay {7}
SYM 16A02 "D32DLY"                  #[UY=flo(X/8)]       #sec           #3-2 Shift Relock Delay {7}
SYM 16A03 "D43DLY"                  #[UY=flo(X/8)]       #sec           #4-3 Shift Relock Delay {7}
SYM 16A04 "ETLUMX"                  #[SY=flo(X/0.5)]     #ECT           #TCC Unlock ECT Max {7}
SYM 16A06 "NELUMN"                  #[UW=flo(X/4)]       #NEBART        #Tcc Lock Min RPM {7}
SYM 16A08 "PDL_UNLK"                #[UY=flo(X*1)]       #X 0- 127      #PDL's which force Uncond. Unlk. Bit (PDL - 1) set forces Unlock Base Value: 115 {7} SAME AS RZASA "S.0x17206" 
SYM 16A0A "SRLUMN"                  #[UW=flo(X/16384)]   #X 0-3.99      #MAXIMUM SPEED RATIO TO UNCONDITIONALLY UNLOCK CONVERTER (UNITLESS)Base Value: 0.60 {7}
SYM 16A0C "SRLUMNOT"                #[UW=flo(X*1)]       #X 0-3.99      #MAXIMUM SPEED RATIO TO UNCONDITIONALLY UNLOCK WHEN FLG_OT_LK = 1 Base Value: 0.60 {7}SAME AS RZASA "S.0x1720A"
SYM 16A0E "TPUNBRK"                 #[UW=flo(X/64)]      #TP_REL        #Max TP_REL for Brake Unlock {7}
SYM 16A10 "TPUNCH"                  #[UY=flo(X/64)]      #TP_REL        #TPUNCT Hyst {7}
SYM 16A12 "TPUNCT"                  #[UW=flo(X/64)]      #TP_REL        #Max TP_REL for CT Unlock {7}
SYM 16A14 "TPUNTR"                  #[UY=flo(X/64)]      #TP_REL_CTS    #High/Low Unlock Throttle Rate Breakpoint {7}
SYM 16A16 "TRUHAC"                  #[SW=flo(X/32)]      #counts/bgl    #TCC Unlock Accel High TP {7}
SYM 16A18 "TRUHDC"                  #[SW=flo(X/32)]      #TP_RATE       #TCC Unlock Decel High TP {7}
SYM 16A1A "TRULAC"                  #[SW=flo(X/32)]      #TP_RATE       #TCC Unlock Accel Low TP {7}
SYM 16A1C "TRULDC"                  #[SW=flo(X/32)]      #TP_RATE       #TCC Unlock Decel Low TP {7}
SYM 16A1E "TMCTDY"                  #[UY=flo(X/8)]       #sec           #Min Sec Before Relock at CT {7}
SYM 16A1F "U12DLY"                  #[UY=flo(X/8)]       #Sec           #Unlock Shift Relock Delay 1-2 {7}
SYM 16A20 "U23DLY"                  #[UY=flo(X/8)]       #Sec           #Unlock Shift Relock Delay 2-3 {7}
SYM 16A21 "U34DLY"                  #[UY=flo(X/8)]       #Sec           #Unlock Shift Relock Delay 3-4 {7}
SYM 16A22 "UNLKDLYTM"               #[UW=flo(X/1024)]    #Sec           #CT Unlock Delay (Unconditional) {7}
SYM 16A24 "VSLUMN"                  #[UY=flo(X/2)]       #MPH           #TCC CT UnLock MPH Max (VSMXLKDLY) {7}
SYM 16A25 "VSCTDY"                  #[UY=flo(X/2)]       #MPH           #CT Relock MPH Min {7}
SYM 16A26 "LUHECT_SH"               #[SY=flo(X/0.5)]     #deg F         #TCC Overtemp Lock ECT Max {7}
SYM 16A27 "LUHECT_CL"               #[SY=flo(X/0.5)]     #deg F         #TCC Overtemp Lock ECT Min {7}
SYM 16A28 "LUHTOT_SH"               #[SY=flo(X/0.25)]    #deg F         #TCC Overtemp Lock TOT Max {7}
SYM 16A29 "LUHTOT_CL"               #[SY=flo(X/0.25)]    #deg F         #TCC Overtemp Lock TOT Min {7}
SYM 16A2A "SRLKOT"                  #[UW=flo(X*1)]       #X 0-3.999     #Minimum Speed Ratio for schedule of lock up when Overtemperatue (FLG_OT_LK = 1) Base Value: 0.80 {7}
SYM 16A2C "SLPNOLK"                 #[SW=flo(X*1)]       #SLIP RPM -4096-4096#SLIP_ACT BELOW WHICH CONVERTER IS NOT ALLOWED TO GO FROM OPEN TO MODULATED  SAME AS RZASA "S.0x17234" L09072 SLIP_ACT Limit {7}
SYM 16A30 "TMNOLKDLY"               #[UW=flo(X*1)]       #Secs 0-15     #TIME AFTER SLIP_ACT > SLPNOLK TO DELAY LOCK UP {7}
SYM 16C4C "ACSLIP"                  #[UW=flo(X/16)]      #RPM           #RPM Slip for A/C Clutch Engagement {7}
SYM 16C4E "MODACT_CL"               #[SY=flo(X*1)]       #Deg -40-254   #ACT below which slip modulation is not allowed Base Value: 185 #SAME AS RZASA "S.0x1746A" L92575 ACT Limit {7}
SYM 16C4F "MODACT_SH"               #[SY=flo(X*1)]       #Deg -40-254   #ACT above which slip modulation is allowed Base Value: 200 #SAME AS RZASA "S.0x1746B" L92596 ACT Limit {7}
SYM 16C50 "MODECT_CL"               #[SY=flo(X*1)]       #Deg -40-254   #ECT below which slip modulation is not allowed Base Value: 185 #SAME AS RZASA "S.0x1746C" L9257C ECT Limit {7}
SYM 16C51 "MODECT_SH"               #[SY=flo(X*1)]       #Deg -40-254   #ECT above which slip modulation is allowed Base Value: 185 #SAME AS RZASA "S.0x1746D" L9259D ECT Limit {7}
SYM 16C52 "MODTOT_CL"               #[SY=flo(X*1)]       #Deg -40-508   #TOT below which continuos slip is not allowed Base Value: 100 #SAME AS RZASA "S.0x1746E" L9257E TOT Limit {7}
SYM 16C54 "MAXSLIP1"                #[UW=flo(X/16)]      #RPM           #Max Slip Target {7}
SYM 16C56 "SLIP_DES_MIN"            #[UW=flo(X/16)]      #RPM           #RPM Slip Target During Shift {7}
SYM 16C58 "SLIP_HRD_CH"             #[UW=flo(X*1)]       #RPM 0-255     #slip_target to claer hardlock Base Value: 24 #SAME AS RZASA "S.0x17474" L9264D {7}
SYM 16C5A "SLIP_HRD_SL"             #[UW=flo(X*1)]       #RPM 0-255     #slip_target to set hardlock Base Value: 20 #SAME AS RZASA "S.0x17476" L9264D {7}
SYM 16C5C "TP3LCK"                  #[UW=flo(X*1)]       #CNTS 0-1023.984009#TP_REL above which hardlock is commanded in 3rd gear when PDL=3.Base Value: 75. #SAME AS RZASA "S.0x17478" L925AA TP_REL Limit {7}
SYM 16C5E "TP3LCK_HYS"              #[UW=flo(X*1)]       #CNTS 0-1023.984009#Hysteresis term for PDL=3, 3rd gear lock condition Base Value: 10 #SAME AS RZASA "S.0x1747A" L925B1 TP_REL Limit {7}
SYM 16C60 "FNDN2SSLP_0"             #[UY=flo(X*1)]       #RPM 0-4080    #Slip adder prior to commanding a downshift to 1st or 2nd.Base Value: 1000 #SAME AS RZASA "S.0x1747C" L926AA {7}
SYM 16C61 "FNDN3SSLP_0"             #[UY=flo(X*1)]       #RPM 0-4080    #Slip adder proir to commanding a downshift to 3rd Base Value: 1000 #SAME AS RZASA "S.0x1747D" L926B8 {7}
SYM 16D66 "AC_CTL_OFF"              #[UW=flo(X*1)]       #Secs 0-64     #Timer threshold to de-activate A/C compensation {7}
SYM 16D68 "AC_CTL_TM"               #[UW=flo(X/1024)]    #Secs 0-64     #Timer threshold indicating converter slip in error region indicating control {7}
SYM 16D6A "AC_SLP_WDOG"             #[UW=flo(X*1)]       #Secs 0-64     #Timer threshold to allow A/C engagement if slip control not established {7}
SYM 16D6C "AC_SHP_LVL"              #[UY=flo(X*1)]       #X 0-255       #AC SHORT PERIOD LEVEL THRESHOLD TO DISABLE AC SLIP {7}
SYM 16D6E "ACSLIPTMP"               #[SW=flo(X*1)]       #Deg -1024-1023#Minimum ambient temperature threshold to enable converter clutch slip for AC.  SAME AS RZASA "S.0x1758C" L92727 INFAMB_KAM Limit {7}
SYM 16D70 "MN_ACOFFTM"              #[UY=flo(X*1)]       #Secs 0-31.875 #MINIMUM AC OFF TIME-SHORT PERIOD THRESHOLD {7}
SYM 16D71 "NORM_ACOFFTM"            #[UY=flo(X*1)]       #Secs 0-31.875 #NORMAL AC OFF TIME-NORMAL PERIOD THRESHOLD {3}
SYM 16D72 "SLIP_ABS_AC"             #[UW=flo(X*1)]       #RPM 0-16383.75#Absolute slip above which ac_en_trans is set {7}
SYM 16D74 "S.0x16D74"               #[UY=flo(X*1)]       #              # {3}
SYM 16D75 "S.0x16D75"               #[UY=flo(X*1)]       #              # {3}
SYM 16DAE "S.0x16DAE"               #[UY=flo(X*1)]       #              # {3}
SYM 16DAF "S.0x16DAF"               #[UY=flo(X*1)]       #              # {3}
SYM 16DB0 "EPC_MAN42A"              #[SY=flo(X*1)]       #PSI -128-127  #SCALAR DYNAMIC EPC ADDER FOR MANUAL 4-2 PULL-INS Resolution: 1.0 Base Value: 0.0 SAME AS RZASA "S.0x161BD" L0852A {7}
SYM 16DB1 "RZA.0x161BE"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x161BE" L0833B {7}
SYM 16DB2 "SW_DYN"                                       #ENUM 0-1       #SOFTWARE SWITCH FOR DYNAMIC TV 0 = ALLOW SHIFT DYNAMICS TO VARY WITH RPM 1 = USE RPM AT START OF  SHIFT Base Value: 0.0 {7}
#SYM 16DB2 "SW_DYN"                  :B0                  #              #TV Pressure Dynamic Shifting SW  {7}
SYM 16DB3 "SW_DYN_VS"               #[UY=flo(X*1)]       #SW 0-1         #Software switch for dynamic EPC; 1 -> use VSBART_RT at start of shift for dynamic EPC.  SAME AS RZASA "S.0x161C0" L0830A {7}
#SYM 16DB3 "B0_0x161C0"              :B0                  #              # SAME AS RZASA "S.0x161C0" L0830F {7}
SYM 16DB4 "SW_RMP"                  #[UY=flo(X*1)]       #SW 0-1        #SWITCH TO TRIGGER RAMPS Base Value: 0.0 {7}
SYM 16DD8 "TVADD"                   #[SY=flo(X*1)]       #PSI 0-127.5   #TV ADDER AT THE END OF RAMPS Resolution: 0.50 {7}
SYM 16DE3 "SW_STALTV"               #[UY=flo(X*1)]       #ENUM 0-1      #SOFTWARE SWITCH TO DO STALL TV (UNITLESS) 0 = DO NORMAL TV; 1 = ALWAYS DO STALL TV Resolution: 1.0 {7}
SYM 16DE4 "FN616_SW"                #[UY=flo(X*1)]       #X 0-1         #SWITCH TO SELECT FN616 USAGE DURING ENGAEMENTS Base Value: 0.0 Resolution: 1.0 {7}
SYM 16DE5 "NEUTIM"                  #[UY=flo(X*1)]       #Sec 0-31.875  #MINIMUM TIME IN NEUTRAL TO USE NEUTRAL TO IN-GEAR ENGAGEMENT EPC FUNCTIONS Resolution: 0.125 SAME AS RZASA "S.0x161EE" {7}
SYM 16DE6 "TM46BLP"                 #[UW=flo(X*1)]       #Sec 0-63.999001#TIME AFTER A FWD TO REV ENGMT TO USE FN46B FOR TV ENGMT PRESSURE Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DE8 "TM54BLP"                 #[UW=flo(X*1)]       #Sec 0-63.999001#TIME AFTER A NEU TO FWD ENGMT TO USE FN54B FOR TV ENGMT PRESSURE Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DEA "TM56BLP"                 #[UW=flo(X*1)]       #Sec 0-63.999001#TIME AFTER A NEU TO REV ENGMT TO USE FN56B FOR TV ENGMT PRESSURE Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DEC "TM64BLP"                 #[UW=flo(X*1)]       #Sec 0-63.999001#TIME AFTER A REV TO DRV ENGMT TO USE FN64B FOR TV ENGMT PRESSURE Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DEE "TMDRVREV"                #[UW=flo(X*1)]       #Sec 0-63.999001#TIME TO COMPLETE A FWD TO REV ENGMT UNITS ARE SECONDS Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DF0 "TMNEUDRV"                #[UW=flo(X*1)]       #Sec 0-63.999001#TIME TO COMPLETE A NEU TO FWD ENGMT UNITS ARE SECONDS Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DF2 "TMNEUREV"                #[UW=flo(X*1)]       #Sec 0-63.999001#TIME TO COMPLETE A NEU TO REV ENGMT UNITS ARE SECONDS Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DF4 "TMREVDRV"                #[UW=flo(X*1)]       #Sec 0-63.999001#TIME TO COMPLETE A REV TO FWD ENGMT UNITS ARE SECONDS.  WARNING: TM46BLP,TM54BLP,TM56BLP AND TM64BLP Base Value: 0.08 Resolution: 0.000977 {7}
SYM 16DF6 "TVPMINPT_ENG"            #[UY=flo(X/2)]       #PSI 0-127.5    #Min TV pressure @ P.T., Engagment/Stall Base Value: 2.0 Resolution: 0.5 {7}


SYM 16E04 "S.0x16E04"               #[UY=flo(X*1)]       #              # {3}
SYM 16E05 "TVCHRG"                  #[UY=flo(X*1)]       #PSI 0-127.5   #TV CHARGE PRESS. FOR 1ST STARTUP {7}
SYM 16E06 "TVEMAX"                  #[UY=flo(X*1)]       #PSI 0-127.5   #TV FOR WORST CASE ENGAGEMENT Base Value: 80.0 Resolution: 0.50 {7}
SYM 16E07 "TVEMOD"                  #[UY=flo(X*1)]       #PSI 0-127.5   #TV FOR MODERATE ENGAGEMENT Base Value: 40.0 Resolution: 0.50 {7}
SYM 16E09 "VSTMX"                   #[UY=flo(X*1)]       #PSI 0-127.5   #MIN. VS TO USE TVEMAX ENGAGEMENT TV Base Value: 20.0 Resolution: 0.50 {7}
SYM 16E0A "VSTVMN"                  #[UY=flo(X*1)]       #PSI 0-127.5   #MIN. VS TO USE TVEMAX ENGAGEMENT TV Base Value: 10.0 Resolution: 0.50 {7}
SYM 16E0B "AETV_??"                 #[UY=flo(X*1)]       #PSI 0-127.5   #ANTICIPATORY TV ADDER FOR HEAVY TIP-INS Base Value: 35.0 Resolution: 0.50 SAME AS RZASA "S.0x16211" L08CC3 {7}
SYM 16E0C "SCINT1"                  #[SY=flo(X*1)]       #PSI -127-127  #STATIC CAP. TV INTERCEPT, 1ST GEAR Base Value: 34.200001 Resolution: 1.0 {2}
SYM 16E0D "SCINT2"                  #[SY=flo(X*1)]       #PSI -127-127  #STATIC CAP. TV INTERCEPT, 2ND GEAR Base Value: 27.6 Resolution: 1.0 {2}
SYM 16E0E "SCINT3"                  #[SY=flo(X*1)]       #PSI -127-127  #STATIC CAP. TV INTERCEPT, 3RD GEAR Base Value: 27.6 Resolution: 1.0 {2}
SYM 16E0F "SCINT4"                  #[SY=flo(X*1)]       #PSI -127-127  #STATIC CAP. TV INTERCEPT, 4TH GEAR Base Value: 27.6 Resolution: 1.0 {2}
SYM 16E10 "SCSLP1"                  #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, 1ST GEAR Base Value: 0.482 Resolution: 0.0039 {2}
SYM 16E11 "SCSLP2"                  #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, 2ND GEAR Base Value: 0.317 Resolution: 0.0039 {2}
SYM 16E12 "SCSLP3"                  #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, 3RD GEAR Base Value: 0.456 Resolution: 0.0039 {2}
SYM 16E13 "SCSLP4"                  #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, 4TH GEAR Base Value: 0.317 Resolution: 0.0039 {2}
SYM 16E14 "SCSLP1SD"                #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, DOWNSHIFT TO 1ST GEAR Base Value: 0.482 Resolution: 0.0039 {2}
SYM 16E15 "SCSLP2SD"                #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, DOWNSHIFTING TO 2ND Base Value: 0.317 Resolution: 0.0039 {2}
SYM 16E16 "SCSLP3SD"                #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, DOWNSHIFTING TO 3RD Base Value: 0.456 Resolution: 0.0039 {2}
SYM 16E17 "SCSLP4SU"                #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, UPSHIFTING TO 4TH Base Value: 0.317 Resolution: 0.0039 {2}
SYM 16E18 "SCSLP2SU"                #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, UPSHIFTING TO 2ND Base Value: 0.317 Resolution: 0.0039 {2}
SYM 16E19 "SCSLP3SU"                #[UY=flo(X/256)]     #PSI/(FT*LBF)0-0.996#STATIC CAP. TV SLOPE, UPSHIFTING TO 3RD Base Value: 0.456 Resolution: 0.0039 {2}
SYM 16E1A "EPC_RMP_12"              #[UW=flo(X/1024)]    #sec 0-63.999020#Time over which to ramp static EPC at the end of hte ratio change for a 1-2 upshift Base Value: 0. Resolution: 0.000976 {2}
SYM 16E1C "EPC_RMP_23"              #[UW=flo(X/1024)]    #sec 0-63.999020#Time over which to ramp static EPC at teh end of the ratio change for a 2-3 upshift Base Value: 0. Resolution: 0.000976 {2}
SYM 16E1E "EPC_RMP_34"              #[UW=flo(X/1024)]    #sec 0-63.999020#Time over which to ramp static EPC at the end of the ratio change for a 3-4 upshift Base Value: 0. Resolution: 0.000976 {2}
SYM 16E20 "EPC_ST_12"               #[UY=flo(X/2)]       #Psi 0-127.5   #EPC value which sets the slope of the static EPC ramp for a 1-2 upshift (slope=EPC_ST_12/ramp time)Base Value: 0.0 Resolution: 0.5 {7}
SYM 16E21 "EPC_ST_23"               #[UY=flo(X/2)]       #Psi 0-127.5   #EPC value which sets the slope of the static EPC ramp for a 2-3 upshift (slope=EPC_ST_23/ramp time)Base Value: 0.0 Resolution: 0.5 {7}
SYM 16E22 "EPC_ST_34"               #[UY=flo(X/2)]       #Psi 0-127.5   #EPC value which sets the slope of the static EPC ramp for a 3-4 upshift (slope=EPC_ST_34/ramp time)Base Value: 0.0 Resolution: 0.5 {7}
SYM 16E24 "TOTTV1"                  #[SW=flo(X*1)]       #DEGF -4096-4095#MAX. TOT TO USE TVCHRG FOR STARTUP Base Value: -10 Resolution: 0.125{7}
SYM 16E26 "TOTTV2"                  #[SW=flo(X*1)]       #DEGF -4096-4095#MIN. TOT TO USE TVEMAX ENGAGEMENT TV Base Value: -20.0 Resolution: 0.125 {7}
SYM 16E28 "TOTTV3"                  #[SW=flo(X*1)]       #DEGF -4096-4095#MIN. TOT TO USE TVEMOD ENGAGEMENT TV Base Value: 20.0 Resolution: 0.125 {7}
SYM 16E2A "TOTTV4                   #[SW=flo(X*1)]       #DEGF -4096-4095#MAX. TOT WHERE DYN. TV NOT ADDED TO ACCUM Base Value: 20. Resolution: 0.125 {7}

#SYM16E2C "RZA.0x1622C"               #                    #              # SAME AS RZASA L08EA4 Rbase {0}
SYM 16E38 "S.0x16E38"               #[UW=flo(X*1)]       #              # {3}
SYM 16E3A "TPTVMX"                  #[UW=flo(X*1)]       #              # {7}
SYM 16E3C "TPTVMN"                  #[UW=flo(X*1)]       #              # {7}
SYM 16E3E "NETVMX"                  #[UW=flo(X*1)]       #              # {7}
SYM 16E40 "NETVMN"                  #[UW=flo(X*1)]       #              # {7}
SYM 16E42 "TOTVTP"                  #[UW=flo(X*1)]       #              # {7}
SYM 16E44 "AETVTP"                  #[UW=flo(X/64)]      #TP_Rate       #AETV Tip-In Threshold {2}
#SYM16E44 "S.0x16E44"               #[UW=flo(X*1)]       #              # {3}
SYM 16E46 "TCEPC"                   #[UW=flo(X*1)]       #Sec 0-64      #Time constant for TV_PRES_BAR (filtered EPC)Base Value: 0.0 Resolution: 0.000977 SAME AS RZASA "S.0x16246" L08BCC {7}
SYM 16E48 "TMENGACT"                #[UY=flo(X/8)]       #sec           #Engagement Time {7}
SYM 1720C "NDFSO"                   #[UY=flo(X*1)]       #FLAG 0-1      #Neutral DFSO selector Base Value: 0 Resolution: 1 {7}


SYM 1723E "LEVEL71S"                #[UW]                #              # {7}

SYM 17240 "HLS_COUNT_DT"            #[UW=flo(X*1)]       #duce_ticks    #Duce HLOS Time Out {2} SAME AS RZASA 175D0 {7}
#SYM17240 "S.0x17240"               #[UW=flo(X*1)]       #              # {3}
SYM 17242 "INJ_OSC_PW"              #[UY=flo(X*1)]       #Sec 0-5       #Pulsewidth for OSC commanded injector when engine is off {7}
SYM 17244 "MAF_HI_ER"               #[UW=flo(X/64)]      #IMAF          #MAF Maximum Volts {2}
#SYM17244 "S.0x17244"               #[UW=flo(X*1)]       #              # {3}
SYM 17246 "MAF_LO_ER"               #[UW=flo(X/64)]      #AD Cnts       #MAF Minimum Volts (VMAMIN) (VMAFR1)
SYM 17248 "MAF_HI_KOEO"             #[UW=flo(X/64)]      #AD Cnts       #MAF Maximum Volts Stalled {7}
SYM 1724A "MAF_HI_KOER"             #[UW=flo(X/64)]      #AD Cnts       #MAF Maximum Volts Running {7}
SYM 1724C "MAF_LO_KOER"             #[UW=flo(X/64)]      #AD Cnts       #MAF Minimum Volts Running {7}
SYM 1724E "MAF_RPM_MAX2"            #[UW=flo(X/4)]       #RPM           #MAF Voltage Test RPM Max {2}
#SYM1724E "S.0x1724E"               #[UW=flo(X*1)]       #              # {3}
SYM 17250 "VMAFPIPLMT"              #[UW=flo(X*1)]       #msec          #KOER IMAF Under-voltage Delay (VMAFMIN) {7}
SYM 17252 "P0102_TC"                #[UW=flo(X*1)]       #Secs 0-16     #Time constant for fault P0102, MAF input below minimum Base Value: 1 #SAME AS RZASA "S.0x18B16" L9BC15 {3}
SYM 17254 "P0103_TC"                #[UW=flo(X*1)]       #Secs 0-16     #Time constant for fault P0103, MAF input above maximum Base Value: 1 {7} 
SYM 17256 "P0102_LVL"               #[           ]       #COUNTS 0-1    #Fault threshold for code P0102, MAF input below minimum Base Value: 0.632000 {7}
SYM 17258 "S.0x17258"               #[SW=flo(X*1)]       #              # {3}
SYM 1725C "PE_OBD_THRES"            #[UW=flo(X*1)]       #IN H2O 0-255  #Exhaust Backpressure Threshold for OBDII EGR tests Base Value: 12 Resolution: 1 {7}
SYM 1725E "S.0x1725E"               #[UW=flo(X*1)]       #              # {3}
SYM 17260 "S.0x17260"               #[UW=flo(X*1)]       #              # {3}
SYM 17262 "RZA.0x188C2"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x188C2" L83B8A EGRDC Limit {7}
SYM 17264 "EGR_402_INC"             #[UW=flo(X*1)]       #FRAC 0-1.999969#Amount of  duty cycle to force  the valve open eack background loop Base Value: 0.02 Resolution: 0.000031 {7}
SYM 17266 "EGR_402_MAX"             #[UW=flo(X*1)]       #FRAC 0-1.999969#Maximum duty cycle to forace and hold the valve open.Base Value: 0.8 Resolution: 0.000031 SAME AS RZASA "S.0x16666" {7}
SYM 17269 "P0402TST_TM"             #[UY=flo(X/8)]       #sec           #P0402 Test Time {7}
SYM 1726A "P0405TST_TM"             #[UY=flo(X/8)]       #sec           #P0405 Test Time {7}
SYM 1726B "P0406TST_TM"             #[UY=flo(X/8)]       #sec           #P0406 Test Time {7}
SYM 1726C "P1405TST_TM"             #[UY=flo(X/8)]       #sec           #P1405 Test Time {7}
SYM 1726D "P1406TST_TM"             #[UY=flo(X/8)]       #sec           #P1406 Test Time {7}
SYM 1726E "P1408TST_TM"             #[UY=flo(X/8)]       #sec           #P1408 Test Time {7}
SYM 1726F "P0403TST_TM"             #[UY=flo(X/8)]       #sec           #P0403 Test Time {7}
SYM 17270 "P402RTRY_TM"             #[UY=flo(X*1)]       #Sec 0-31.875  #Maximum amount of time to hold the valve forced open Base Value: 3 Resolution: 0.125 SAME AS RZASA "S.0x188CC" L8386E P402RTRY_TMR Limit {7}
SYM 17272 "P401_TST_TM"             #[UW=flo(X*1)]       #Sec 0-1023    #Fault 0401  maximum test time Base Value: 50 Resolution: 1 {7}
SYM 17275 "PIPTSTLVL"               #[UY=flo(X*1)]       #COUNTS 0-255  #PIP failure fault filter threshold {7}
SYM 17276 "PIPLVLEXP"               #[UY=flo(X*1)]       #COUNTS 0-255  #PIP failure fault filter threshold for export use {7}
SYM 17278 "IDM_VBATMIN"             #[UW=flo(X*1)]       #VOLTS 0-255   #Minimum VBAT level required before IDM signal can be considered reliable Base Value: 11 Resolution: 1 {7}
SYM 1727A "IDM_VBATMAX"             #[UW=flo(X*1)]       #VOLTS 0-255   #Maximum VBAT level required before IDM signal is considered unreliable. Base Value: 15 Resolution: 1 {7}
SYM 1727C "IDM_NMAX"                #[UW=flo(X*1)]       #RPM 0-10000   #Maximum N (RPM) required before IDM signal can be considered reliable Base Value: 4500 Resolution: 1 {7}
SYM 1727E "PIPUP"                   #[UY=flo(X*1)]       #COUNTS 0-255  #PIP failure fault filter increment {7}
SYM 1727F "IDMUP"                                        #              #IDM UP {0}
SYM 1727F "B1_IDMUP"                   :B1                  #              #IDM UP {2}
SYM 17281 "IDM_PW_STARTM_17281_??"           #[UW]                               # {7} _??
SYM 17280 "IGNR_CPP"                                    #              #Clutch Pedal Position Test SW {0}
SYM 17280 "B1_IGNR_CPP"               :B1                  #              #Clutch Pedal Position Test SW {2}
#SYM17280 "S.0x17280"               #[UY=flo(X*1)]       #              # {3}
SYM 17286 "DIS_COP_HW"              #[UY=flo(X*1)]       #HP_SWITCH 0-1 #Coil on plug ignition system hardware present switch; 0 -> coil pack, 1 -> coil on plug. Base Value: 0 Resolution: 1 {7}
SYM 17287 "CIDTSTLVL"               #[UY=flo(X*1)]       #COUNTS 0-255  #CID failure fault filter threshold  {7}
SYM 17288 "CIDLVLEXP"               #[UY=flo(X*1)]       #COUNTS 0-255  #CID failure fault filter threshold for export use {7}
SYM 17289 "S.0x17289"               #[UY=flo(X*1)]       #              # {3}
SYM 1728A "CIDUP"                   #[UY=flo(X*1)]       #COUNTS 0-255  #CID failure fault filter threshold {7}
SYM 1728B "S.0x1728B"               #[UY=flo(X*1)]       #              # {3}
SYM 1728C "V_CL_BRK_TM"             #[UY=flo(X*1)]       #Secs 0-255    #time to delay after driver uses brake of declutches {7}
SYM 17290 "FPMP_SMON_EN"                                 #              #Pump Secondary Test SW (P0231) {7}
#SYM 17290 "FPMP_SMON_EN"            :B0                  #              #Pump Secondary Test SW (P0231) {7}
SYM 17292 "FP_PU_TM"                #[UW=flo(X/1024)]    #sec           #Pump Test Delay Time {7}
SYM 17294 "FP_TYPE_SEL"             #[UY=flo(X*1)]       #SW            #ENUMERATED 0-255 #Fuel Pump Type Selector (P1232) 0=single-speed, 1=dual speed, 2=modulated,3=ELECTRONIC RETURNLESS {7}
SYM 17295 "RF_MODE"                 #[UY=flo(X*1)]       #SW 0-1        #RFP operating mode; 0 -> fixed duty cycle, 1 -> normal RFP logic used {7}
SYM 17296 "VRCM_HP"                 #[UY=flo(X*1)]       #SW 0-1        #VRCm hardware present switch {7}
SYM 17298 "PUMP_ON_DC"              #[UW=flo(X/32768)]   #Duty Cycle    #Pump On Duty Cycle {2}
#SYM17298 "S.0x17298"               #[SW=flo(X*1)]       #              # {3}
SYM 1729A "PUMP_OFF_DC"             #[UW=flo(X/32768)]   #Duty Cycle    #Pump Off Duty Cycle (Return) {2}
#SYM1729A "S.0x1729A"               #[SW=flo(X*1)]       #              # {3}
SYM 1729C "S.0x1729C"               #[UY=flo(X*1)]       #              # {3}
SYM 1729D "S.0x1729D"               #[UY=flo(X*1)]       #              # {3}
SYM 1729E "S.0x1729E"               #[UW=flo(X*1)]       #              # {3}
SYM 172A0 "S.0x172A0"               #[UW=flo(X*1)]       #              # {3}
SYM 172A2 "FPUMP_FREQ"              #[UW=flo(X/2)]       #HZ            #Fuel Pump Frequency (return) {2}
#SYM172A2 "S.0x172A2"               #[UW=flo(X*1)]       #              # {3}
SYM 172A4 "FP_DRIVER"                                    #              #Fuel Pump Driver Type (P1233) {7}
#SYM 172A4 "FP_DRIVER"               :B0                  #              #Fuel Pump Driver Type (P1233) {7}
SYM 172A5 "FPMP_OSM_ENA"                                 #              #Enable Fuel Pump OSM Test (P0230) {7}
#SYM 172A5 "FPMP_OSM_ENA"            :B0                  #              #Enable Fuel Pump OSM Test (P0230) {7}
SYM 172A6 "V_FP_ER_TM1"             #[UY=flo(X/8)]       #sec           #P0230 Delay Pump Monitor to set P0230 Fault Code {7}
SYM 172A7 "FP_OT_DT_SW"                                  #              #Enable Pump Primary Circuit Test {7}
#SYM 172A7 "FP_OT_DT_SW"             :B0                  #              #Enable Pump Primary Circuit Test {7}
SYM 172A8 "FP_PU_DT_SW"                                  #              #Enable Pump Primary Circuit Test (P0230) {7}
#SYM 172A8 "FP_PU_DT_SW"             :B0                  #              #Enable Pump Primary Circuit Test (P0230) {7}
SYM 172A9 "FP_EO_DT_SW"                                  #              #FP Primary Circuit Test KOEO (P0230) {7}
#SYM 172A9 "FP_EO_DT_SW"             :B0                  #              #FP Primary Circuit Test KOEO (P0230) {7}
SYM 172AA "FP_ER_DT_SW"                                  #              #FP Primary Circuit Test KOER (P0230) {7}
#SYM 172AA "FP_ER_DT_SW"             :B0                  #              #FP Primary Circuit Test KOER (P0230) {7}
SYM 172AB "V_FP_ER_TM2"             #[UY=flo(X/8)]       #sec           #P0231 Delay Pump Monitor {7}
SYM 172AC "V_FP_ER_TM3"             #[UY=flo(X/8)]       #sec           #P0232 Delay Pump Monitor {7}
SYM 172AD "FP_ER_ST_SW"                                  #              #Pump Secondary Test KOER (P0231) {7}
#SYM 172AD "FP_ER_ST_SW"             :B0                  #              #Pump Secondary Test KOER (P0231) {7}
SYM 172AE "FP_PU_ST_SW"                                  #              #Pump Secondary Test at Power On (P0231) {7}
#SYM 172AE "FP_PU_ST_SW"             :B0                  #              #Pump Secondary Test at Power On (P0231) {7}
SYM 172AF "FP_OT_ST_SW"                                  #              #Pump Secondary Test OSM EO on {7}
#SYM 172AF "FP_OT_ST_SW"             :B0                  #              #Pump Secondary Test OSM EO on {7}
SYM 172B0 "FP_EO_ST_SW"                                  #              #Pump Secondary Test KOEO (P0231) {7}
#SYM 172B0 "FP_EO_ST_SW"             :B0                  #              #Pump Secondary Test KOEO (P0231) {7}
SYM 172B2 "PUMP_TOL_DC"             #[UW=flo(X/32768)]   #duty cycle    #FP Tolerance Limit {7}
SYM 172B4 "FP_EO_DM_SW"                                  #              #FPDM KOEO Test SW (Return) {7}
#SYM 172B4 "FP_EO_DM_SW"             :B0                  #              #FPDM KOEO Test SW (Return) {7}
SYM 172B5 "FP_ER_DM_SW"                                  #              #FPDM KOER Test SW (Return) {7}
#SYM 172B5 "FP_ER_DM_SW"             :B0                  #              #FPDM KOER Test SW (Return) {7}
SYM 172B6 "FP_PU_DM_SW"                                  #              #FPDM Power Up Test SW (Return) {7}
#SYM 172B6 "FP_PU_DM_SW"             :B0                  #              #FPDM Power Up Test SW (Return) {7}
SYM 172B7 "FP_PU_HL_SW"             #[UY=flo(X*1)]       #SW 0-1        #Switch to enable testing of 2-speed fuel pump status during power-up {7}
SYM 172B8 "S.0x172B8"               #[UW=flo(X*1)]       #              # {3}
SYM 172BA "S.0x172BA"               #[UW=flo(X*1)]       #              # {3}
SYM 172BC "S.0x172BC"               #[UY=flo(X*1)]       #              # {3}
SYM 172BE "S.0x172BE"               #[UW=flo(X*1)]       #              # {3}
SYM 172C0 "S.0x172C0"               #[UW=flo(X*1)]       #              # {3}
SYM 172C2 "DTSCF_??_172C2"                #[UW=flo(X*1)]       #              #convert seconds to DARC ticks {7}
SYM 172C4 "FP_DGAIN_MUL"            #[UW=flo(X/32768)]   #X             #FP DERIVATIVE TERM {7}
SYM 172C6 "RF_P_GAIN"               #[UW=flo(X/256)]     #X             #FP PROPORTIONAL GAIN TERM {7}
SYM 172C8 "RF_I_GAIN"               #[UW=flo(X/512)]     #X             #FP INTEGRAL GAIN TERM {7}
SYM 172CA "RF_SAMPERIOD"            #[UY=flo(X*1)]       #Secs 0-0.2    #Sampling period for RFP discrete-time closed-loop controller. {7}
SYM 172CC "RF_DP_ERR_TC"            #[UW=flo(X/1024)]    #sec           #FRP DeltaP Filter Time {7}
SYM 172CE "FPMP_ON_TM"              #[UY=flo(X/8)]       #Sec           #OTM Test Max On Time {7}
#SYM172CE "S.0x172CE"               #[UY=flo(X*1)]       #              # {3}
SYM 172CF "RF_DPREF_MOD"            #[UY=flo(X*1)]       #NONE 0-1      #RFP flag to select method of calculating RF_DP_REF {7}
SYM 172D0 "RF_DPREF_CAL"            #[UW=flo(X/512)]     #PSI           #Default FRP Reference PSI  {7}
SYM 172D2 "RF_DELCOL"               #[UW=flo(X/256)]     #X             #Rail Pres Stable Deadband Cols {2}
#SYM172D2 "S.0x172D2"               #[UW=flo(X*1)]       #              # {3}
SYM 172D4 "RF_DELROW"               #[UW=flo(X/256)]     #X             #Rail Pres Stable Deadband Rows {2}
#SYM172D4 "S.0x172D4"               #[UW=flo(X*1)]       #              # {3}
SYM 172D6 "RF_FFDDBND"              #[UY=flo(X/16)]      #Volts         #RFS Pump Voltage Deadband {7}
SYM 172D7 "RF_FFLLMUL"              #[UY=flo(X/128)]     #x             #RFS Feed Forward Min {2}
#SYM172D7 "S.0x172D7"               #[UY=flo(X*1)]       #              # {3}
SYM 172D8 "RF_FFULMUL"              #[UY=flo(X/128)]     #x             #RFS Feed Forward Max {2}
#SYM172D8 "S.0x172D8"               #[UY=flo(X*1)]       #              # {3}
SYM 172D9 "RF_FF_ADAPT"                                  #              #Allow RFS Pump Adaptive Updates {0}
SYM 172D9 "RF_FF_ADAPT"             :B0                  #              #Allow RFS Pump Adaptive Updates {2}
#SYM172D9 "S.0x172D9"               #[UY=flo(X*1)]       #              # {3}
SYM 172DA "RF_FF_ADT_TC"            #[UW=flo(X/1024)]    #sec           #Pump Adap Update Rate {2}
#SYM172DA "S.0x172DA"               #[UW=flo(X*1)]       #              # {3}
SYM 172DC "RF_UPRATE"               #[UW=flo(X/1024)]    #sec           #RF Update Rate {2}
#SYM172DC "S.0x172DC"               #[UW=flo(X*1)]       #              # {3}
SYM 172E0 "RF_DBHYST"               #[UY=flo(X*1)]       #Vdc 0-15.9375 #Returnless fuel pump feedforward deadband hysteresis. {7}
SYM 172E2 "FP_RTSNS_HP"                                  #              #Fuel Rail Temp Sensor Present {7}
#SYM 172E2 "FP_RTSNS_HP"             :B0                  #              #Fuel Rail Temp Sensor Present {7}
SYM 172E3 "FRT_WGT_RUN"             #[UY=flo(X/256)]     #FRACTION 0-1  #Fuel rail temp weighting factor for ECT and ACT with engine running {7}
SYM 172E4 "FRT_WGT_SOAK"            #[UY=flo(X/256)]     #fraction act/ect#FRT ACT/ECT Fraction {7}
SYM 172E6 "TC_FRT_SOAK"             #[UW=flo(X/2)]       #min 0-1680    #Time const for fuel rail temperature during soak {7}
SYM 172EC "FP_EO_RP_SW"                                  #              #FRP Test KOEO (fuel rail pressure sensor) {7}
SYM 172ED "FP_ER_RP_SW"                                  #              #FRP Test KOER (fuel rail pressure sensor) {7}
SYM 172EE "FP_PU_RP_SW"                                  #              #RFP Sensor Test During Power Up {7}
SYM 172EF "FP_FRDPS_TM"             #[UY=flo(X/8)]       #sec           #FRPS Fault Time Threshold (P0190 - P0193) {7}
SYM 172F0 "RF_FRDPS_MAX"            #[UW=flo(X/64)]      #AD Cnts       #FRP Sensor Fault Max {7}
SYM 172F2 "FP_EO_RT_SW"             #[UY=flo(X*1)]       #FLAG 0-1      #Switch to enable fuel rail temp sensor test during KOEO (Not_Modifiable*) {7}
SYM 172F3 "FP_ER_RT_SW"             #[UY=flo(X*1)]       #FLAG 0-1      #Switch to enable fuel rail temp sensor test during KOER (Not_Modifiable*) {7}
SYM 172F4 "FP_PU_RT_SW"             #[UY=flo(X*1)]       #X 0-1         #Switch to enable fuel rail temp sensor test during power-up {7}
SYM 172F5 "FP_FRTS_TM"              #[UY=flo(X/8)]       #sec           #FRT Fault Time (P0183) {7}
SYM 172F6 "RF_FRTS_MIN"             #[UW=flo(X*1)]       #Vdc 0-1023    #Fuel rail temp sensor raw input min value {7}
SYM 172F8 "RF_FRTS_MAX"             #[UW=flo(X*1)]       #Vdc 0-1023    #Fuel rail temp sensor raw input max value {7}
SYM 172FE "DISFMEMTM"               #[UY=flo(X*1)]       #Secs 0-255    #Time limit on DIS FMEM action.  Allows for rechecking the presence of the malfunction {7}
SYM 172FF "MISFMEM_DSRD"            #[UY=flo(X*1)]       #X 0-1         #Calibration switch to select/deselect FMEM due to misfire. 0 -> deselect, 1 -> select {7}
SYM 17300 "MIS_HDR_SW"              #[UY=flo(X*1)]       #X 0-1        #Switch which selects between Low and High Data Rate misfire: 0 -> LDR, 1 -> HDR Resolution: 1 {7}
SYM 17301 "V_HMIS_MIN_TMP"          #[UY]                               # {7}
SYM 17302 "CF_DNDTI_MIN"            #[SW=flo(X*1)]       #RPM/S-8192-8191.75#Stop profile learning if dn/dt falls below this lower limit during a dfso coastdown Base Value: -8192 Resolution: 0.25 {7}
SYM 17304 "CF_DNDTI_MAX"            #[SW=flo(X*1)]       #RPM/S-8192-8191.75#Stop profile learning if dn/dt increases above this upper limit during a dfso coastdown Base Value: 8191.75 Resolution: 0.25 {7}
SYM 17306 "S.0x17306"               #[UW=flo(X*1)]       #              # {3}
SYM 17308 "V_MIS_BGMAX"             #[UW=flo(X*1)]       #Sec 0-63.999001#bypass misfire test foreground logic when BG_TMR exceeds this value Base Value: 0.50 Resolution: 0.000977 {7}
SYM 1730A "V_MIS_NMAX"              #[UW=flo(X*1)]       #RPM 0-16383.75#maximum rpm to do misfire background Base Value: 5000 Resolution: 0.25 {7}
SYM 1730C "V_MIS_NMIN"              #[UW=flo(X*1)]       #RPM 0-16383.75#minimum rpm to do misfire background Base Value: 600 Resolution: 0.25 {7}
SYM 1730E "VMIS_NOISBND"            #[UY=flo(X*1)]       #EVENTS 0-30   #number of firing events between a noisy event and an event that may be evaluated Base Value: 15 Resolution: 1 {7}
SYM 1730F "S.0x1730F"               #[UY=flo(X*1)]       #              # {3}
SYM 17310 "S.0x17310"               #[UW=flo(X*1)]       #              # {3}
SYM 17312 "S.0x17312"               #[UW=flo(X*1)]       #              # {3}
SYM 17314 "S.0x17314"               #[UY=flo(X*1)]       #              # {3}
SYM 17315 "S.0x17315"               #[UY=flo(X*1)]       #              # {3}
SYM 17318 "MISHOT200"               #[UW=flo(X*1)]       #X 0-0.999985  #Offset added to type A misfire rate threshold to de-sensitize the monitor for hot starts Base Value: 0 Resolution: 0.000015 {7}
SYM 1731A "MISCOLD200"              #[UW=flo(X*1)]       #X 0-0.999985  #Offset added to type A misfire rate threshold to de-sensitize the monitor for cold starts Base Value: 0 Resolution: 0.000015 {7}
SYM 1731C "MISHOT1000"              #[UW=flo(X*1)]       #X 0-0.999985  #De-sensitised type B misfire rate threshold, for hot starts Base Value: 0.015 Resolution: 0.000015 {7}
SYM 1731E "MISCOLD1000"             #[UW=flo(X*1)]       #X 0-0.999985  #De-sensitised type B misfire rate threshold, for cold starts Base Value: 0.015 Resolution: 0.000015 {7}
SYM 17320 "MISLEVEL1000"            #[UW=flo(X*1)]       #X 0-0.999985  #percent misfire threshold for emissions Base Value: 0.015 Resolution: 0.000015 {7}
SYM 17322 "MISLEVELSMLR"            #[UW=flo(X*1)]       #X 0-0.015     #Percent misfire threshold for similar conditions check Base Value: 0.015 Resolution: 0.000000 {7}
SYM 17324 "MISLVLEXP"               #[UW=flo(X*1)]       #X 0-0.999985  #Misfire rate threshold for control of FFG_MISFIRE Base Value: 0.015 Resolution: 0.000015 {7}
SYM 17326 "S.0x17326"               #[UY=flo(X*1)]       #              # {3}
SYM 17327 "S.0x17327"               #[UY=flo(X*1)]       #              # {3}
SYM 17328 "BYPS_BRKPNT"             #[UY=flo(X*1)]       #X 0-1         #threshold of value returned from FNMISOK for decision to test or not for misfire Base Value: 0.5 Resolution: 0.007812 {7}
SYM 17329 "MISID_BRKPNT"            #[UY=flo(X*1)]       #X 0-1         #Threshold for the FNMISID table output above which cylinder identification for HDR misfire is enabled Base Value: 0.5 Resolution: 0.007812 {7}
SYM 1732A "MIS_MIN_TQ"              #[UW=flo(X*1)]       #LBF*FT -1024-1023#Minimum net torque required to allow misfire testing. Resolution: 0.03125 {7}
SYM 1732C "MIS_NTQ_DEL"             #[SW=flo(X*1)]       #LBF*FT -1024-1023#If delta engine torque value exceeds this lower limit (decel), disable misfire testing. Resolution: 0.03125 {7}
SYM 1732E "MIS_PTQ_DEL              #[SW=flo(X*1)]       #LBF*FT -1024-1023#If delta engine torque value exceeds this upper limit (heavy tip-in), disable misfire testing. Resolution: 0.03125 {7}
SYM 17330 "MIS_NTQ_OFF"             #[UW=flo(X*1)]       #LBF*FT -1024-1023#Raise the misfire negative torque threshold (with this offset) when the vehicle speed is > 0. Resolution: 0.031250 {7}
SYM 17332 "MIS_TIPIN"               #[SW=flo(X*1)]       #ADCT -1024-1023.968994#If 'tp_rate' exceeds this theshold (i.e. a tip-in), disable misfire testing. Resolution: 0.03125 {7}
SYM 17334 "MIS_TIPOUT"              #[SW=flo(X*1)]       #ADCT -1024-1023.968994#If 'tp_rate' exceeds this negative theshold (i.e. a tip-out), disable misfire testing. Resolution: 0.03125 {7}
SYM 17336 "MIS_NTQ_VS"              #[UY=flo(X*1)]       #MPH 0-127     #Above this minimum vehicle speed, offset the minimum torque value to disable misfire sooner during decels Resolution: 0.5 {7}
SYM 17337 "MIS_ISCF_SW"             #[UY=flo(X*1)]       #X 0-1         #Switch which enables the Idle Speed Control indicator (ISCFLG) to be included in the misfire test ready logic Resolution: 1 {7}
SYM 17338 "S.0x17338"               #[UY=flo(X*1)]       #              # {3}
SYM 17339 "MIS_ECTMAX"              #[SY=flo(X*1)]       #DegF -256-254 #Maximum ECT to enable misfire monitor Base Value: 240 Resolution: 2 {7}
SYM 1733A "MIS_ECTMIN"              #[SY=flo(X*1)]       #DegF -256-254 #Minimum ECT to enable misfire monitor Base Value: 55 Resolution: 2 {7}
SYM 1733B "MIS_ECT_HOT"             #[SY=flo(X*1)]       #DegF -256-254 #Minimum ECT to enable using de-sensitised type B misfire rate threshold for hot starts Base Value: 220 Resolution: 2 {7}
SYM 1733C "MIS_ACT_HOT"             #[SY=flo(X*1)]       #DegF -256-254 #Minimum ACT to enable using de-sensitised type B misfire rate threshold for hot starts Base Value: 125.Resolution: 2. {7}
SYM 1733D "MIS_STRT_DLY"            #[UY=flo(X*1)]       #Sec 0-255     #min time since exiting crank mode before misfire monitor will be ready Base Value: 60 Resolution: 1 {7}
SYM 1733E "CF_KAM_IGNR"             #[UY=flo(X*1)]       #FLAG 0-1      #When set to 1, indicates to misfire logic to ignore the state of CF_KAM_MTR flag Base Value: 0 Resolution: 1 {7}
SYM 17340 "MFF_TRIP_MAX"            #[UW=flo(X*1)]       #EVENTS 0-65535#Maximum number of trips to keep misfire freeze frame data, before clearing them. Base Value: 65535 Resolution: 1 {7}
SYM 17342 "S.0x17342"               #[UY=flo(X*1)]       #              # {3}
SYM 17343 "S.0x17343"               #[UY=flo(X*1)]       #              # {3}
SYM 17344 "S.0x17344"               #[UY=flo(X*1)]       #              # {3}
SYM 17345 "S.0x17345"               #[UY=flo(X*1)]       #              # {3}
SYM 17346 "S.0x17346"               #[UY=flo(X*1)]       #              # {3}
SYM 17347 "S.0x17347"               #[UY=flo(X*1)]       #              # {3}
SYM 17348 "S.0x17348"               #[UW=flo(X*1)]       #              # {3}
SYM 1734A "S.0x1734A"               #[UW=flo(X*1)]       #              # {3}
SYM 1734C "S.0x1734C"               #[UW=flo(X*1)]       #              # {3}
SYM 1734E "MIS_OT_MOD"              #[SW]                               # {7}
SYM 17350 "S.0x17350"               #[UW=flo(X*1)]       #              # {3}
SYM 17352 "S.0x17352"               #[UY=flo(X*1)]       #              # {3}
SYM 17353 "S.0x17353"               #[UY=flo(X*1)]       #              # {3}
SYM 17354 "S.0x17354"               #[UW=flo(X*1)]       #              # {3}
SYM 17356 "S.0x17356"               #[UY=flo(X*1)]       #              # {3}
SYM 17357 "S.0x17357"               #[UY=flo(X*1)]       #              # {3}
SYM 17358 "MIS_USE_HALF"            #[UY=flo(X*1)]       #X 0-1         #when one indicate 4 cylinder engine misfire uses 1/2 period stroke bracket Base Value: 1 Resolution: 1 {7}
SYM 1735A "S.0x1735A"               #[UW=flo(X*1)]       #              # {3}
SYM 1735C "S.0x1735C"               #[UW=flo(X*1)]       #              # {3}
SYM 1735E "S.0x1735E"               #[UW=flo(X*1)]       #              # {3}
SYM 17360 "CF_SKIP_MIN"             #[UW=flo(X*1)]       #EVENTS 0-65535#Number of events of CFx_NEW values used in calculating CFx_AV Base Value: 5 Resolution: 1 {7}
SYM 17362 "CF_FK_FAST"              #[UW=flo(X*1)]       #X 0-1         #Fast stepping filter constant for 'averaging' of CFs Base Value: 0.10 Resolution: 0.000015 {7}
SYM 17364 "S.0x17364"               #[UY=flo(X*1)]       #              # {3}
SYM 17366 "CF1A_INIT"               #[UW=flo(X*1)]       #X 0-1.999969  #Initial value for half-period profile correction factor for profile 1A Base Value: 1 Resolution: 0.000031 {7}
SYM 17368 "S.0x17368"               #[UW=flo(X*1)]       #              # {7}
SYM 1736A "S.0x1736A"               #[UW=flo(X*1)]       #              # {7}
SYM 1736C "S.0x1736C"               #[UW=flo(X*1)]       #              # {7}
SYM 1736E "CF1_INIT"                #[UW=flo(X*1)]       #X 0-1.999969  #initial value of profile correction factor 1 Base Value: 1 Resolution: 0.000031 {7}
SYM 17370 "S.0x17370"               #[UW=flo(X*1)]       #              # {7}
SYM 17372 "S.0x17372"               #[UW=flo(X*1)]       #              # {3}
SYM 17374 "S.0x17374"               #[UW=flo(X*1)]       #              # {7} 
SYM 17376 "CF_MTR_IGNR"             #[UY=flo(X*1)]       #BIT FLAG 0-1  #IF set, enables learning of CFs all the time. If clear, stops learning after CFs are mature Base Value: 0 Resolution: 1 {7}
SYM 17378 "DACCELCAL_N"             #[UW=flo(X/2048)]    #X             #Misfire AICE Accel Rate {7}
SYM 1737A "S.0x1737A"               #[UW=flo(X*1)]       #              # {3}
SYM 1737C "S.0x1737C"               #[UW=flo(X*1)]       #              # {3}
SYM 1737E "CF_TOLERANCE"            #[UW=flo(X*1)]       #X 0-1.9999    #Maximum variance allowed between new and kam profile cfs during learning Base Value: 0.10 Resolution: 0.000031 {7}
SYM 17380 "S.0x17380"               #[UY=flo(X*1)]       #              # {3}
SYM 17381 "HDR_PRCS_DLY"            #[UY=flo(X*1)]       #x             #Misfire HDR Filter Delay {7}
SYM 173C6 "S.0x173C6"               #[UY=flo(X*1)]       #              # {3}
SYM 173C8 ""HDR_NMAX"                #[UW=flo(X/4)]       #RPM           #HDR Skip Sync  RPM Max {7}
SYM 173CA "HDR_NUM_SMPL"            #[UY=flo(X*1)]       ##             #Misfire Pro Coeff Used (Reluctor Teeth Count) {7}
SYM 173CB "HDR_SKIP_CTR"            #[UY=flo(X*1)]       #X             #CVRS PIP Sync Configuration (NUMCYL) {7}
SYM 173CC "S.0x173CC"               #[UY=flo(X*1)]       #              # {3}
SYM 173CD "SKIP_BYP_SW"                                  #              #AICE SLAP Write Skip Counter SW {7}
#SYM 173CD "SKIP_BYP_SW"             :B0                  #              #AICE SLAP Write Skip Counter SW {7}
SYM 173CE "MISBG_BYP_SW"            #[UY=flo(X*1)]       #X 0-1 Not_Modifiable*#HDR background bypass switch, bypasses the hw diagnostics when set (development only) Base Value: 0 Resolution: 1 {7}
SYM 173CF "S.0x173CF"               #[UY=flo(X*1)]       #              # {3}
SYM 173D0 "LPF_BYP_SW"               #[UY=flo(X*1)]       #              # {7}
SYM 173D2 "LPF_BNDRY_HI"               #[UW=flo(X*1)]       #              # {3}
SYM 173D4 "LPF_BNDRY_LO"               #[UW=flo(X*1)]       #              # {3}
SYM 173D6 "S.0x173D6"               #[UW=flo(X*1)]       #              # {3}
SYM 173D8 "HDR_FM_RETMX"            #[UY=flo(X*1)]       #EVENTS 0-255  #Maximum number of consecutive HDR misfire AICE register failures before AICE FM flag is set Base Value: 2 Resolution: 1 {7}
SYM 173DA "HDR_TRIP_MAX"            #[UW=flo(X*1)]       #EVENTS 0-65535#Maximum number of misfire montior completions before recalculating coefficients Base Value: 65535 Resolution: 1 {7}
SYM 1742C "PROFG_BYP_SW"            #[UY=flo(X*1)]       #X 0-1         #HDR misfire profile coefficient switch.  When set to 1 will bypass profile foreground logic. Resolution: 1 {7}
SYM 1742D "PROBG_BYP_SW"            #[UY=flo(X*1)]       #X 0-1         #HDR misfire profile coefficient switch.  When set to 1 will bypass profile background logic. Base Value: 0 Resolution: 1 {7}
SYM 1742E "MLEARN_SW"               #[UY=flo(X*1)]       #ENUM 0-1      #Switch to turn on HDR misfire adaptive pattern cancellation logic  Resolution: 1 {7}
SYM 17430 "MLEARN_NMIN"             #[UW=flo(X*1)]       #RPM 0-16383.75#Lower rpm limit for turning on HDR misfire adaptive logic, also resets the adaptive logic when rpm falls below this Base Value: 3500 Resolution: 0.25 {7}
SYM 17432 "S.0x17432"               #[UW=flo(X*1)]       #              # {3}
SYM 17434 "S.0x17434"               #[UW=flo(X*1)]       #              # {3}
SYM 17436 "S.0x17436"               #[UW=flo(X*1)]       #              # {3}
SYM 17438 "MLEARN_NDEL"             #[UW=flo(X*1)]       #RPM 0-16383.75#Sets the rpm width for HDR pattern learning inside a kam table cell Base Value: 100 Resolution: 0.25 {7}
SYM 1743A "MLEARN_LDEL"             #[UW=flo(X*1)]       #X 0-1.999969  #Sets the load width for HDR adaptive learning inside a kam table cell Base Value: 0.05 Resolution: 0.000031 {7}
SYM 1743C "S.0x1743C"               #[UW=flo(X*1)]       #              # {3}
SYM 1743E "S.0x1743E"               #[UW=flo(X*1)]       #              # {3}
SYM 17440 "MDELTAOK_MIN"            #[UY=flo(X*1)]       #EVENTS 0-255  #Number of PIPs which must occur without a misfire, before the HDR adaptive logic will unfreeze learning of patterns Base Value: 18 Resolution: 1 {7}
SYM 17441 "S.0x17441"               #[UY=flo(X*1)]       #              # {3}
SYM 17442 "MFREEZE_NDEL"            #[UW=flo(X*1)]       #RPM 0-16383.75#If the HDR adaptive logic stops learning, rpm must return to within this value of the last update before learning can resume Base Value: 500 Resolution: 0.25 {7}
SYM 17444 "MFREEZE_LDEL"            #[UW=flo(X*1)]       #X 0-1.999969  #If HDR adaptive logic stops learning, load must return within this much of last update before learning can resume Base Value: 0.10 Resolution: 0.000031 {7}
SYM 17446 "EPCSH_MIL_SW"            #[UY]                #SW 0-1        #Calibration switch to enable/disable MIL illumination for EPC short to ground malfunctions {7}
SYM 17447 "EPCSH_INT_SW"            #[UY]                #SW 0-1        #Calibration switch to enable/disable the NON-MIL Intermittent  Fault code for EPC short to ground {7}
SYM 17448 "EPC_CM_ENA"              #[ Y]                # 0-1          #CALIBRATION SWITCH TO ENABLE EPC CURRENT MONITOR TEST {7}
SYM 17448 "EPC_CM_ENA"              :B0                  # 0-1          #EPC Current Monitor SW (Auto Trans) {7}
SYM 17449 "EPC_DLY_TIM"             #[UY=flo(X*1)]       # msecs 0-255  #EPC test delay time {7}
SYM 1744A "ETV_BIAS"                #[UW=flo(X*1)]       #VOLTS 0-1023  #ETVOCM VOLTAGE AT 10V VBAT & 0 TV_COUNTS {7}
SYM 1744C "ETV_GAIN_BAT"            #[UY=flo(X*1)]       #Vdc 0-127.5   #ETVOCM COUNT GAIN/ONE VOLT VBAT  {7}
SYM 1744D "P1746LVL"                #[UY=flo(X*1)]       #COUNTS 0-255  #EPC open circuit failure fault threshold {7}
SYM 1744E "S.0x1744E"               #[UY=flo(X*1)]       #              # {3}
SYM 1744F "P1746_EO_LVL"            #[UY=flo(X*1)]       #COUNTS 0-255  #EPC engine-off  open circuit failure fault threshold {7}
SYM 17450 "P1747_EO_LVL"            #[UY=flo(X*1)]       #COUNTS 0-255  #EPC engine-off  short circuit failure fault threshold {7}
SYM 17451 "P1747UP"                 #[UY=flo(X*1)]       #COUNTS 0-255  #EPC short circuit failure upcount {7}
SYM 17452 "P1747LVL"                #[UY=flo(X*1)]       #COUNTS 0-255  #EPC short circuit failure fault threshold {7}
SYM 17453 "TVCDLT"                  #[UY=flo(X*1)]       #EVENTS 0-255  #MAX. CHANGE IN TV COUNTS TO CONSIDER ETV AS STEADY STATE {7}
SYM 17454 "VBAT_MIN"                #[UY=flo(X*1)]       #VOLTS 0-15    #min battery voltage to allow EPC test entry {7}
SYM 17455 "CLD_STRT_DLT"            #[UY=flo(X*1)]       #DegF 0-255    #Maximum allowed difference between ECT and ACT for a start-up to be considered a cold start  {7}
SYM 17456 "SR_OPEN_TCC"             #[UW=flo(X*1)]       #Frac 0-3.999939#Speed Ratio below which TCC is considered open SAME AS RZASA "S.0x176B2" L96479 SPD_RATIO Limit {7}
SYM 17458 "TOT_IRER_LVL"            #[UY=flo(X*1)]       #X 0-255       #TOT in-range test error level SAME AS RZASA "S.0x176BE" L9656E TOT_IRER_CTR Limit {7}
SYM 17459 "OPEN_TCC_UP"             #[UW=flo(X*1)]       #X 0-255       #TOT in-range test counter open TCC upcount SAME AS RZASA "S.0x176A6" L9647B TOT_IR_CTR Adder {7}
SYM 1745A "TOT_IR_ECT"              #[SY=flo(X*1)]       #DegF -256-254 #Minimum ECT required to allow TOT in-range test to complete - indicates engine has warmed up SAME AS RZASA "S.0x176C0" L9653B ECT Limit {7}
SYM 1745B "TOT_IROK_LVL"            #[UY=flo(X*1)]       #X 0-255       #TOT in-range test OK level SAME AS RZASA "S.0x176BF" L9656C TOT_IROK_CTR Limit {7}
SYM 1745C "TOT_IR_ECTMX"            #[SY=flo(X*1)]       #DegF -256-254 #Maximum ECT at start-up to allow TOT In-Range test to run {7}
SYM 1745D "TOT_IR_ECTMN"            #[SY=flo(X*1)]       #DegF -256-254 #Minimum ECT at start-up to allow TOT In-Range test to run {7}
SYM 1745E "TOT_IR_REG12"            #[UW=flo(X*1)]       #Cnts 0-1024   #TOT_CNTS value below minimum limit where some OBD-II diagnostics are disabled SAME AS RZASA "S.0x176C4" L964A5 TOT_CNTS Limit {7}
SYM 17460 "TOT_IR_REG23"            #[UW=flo(X*1)]       #Cnts 0-1024   #TOT_CNTS value above maximum limit where some OBD-II diagnostics are disabled  SAME AS RZASA "S.0x176C6" L964B1 TOT_CNTS Limit {7}
SYM 17462 "TOT_IR_TIM"              #[UW=flo(X*1)]       #Secs 0-65535  #Minimum time in run mode to complete TOT in-range error detection SAME AS RZASA "S.0x176C8" L96546 TOBD_RUN_TMR limit {7}
SYM 17464 "TOT_IR_VS"               #[UY=flo(X*1)]       #MPH 0-127.5   #Vehicle speed above which TOT in-range test counter will be incremented  {7}
SYM 17466 "TOT_REG1_DLT"            #[UW=flo(X*1)]       #Cnts 0-1024   #Minimum rise to TOT_CNTS required to pass region 1 TOT in range test SAME AS RZASA "S.0x176CC" L964DC {7}
SYM 17468 "TOT_REG2_DLT"            #[UW=flo(X*1)]       #Cnts 0-1024   #Minimum change TOT_CNTS required to pass region 2 TOT in range test SAME AS RZASA "S.0x176CE" L96503 {7}
SYM 1746A "TOT_REG3_DLT"            #[UW=flo(X*1)]       #Cnts 0-1024   #Minimum drop in TOT_CNTS required to pass region 3 TOT in range test SAME AS RZASA "S.0x176D0" L96518 {7}
SYM 1746C "TOT_REG2_SW"             #[UY=flo(X*1)]       #Cal SW 0-1    #Calibration switch to enable/disable TOT in-range region 2 test {7}
SYM 1746E "TOT_IR_LVL"              #[UW=flo(X*1)]       #X 0-65535     #Minimum number of in gear, power-on, vehicle moving events required to complete SAME AS RZASA "S.0x176C2" L96551 TOT_IR_CTR Limit{7}
SYM 17470 "TOT_SOAK_TIM"            #[UW=flo(X*1)]       #MIN 0-1680    #The amount of time in minutes for the engine to have been off (cold soak) prior to running the in-range TOT test {7}
SYM 17472 "OS_MOV"                  #[UW=flo(X*1)]       #RPM 0-1024    #Output Shaft Speed above which test will be executed Base Value: 250 {7}
SYM 17474 "VS_MOV"                  #[UY=flo(X*1)]       #MPH 0-80      #VEHICLE SPEED ABOVE WHICH TSS TEST WILL BE EXECUTED Base Value: 15 {7}
SYM 17475 "V_VSS_MULT"              #[UY=flo(X*1)]       #X 0-3.98      #Multiplier for FN689V when in 4x4 mode {7}
SYM 17476 "TST_DIS_TIM"             #[UW=flo(X*1)]       #Secs 0-65535  #Maximum time transmission self test will be disabled based on TOT Base Value: 600 {7}
SYM 17478 "TST_TOT_MIN"             #[SW=flo(X*1)]       #Deg -20-254   #Minimum TOT to allow Transmission self test entry Base Value: 0.0 {7}
SYM 1747A "TST_ECT_MIN"             #[SY=flo(X*1)]       #Degs -256-254 #Minimum ECT to enable transmission self test if TFT fails Base Value: 160 {7}
SYM 1747C "NE_VMOV_MAX"             #[UW=flo(X*1)]       #RPM 0-16383.75#Maximum engine speed at which vehicle motion will be inferred Base Value: 4000 {7}
SYM 1747E "NE_CSTDWN"               #[UW=flo(X*1)]       #RPM 0-6000    #Engine speed above which the coast down inferred vheicle motion load check will be enabled Base Value: 1800 {7}
SYM 17480 "CSTDWN_LOAD"             #[UW=flo(X*1)]       #X 0-1.999969  #LOAD value below which the vehicle is inferred to be in a coast down mode -> vehicle should be moving Base Value: 0.666 {7}
SYM 1749E "NOV_DLY_TIM"             #[UY=flo(X*1)]       #Secs 0-31.875 #Mimimum time entry conditions must be met to calculate N/V AND time between N/V samples {7}
SYM 174A0 "MX_DELTA_NOV"            #[UW=flo(X*1)]       #RPM/MPH 0-511.98999#Maximum allowed change in N/V samples SAME AS RZAS "S.0x1838A" L8B8C2 {7}
SYM 174A2 "SS_MIL_SW"               #[UY=flo(X*1)]       #SWITCH 0-1    #Calibration switch used to enable/disable MIL for shift sol functional faults; 1 -> MIL enabled {7}
SYM 174A4 "MX_OPNTC_RT2"            #[UW=flo(X*1)]       #X 0.25-3.99   #Maximum gear ratio allowed to pass the non-TSS open TCC ratio test in 2nd gear SAME AS RZASA "S.0x1838C" L8BA4E {7}
SYM 174A6 "MX_OPNTC_RT3"            #[UW=flo(X*1)]       #X 0.25-3.99   #Maximum gear ratio allowed to pass the non-TSS open TCC ratio test in 3rd gear SAME AS RZASA "S.0x1838E" L8BA5F {7} 
SYM 174A8 "MX_OPNTC_RT4"            #[UW=flo(X*1)]       #X 0.25-3.99   #Maximum gear ratio allowed to pass the non-TSS open TCC ratio test in 4th gear SAME AS RZASA "S.0x18390" L8BA6B {7}
SYM 174AA "MN_RT_TOT"               #[SW=flo(X*1)]       #Degs -4096-4095.875#Minimum TOT to run ratio test {7}
SYM 174AC "RT_DLY_TIM"              #[UY=flo(X*1)]       #Secs 0-31.875 #Ratio test delay timer SAME AS RZASA "S.0x183A8" L8BA26 RT_DLY_TMR Limit {7}
SYM 174AE "MN_RT_DC"                #[UW=flo(X*1)]       #DUTY CYCLE 0-1.999969 #Minimum TCC duty cycle to run TCC locked ratio test {7}
SYM 174B0 "MX_RT_TOT"               #[SW=flo(X*1)]       #Degs -4096-4095.875#Maximum TOT to run ratio test {7}
SYM 174B2 "MX_RT_SLIP_D"            #[SW=flo(X*1)]       #RPM -1020-1020#Slip desired value above which the ratio test will be disabled {7}
SYM 174B4 "TCNEGRV"                 #[UW=flo(X*1)]       #Secs 0-63.990002#Time constant for filtered output shaft speed NEGRVBAR {7}
SYM 174B6 "RT_TOL"                  #[UY=flo(X*1)]       #X 0-0.99      #Locked TCC ratio test tolerance {7}
SYM 174B7 "TCC_ON_SW"               #                    # 0-1          #Calibration switch used to enable/disable counting testing TCC On state as part of a 'trip' {7}
SYM 174B8 "TCC_DC_OFF"              #[UW=flo(X/32768)]   #TCC DC        #Commanded Test DC {7}
SYM 174BA "TCC_DC_ON"               #[UW=flo(X/32768)]   #TCC DC        #Commanded Test DC {7}
SYM 174BC "TCC_CKT_LVL"             #[UY=flo(X*1)]       # 0-255        #TCC solenoid circuit check fault threshold {7}
SYM 174BD "TCC_EO_LVL"              #[UY=flo(X*1)]       # 0-255        #TCC  engine-off solenoid circuit check fault threshold {7}
SYM 174BE "TCC_CKT_UP"              #[UY=flo(X*1)]       # 0-255        #TCC solenoid circuit check upcount {7}
SYM 174BF "TCC_CK_MILSW"            #                    # 0-1          #Calibration switch to enable/disable MIL illumination for TCC circuit malfunctions {7}
#SYM 174BF "TCC_CK_MILSW"            :B0                  #              #Calibration switch to enable/disable MIL illumination for TCC circuit malfunctions {7}
SYM 174C0 "TCC_ON_TSTSW"                                 #              #TCC Test Counts as Trip {7}
SYM 174C0 "TCC_ON_TSTSW"            :B0                  #              #TCC Test Counts as Trip {7}
SYM 174C2 "TC_TOT"                  #[?W=flo(X*1)]       #Sec 0-63.999001#Time constant for TOT Base Value: 1 {7}
SYM 174C4 "KOEO_TV_CNTS"            #[UY=flo(X*1)]       #COUNTS 0-255  #Commanded value of _TV_COUNTS during KOEO epc vfs test Base Value: 50.0 Resolution: 1.0 {3}
SYM 174C5 "TCIL_TM_DLY"             #[UY=flo(X*1)]       #Secs 0-31.875 #Time after a fault has occurred before {7}
SYM 174C8 "TOT_SFTV_MX"             #[SW=flo(X*1)]       #DegF -4096-4095.875#Maximum TOT to allow shifts to be validated {7}
SYM 174CA "TOT_SFTV_MN"             #[SW=flo(X*1)]       #DegF -4096-4095.875#Minimum TOT to allow shifts to be validated {7}
SYM 174CC "SFT_ERR_LVL"             #[UY=flo(X*1)]       #COUNTS 0-255  #Shift error fault threshold {7}
SYM 174CD "S.0x174CD"               #[UY=flo(X*1)]       #              # {3}
SYM 174CE "SFT_FM_LVL"              #[UY=flo(X*1)]       #COUNTS 0-255  #NUMBER OF WARM UP CYCLES FAILURE MODE ACTION WILL BE EXECUTED AFTER A SHIFT ERROR CODE IS SET {7}
SYM 174FE "PDL_EOW_LVL"             #[UW=flo(X*1)]       #EVENTS 0-65535#Engine-OFF  TRS circuit failure fault threshold, (Word Size) {7}
SYM 17500 "PDL_W_UP"                #[UW=flo(X*1)]       #EVENTS 0-65535#Upcount for TRS circuit malfunction fault filter, (Word Size) {7}
SYM 17502 "OSS_FM_TIM"              #[UY=flo(X*1)]       #Sec 0-31.875  #OSS failure mode time, the minimum amount of time oss fmem action will be executed.Base Value: 10 Resolution: 0.125 {7}
SYM 17503 "OSS_MON_TIM"             #[UY=flo(X*1)]       #Sec 0-255   #OSS monitor time, the minimum amount of time the OSS must function to set the monitor flag Base Value: 120.Resolution: 1.0 {7}
SYM 17504 "OSSMIN"                  #[UW=flo(X*1)]       #RPM 0-16383.75#Min. value of NOBART for OSS okay Base Value: 5.0 Resolution: 0.25 {7}
SYM 17506 "OSSTIM"                  #[UY=flo(X*1)]       #Sec 0-31.875  #Value of OSSTMR for OSS failure Base Value: 3.0 Resolution: 0.125 {7}
SYM 17508 "NOV_NORM_MAX"            #[UW=flo(X*1)]       #RPM/MPH 0-511.98999#N/V above which the transfer case will be assumed to be in 4X4L whne normal mode is indicated SAME AS RZASA "S.0x1690A"L8BCB8 {7}
SYM 1750A "NOV_4X4_MIN"             #[UW=flo(X*1)]       #RPM/MPH 0-511.98999#N/V below which the transfer case will be assumed to be in normal mode when 4X4L is indicated SAME AS RZASA "S.0x1690A"L8BCB8 {7}
SYM 1750C "TCVSDIAG"                #[UW=flo(X*1)]       #Secs 0-63.990002#Time constant for VSDIAG SAME AS RZASA "S.0x18402" L8B080 {7}
SYM 1750E "TCOSDIAG"                #[UW=flo(X*1)]       #Secs 0-63.990002#Time constant for OSDIAG SAME AS RZASA "S.0x183FE" L8B0AD {7}
SYM 17510 "TCESDIAG"                #[UW=flo(X*1)]       #Secs 0-63.990002#Time constant for ESDIAG SAME AS RZASA "S.0x183FC" L8B01D {7}
SYM 17512 "VS_HP"                                        #SW 0-1        #Switch indicating a source of vehicle speed (VSS or SCP) is present; 0 -> all vehicle speed calcs come from OSS, 1 -> VSS or SCP VS {7}
SYM 17512 "VS_HP"                   :B0                  #SW 0-1        #Switch indicating a source of vehicle speed (VSS or SCP) is present; 0 -> all vehicle speed calcs come from OSS, 1 -> VSS or SCP VS {7}
#SYM17512 "S.0x17512"               #[UY=flo(X*1)]       #              # {3}
SYM 17513 "VSS_MIL_SW"              #[UY=flo(X*1)]       #X 0-1         #Calibration switch to enable/disable MIL illumination for a VSS malfunction {7}
SYM 17514 "NEDROP"                  #[UW=flo(X*1)]       #RPM 0-16383.990234#Engine RPM to drop before checking for another engine RPM upshiftr SAME AS RZASA "S.0x18466" L8D2D1 NE_START Subtractor {7}
SYM 17516 "S.0x1768B"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x1768B" L89EFD VS_PRE_CONS Limit {7}
SYM 17517 "MLPS_KOEO_EN"            #[UY=flo(X*1)]       #CAL SW 0-1    #MLPS KOEO test enable cal switch; 1 -> test called in {7}
SYM 17518 "S.TMR_HS_M1"             #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x18468" L8D861 {7}
SYM 1751A "NEHSM1"                  #[UW=flo(X/4)]       #RPM           #Max Speed to force 2nd in Manual 1 {7}
SYM 1751C "VSHSM1"                  #[UY=flo(X/2)]       #MPH           #Manual 1st MPH Max {7}
SYM 1751E "TM_M12"                  #[UW=flo(X/1024)]    #sec           #Delay 3rd Sol on Manual 1-2 Shift {7}
SYM 17520 "TM_HS_M12"               #[UW=flo(X/1024)]    #sec           #Manual 1-2 High Speed Kickout 3rd SS Command Time {7}
SYM 17522 "HOT21_S"                 #[SW=flo(X*1)]       #DegF -4096-4095.875#Temperature at which the hot 2-1 shift schedule is used Base Value: 4094 Resolution: 0.125 {7}
SYM 17524 "HOT21_C"                 #[SW=flo(X*1)]       #DegF -4096-4095.875#Temperature at which the hot 2-1 shift schedule is no longer used Base Value: 4095.875 Resolution: 0.125 {7}
SYM 17676 "FDR"                     #[UW=flo(X*1)]       #X 0-8         #FINAL DRIVE RATIO Base Value: 3.77 Resolution: 0.000122 {7}
SYM 17678 "PPH_SW"                  #[UY=flo(X*1)]       #ENUM 0-1      #CALIBRATION SWITCH TO TURN ON ON/OFF PPH {7}
SYM 176EA "TCTPDT"                  #[UW=flo(X*1)]       #Sec 0-63.98   #time constant for throttle position used in delta torque Base Value: 1.5 Resolution: 0.000977 SAME AS RZASA "S.0x17706" L0936C {7}
SYM 176EC "TCTQ_NORM"               #[UW=flo(X*1)]       #Sec 0-63.98   #time constant for TQ_NORM Base Value: 1.5 Resolution: 0.000977 SAME AS RZASA "S.0x17708" L094AF {7}
SYM 176EE "TQ_MAX_DELT"             #[UY=flo(X*1)]       #FT-LBS 0-510  #Maximum allowed change in TQ_NET to allow TQ_NORM to update Base Value: 510 Resolution: 2 SAME AS RZASA "S.0x1770A" L09446 TQ_NET-TQ_NET_NET Limit {7}
SYM 176F0 "TQ_MAX_TM"               #[UW=flo(X*1)]       #Sec 0-63.990002#Time to wait before TQ_NORM is allowed to update due to a large change in TQ_NET  Base Value: 0 Resolution: 0.000976 SAME AS RZASA 1770C L09448 {7}
SYM 176F2 "TQ_NET_MIN"              #[UY=flo(X*1)]       #FT-LBS 0-510  #Minimum value of TQ_NET to allow TQ_NORM to update Base Value: 0 Resolution: 2 SAME AS RZASA "S.0x1770E" L09465 TQ_NET Limit {7}
SYM 176F3 "TQ_NORM_UP"              #[UY=flo(X*1)]       #X 0-1.992188  #Maximum allowed change in TQ_NORM per background pass Base Value: 1.992188 Resolution: 0.007812 SAME AS RZASA "S.0x1770F" L0947B {7}
SYM 176F4 "CHTG_DC"                 #[UW=flo(X/1024)]    #dc%           #CHT Gauge DC {7}
SYM 176F6 "CHTG_PW"                 #[UW=flo(X*1)]       #              #CHT Gauge PW  SAME AS RZASA "S.0x1803A" L9F9CE {7}
SYM 176F8 "PGM_HW_SW"                                    #              #Canister Purge Enable SW {7}
SYM 176F8 "PGM_HW_SW"               :B0                  #              #Canister Purge Enable SW {7}
SYM 176F9 "PRG_FLOW_SW"                                  #              #Purge Flow Test Present {0}
SYM 176F9 "PRG_FLOW_SW"             :B0                  #              #Purge Flow Test Present {2}
#SYM176F9 "S.0x176F9"               #[UY=flo(X*1)]       #              # {3}
SYM 176FA "S.0x176FA"               #[SY=flo(X*1)]       #              # {3}
SYM 176FB "S.0x176FB"               #[UY=flo(X*1)]       #              # {3}
SYM 176FC "S.0x176FC"               #[UW=flo(X*1)]       #              # {3}
SYM 176FE "S.0x176FE"               #[UW=flo(X*1)]       #              # {3}
SYM 17700 "S.0x17700"               #[UW=flo(X*1)]       #              # {3}
SYM 17702 "S.0x17702"               #[UW=flo(X*1)]       #              # {3}
SYM 17704 "S.0x17704"               #[UW=flo(X*1)]       #              # {3}
SYM 17706 "S.0x17706"               #[UW=flo(X*1)]       #              # {3}
SYM 17708 "RZA.0x17754_??"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x17754" L8E8B9 {7}
SYM 1770A "S.0x1770A"               #[SW=flo(X*1)]       #              # {3}
SYM 1770C "PG_TSLADP_TM"            #[UW=flo(X*1)]       #Secs 0-65535  #Value of TSLADPTMR that forces an adaptive sequence to begin Base Value: 2000 Resolution: 1 {7} 
SYM 1770E "S.0x1770E"               #[UW=flo(X*1)]       #              # {3}
SYM 17710 "S.0x17710"               #[UW=flo(X*1)]       #              # {3}
SYM 17712 "S.0x17712"               #[UW=flo(X*1)]       #              # {3}
SYM 17714 "S.0x17714"               #[UY=flo(X*1)]       #              # {3}
SYM 17715 "PG_OL_START"             #[UY=flo(X*1)]       #Sec 0-255     #Minimum time to allow open loop purge, sec Base Value: 120 Resolution: 1.0 {7}
SYM 17716 "S.0x17716"               #[UY=flo(X*1)]       #              # {3}
SYM 17717 "PG_TSLE"                 #[UY=flo(X*1)]       #Sec 0-255     #TIME SINCE LAST EGO SWITCH; USED IN DETERMINING RAMP RATE IN THE PURGE STRATEGY. Base Value: 15 Resolution: 1 {7}
SYM 17718 "S.0x17718"               #[UY=flo(X*1)]       #              # {3}
SYM 17719 "PG_FULPW_TM"             #[UY=flo(X*1)]       #Sec 0-31.875  #Time PG_FUELPW must be below the reset threshold before causing a PC_RESET, sec. Base Value: 0 Resolution: 0.125 {7}
SYM 1771A "S.0x1771A"               #[UW=flo(X*1)]       #              # {3}
SYM 1771C "PG_LAMMAX"               #[UW=flo(X*1)]       #X 1.0-1.99    #MAXIMUM PURGE LAMBSE CLIP WHEN CLOSED LOOP Base Value: 1.150 Resolution: 0.000030 {7}
SYM 1771E "PG_LAMMIN"               #[UW=flo(X*1)]       #X 0.00003-1.0 #MINIMUM PURGE LAMBSE CLIP WHEN CLOSED LOOP Base Value: 0.850 Resolution: 0.000030 {7}
SYM 17720 "S.0x17720"               #[UW=flo(X*1)]       #              # {3}
SYM 17722 "HEGO_DATA_BFR"           #[UW=flo(X*1)]       #              # {7}
SYM 17724 "S.0x17724"               #[UW=flo(X*1)]       #              # {3}
SYM 17726 "PG_DC_DES"               #[UW]                               # {7}
SYM 17728 "S.0x11852"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x11852" {7}
SYM 1772A "S.0x1772A"               #[UW=flo(X*1)]       #              # {3}
SYM 1772C "S.0x1772C"               #[UW=flo(X*1)]       #              # {3}
SYM 1772E "S.0x1772E"               #[UW=flo(X*1)]       #              # {3}
SYM 17730 "S.0x17730"               #[UW=flo(X*1)]       #              # {3}
SYM 17732 "S.0x17732"               #[UW=flo(X*1)]       #              # {3}
SYM 17734 "PG_INJ_PW_LO"            #[UW=flo(X*1)]       #CLOCK TICKS 0-131070#MINIMUM VALUE OF INJECTOR PULSEWIDTH REQUIRED; OTHERWISE THE PURGE IS DECREASED Base Value: 833.0 Resolution: 2.0 {7}
SYM 17736 "PG_INJ_PW_HI"            #[UW=flo(X*1)]       #CLOCK TICKS 0-131070#MINIMUM VALUE OF INJECTOR PULSEWIDTH REQUIRED TO INCREASE PURGE MULTIPLIER, CLOCK TICKS Base Value: 1042.Resolution: 2.0 {7}
SYM 17738 "PG_ISCDTY_LO"            #[UW=flo(X*1)]       #X 0-1.0       #ISCDTY BELOW WHICH PG_RP_ML IS DECREMENTED Base Value: 0 Resolution: 0.000030 {7}
SYM 1773A "PG_ISCDTY_HI"            #[UW=flo(X*1)]       #X 0-1.0       #ISCDTY BELOW WHICH MULTIPLIER INCREASE IS NOT ALLOWED Base Value: 0 Resolution: 0.000030 {7}
SYM 1773C "S.0x1773C"               #[UW=flo(X*1)]       #              # {3}
SYM 1773E "S.0x1773E"               #[UW=flo(X*1)]       #              # {3}
SYM 17740 "S.0x17740"               #[UW=flo(X*1)]       #              # {3}
SYM 17742 "S.0x17742"               #[UW=flo(X*1)]       #              # {3}
SYM 17744 "S.0x17744"               #[UW=flo(X*1)]       #              # {3}
SYM 17746 "S.0x17746"               #[UW=flo(X*1)]       #              # {3}
SYM 17748 "S.0x17748"               #[UW=flo(X*1)]       #              # {3}
SYM 1774A "S.0x1774A"               #[UW=flo(X*1)]       #              # {3}
SYM 1774C "PGM_LD_DT_MX"            #[UW=flo(X*1)]       #RATIO 0-1.999969#Maximum value of PGM_LOAD_DLT above which the purge test is aborted Base Value: 0.040 Resolution: 0.000031 {7}
SYM 1774E "PGM_LOAD_MIN"            #[UW=flo(X*1)]       #X 0-1         #MINIMUM LOAD TO ALLOW PURGE MONITOR TEST Base Value: 0 Resolution: 0.000031 {7}
SYM 17750 "PGM_LOAD_MAX"            #[UW=flo(X*1)]       #X 0-1         #MAXIMUM LOAD TO ALLOW PURGE MONITOR TEST. Base Value: 1 Resolution: 0.000031 {7}
SYM 17752 "PGM_TEMP_MAX"            #[SY=flo(X*1)]       #Deg -40-254   #MAXIMUM TEMPERATURE TO ALLOW PURGE MONITOR TEST Base Value: 180 Resolution: 2 {7}
SYM 17753 "PGM_TEMP_MIN"            #[SY=flo(X*1)]       #Deg -40-254   #MINIMUM TEMPERATURE TO ALLOW PURGE MONITOR TEST Base Value: 30 Resolution: 2 {7}
SYM 17754 "PGM_VS_MAX"              #[UY=flo(X*1)]       #MPH 0-127.5   #MAXIMUM VEHICLE SPEED TO ENTER PURGE MONITOR TEST Base Value: 60 Resolution: 0.5 {7}
SYM 17755 "PGM_VS_MIN"              #[UY=flo(X*1)]       #MPH 0-127.5   #MINIMUM VEHICLE SPEED TO ENTER PURGE MONITOR TEST Base Value: 40 Resolution: 0.5 {7}
SYM 17756 "PG_DC_MAX"               #[UW=flo(X*1)]       #X 0-1.99      #Duty cycle of the purge valve above which it is considered to be at its max ON value. Base Value: 0.98 Resolution: 0.000031 {7}
SYM 17758 "PGM_PG_START"            #[UW=flo(X*1)]       #X 0-1.99      #PURGE DUTY CYCLE ABOVE WHICH TO ALLOW PURGE MONITOR TEST Base Value: 0.75 Resolution: 0.000031 {7}
SYM 1775A "CANP_THRES"              #[UW=flo(X/1024)]    #x             #Vapor Threshold Max (P0443) {2}
#SYM1775A "S.0x1775A"               #[UW=flo(X*1)]       #              # {3}
SYM 1775C "TC_CANP"                 #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for CANP or VMV fault filtering Base Value: 0 Resolution: 0.000977 {7}
SYM 1775E "PGM_TEMP_MUL"            #[UY=flo(X*1)]       #X 0-1         #PURGE MONITOR FRACTIONAL MULTIPLIER; 1.0 = USE ALL ECT. 0.0 = USE ALL ACT.Base Value: 0.5 Resolution: 0.0078 {7}
SYM 1775F "PGM_RST_CNT"             #[UY=flo(X*1)]       #X 0-255       #NUMBER OF TIMES PURGE MONITOR IS ALLOWED TO BE TRIED PER ENGINE KEY-ON Base Value: 5 Resolution: 1 {7}
SYM 17760 "PGM_CL_TM"               #[UW=flo(X*1)]       #Sec 0-65535   #TIME IN CLOSED LOOP TO ALLOW PURGE MONITOR TEST Base Value: 60 Resolution: 1 {7}
SYM 17762 "PGM_RST_TM"              #[SY=flo(X*1)]       #              # {7}
SYM 17763 "PGM_TM"                  #[UY=flo(X*1)]       #Sec 0-254     #TIME VALUE TO DELAY THE READINGS OF THE FLOW TEST Base Value: 20 Resolution: 1 {7}
SYM 17764 "PGM_SELECT"              #[UY=flo(X*1)]       #X 0-4         #PURGE MONITOR STRATEGY SELECT SWITCH Base Value: 0 Resolution: 1 SAME AS RZASA "S.0x17756" L8E8B2 {7}
SYM 17766 "PFS_H_ER"                #[UW=flo(X/64)]      #AD Cnts       #P1445 Threshold (Can Purge) {2}
#SYM17766 "S.0x17766"               #[UW=flo(X*1)]       #              # {3}
SYM 17768 "S.0x17768"               #[UW=flo(X*1)]       #              # {3}
SYM 1776A "PFS_ER_TM"               #[UW=flo(X*1)]       #Sec 0-#63.990002#TIME WITH FAILURE PRESENT REQUIRED TO SET CODE; SEC.Base Value: 20 Resolution: 0.000977 {7}
SYM 1776C "PFS_FM_TM"               #[UW=flo(X*1)]       #Sec 0-#63.990002#MINIMUM TIME IN FMEM MODE ONCE INITIATED, SECONDS Base Value: 20 Resolution: 0.000977 {7}
SYM 1776E "PFS_MON_TM"              #[UW=flo(X*1)]       #Sec 0-63.990002#TIME REQUIRED TO INDICATE THAT A 'TRIP' IS COMPLETE FOR THIS SENSOR, SECONDS.Base Value: 20 Resolution: 0.000977 {7}
SYM 17770 "TC_PFS"                  #[UW=flo(X*1)]       #Sec 0-63.990002#TIME CONSTANT FOR PURGE FLOW SENSOR Base Value: 1 Resolution: 0.000977 {7}
SYM 17772 "PGM_RDY_TM"              #[UY=flo(X*1)]       #Sec 0-255     #Time to say that conditions for test have existed long enough Base Value: 0 Resolution: 1 {7}
SYM 17773 "PGM_MVAC_MIN"            #[UY=flo(X*1)]       #IN HG 0-31.875#Value of INF_MVAC above which to run the purge flow test Base Value: 0 Resolution: 0.125 {7}
SYM 17774 "PGM_DLT_THRS"            #[UW=flo(X*1)]       #COUNTS 0-1023#THRESHOLD VALUE OF PGM_DLT_FLOW BELOW WHICH IS CONSIDERED AN ERROR Base Value: 150 Resolution: 0.015625 {7}
SYM 17776 "PGM_PG_LO"               #[UW=flo(X*1)]       #X 0-1.99      #PURGE DUTY CYCLE BELOW WHICH TO READ IN THE PFS'S VALUE Base Value: 0.4 Resolution: 0.000031 {7}
SYM 17778 "PGM_TP_MIN"              #[UW=flo(X*1)]       #X 0-1023.984009#Minimum value of TP_REL to begin the purge flow test Base Value: 500 Resolution: 0.015625 {7}
SYM 1777A "VMV_OSM_TM"              #[UY=flo(X*1)]       #Sec 0-255     #Time above which the VMV is considered completely monitored Base Value: 5 Resolution: 1 {7}
SYM 1777B "VMV_MXDC_ML"             #[UY=flo(X*1)]       #X 0-64        #Multiplier used with VMV_MXDC_MAX Base Value: 42.5 Resolution: 0.25 {7}
SYM 1777C "VMV_MXDC_SUB"            #[UY=flo(X*1)]       #X 0-256       #Subtractor used with calculation of VMV_MXDC_MAX Base Value: 198 Resolution: 1 {7}
SYM 1777D "VMV_ZDC_ML"              #[UY=flo(X*1)]       #X 0-64        #Multiplier used with VMV_ZDC_MIN Base Value: 32.5 Resolution: 0.25 {7}
SYM 1777E "VMV_ZDC_SUB"             #[UY=flo(X*1)]       #X 0-256       #Subtractor used with VMV_ZDC_MIN Base Value: 5 Resolution: 1 {7}
SYM 17780 "TPR_HI_ER"               #[SW=flo(X*1)]       #IN WATER -64-63.990002#MAXIMUM ACCEPTABLE VALUE FOR TPR; IN. WATER Base Value: 25 Resolution: 0.001950 {7}
SYM 17782 "TPR_LO_ER"               #[SW=flo(X*1)]       #IN WATER -64-63.990002#MINIMUM ACCEPTABLE VALUE FOR TPR; IN. WATER Base Value: -25 Resolution: 0.001950 {7}
SYM 17784 "TPR_ER_TM"               #[UW=flo(X*1)]       #Sec 0-63.990002#TIME WITH FAILURE PRESENT REQUIRED TO SET CODE; SEC. Base Value: 20 Resolution: 0.000977 {7}
SYM 17786 "TPR_FM_TM"               #[UW=flo(X*1)]       #Sec 0-63.990002#MINIMUM TIME IN FMEM MODE ONCE INITIATED, SECONDS Base Value: 20 Resolution: 0.000977 {7}
SYM 17788 "TC_TPR_R"                #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant used in the filtering  of  PGM_TANK_PRS,  either  TC_TPR or TC_TPR_PGM depending on conditions Init. Value: 0 Resolution: 0.000977 {7}
SYM 1778A "TC_TPR_PGM"              #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for tank pressure used during phase 1 or 2  of the purge monitor.Base Value: 0.50 Resolution: 0.000977 {7}
SYM 1778C "TPR_MON_TM"              #[UW=flo(X*1)]       #Sec 0-63.990002#TIME REQUIRED TO INDICATE THAT A 'TRIP' IS COMPLETE FOR THIS SENSOR, SECONDS. Base Value: 20 Resolution: 0.000977 {7}
SYM 1778E "S.0x1778E"               #[UW=flo(X*1)]       #              # {3}
SYM 17790 "S.0x17790"               #[UW=flo(X*1)]       #              # {3}
SYM 17792 "S.0x17792"               #[UW=flo(X*1)]       #              # {3}
SYM 17794 "S.0x17794"               #[UY=flo(X*1)]       #              # {3}
SYM 17796 "PGM_FLI_FMEM"            #[UW=flo(X*1)]       #X 0-1.99      #FMEM value for filtered fuel level input, % fill Base Value: 1.0 Resolution: 0.000031 {7}
SYM 17798 "S.0x17798"               #[UW=flo(X*1)]       #              # {3}
SYM 1779A "FLI_FM_TM"               #[UW=flo(X*1)]       #Sec 0-63.990002#Minimum time in FMEM mode once initiated, SECONDS Base Value: 20.Resolution: 0.000977 {7}
SYM 1779C "FLI_SMPL_TM"             #[UW=flo(X*1)]       #Sec 0-63.990002#Time delay between FLI_ENG readings used to initialize PGM_FUEL_LVL, seconds Base Value: 0.5 Resolution: 0.000977 {7}
SYM 1779E "TC_FLI_EXT"              #[UW=flo(X*1)]       #Sec 0-1023.984009#Time constant for filtered fuel level with extended range Base Value: 2.0 Resolution: 0.015625 {7} 
SYM 177A0 "S.0x177A0"               #[UW=flo(X*1)]       #              # {3}
SYM 177A2 "S.0x177A2"               #[UW=flo(X*1)]       #              # {3}
SYM 177A4 "FLI_ACUM_TOL"            #[UW=flo(X*1)]       #X 0-1.99      #Tolerance band within which FLI_KAMN used to initialize PGM_FUEL_LVL, % fill Base Value: 0.03 Resolution: 0.000031 {7}
SYM 177A6 "S.0x177A6"               #[UW=flo(X*1)]       #              # {3}
SYM 177A8 "FLI_SCP_SW"              #[UW=flo(X*1)]       #X 0-1         #Calibration switch to select reception of fuel level input over SCP bus; 1 -> input received over SCP bus.Base Value: 0 Resolution: 1.0 {7}
SYM 177AA "S.0x177AA"               #[UW=flo(X*1)]       #              # {3}
SYM 177AC "S.0x177AC"               #[UY=flo(X*1)]       #              # {3}
SYM 177AE "S.0x177AE"               #[UW=flo(X*1)]       #              # {3}
SYM 177B0 "S.0x177B0"               #[UW=flo(X*1)]       #              # {3}
SYM 177B2 "S.0x177B2"               #[UW=flo(X*1)]       #              # {3}
SYM 177B4 "S.0x177B4"               #[UY=flo(X*1)]       #              # {3}
SYM 177B6 "S.0x177B6"               #[SW=flo(X*1)]       #              # {3}
SYM 177B8 "S.0x177B8"               #[SW=flo(X*1)]       #              # {3}
SYM 177BA "S.0x177BA"               #[UW=flo(X*1)]       #              # {3}
SYM 177BC "S.0x177BC"               #[UW=flo(X*1)]       #              # {3}
SYM 177BE "S.0x177BE"               #[UY=flo(X*1)]       #              # {3}
SYM 177C0 "S.0x177C0"               #[UW=flo(X*1)]       #              # {3}
SYM 177C2 "S.0x177C2"               #[UW=flo(X*1)]       #              # {3}
SYM 177C4 "S.0x177C4"               #[UW=flo(X*1)]       #              # {3}
SYM 177C6 "S.0x177C6"               #[UW=flo(X*1)]       #              # {3}
SYM 177C8 "S.0x177C8"               #[SW=flo(X*1)]       #              # {3}
SYM 177CA "S.0x177CA"               #[UW=flo(X*1)]       #              # {3}
SYM 177CC "S.0x177CC"               #[UW=flo(X*1)]       #              # {3}
SYM 177CE "S.0x177CE"               #[UW=flo(X*1)]       #              # {3}
SYM 177D0 "PGM_TP_DT_MX"            #[SW=flo(X*1)]       #IN.H2O -64-63.990002#Maximum value of PGM_TPR_DLT above which the purge test is aborted Base Value: 5 Resolution: 0.00195 {7}
SYM 177D2 "PGM_FL_DT_MX"            #[UW=flo(X*1)]       #X 0-1.999     #Maximum value of PGM_FLI_DLT above which purge test is aborted Base Value: 1 Resolution: 0.000031 {7}
SYM 177D4 "PGM_PS0_TM"              #[UY=flo(X*1)]       #Sec 0-255     #ALLOWABLE TIME IN PHASE ZERO TO STABILIZE TANK PRESSURE Base Value: 10 Resolution: 1 {7}
SYM 177D5 "S.0x177D5"               #[UY=flo(X*1)]       #              # {3}
SYM 177D6 "S.0x177D6"               #[UY=flo(X*1)]       #              # {3}
SYM 177D7 "S.0x177D7"               #[UY=flo(X*1)]       #              # {3}
SYM 177D8 "PGM_RUN_CNT"             #[UY=flo(X*1)]       #X 0-255       #Number of times purge monitor is allowed to run per engine KEY-ON before a malfunction is indicated Base Value: 5 Resolution: 1 {7}
SYM 177D9 "S.0x177D9"               #[UY=flo(X*1)]       #              # {3}
SYM 177DA "S.0x177DA"               #[UW=flo(X*1)]       #              # {3}
SYM 177DC "S.0x177DC"               #[UW=flo(X*1)]       #              # {3}
SYM 177DE "PGM_CVS_DEC"             #[UW=flo(X*1)]       #X 0-1         #PURGE MONITOR CANISTER VENT SOLENOID DUTY CYLE DECREMENT USED DURING PHASE FOUR.(ALSO PHASE0) Base Value: 1 Resolution: 0.000031 {7}
SYM 177E0 "S.0x177E0"               #[SW=flo(X*1)]       #              # {3}
SYM 177E2 "S.0x177E2"               #[SW=flo(X*1)]       #              # {3}
SYM 177E4 "PGM_PS0_HI"              #[SW=flo(X/512)]     #PPM           #Purge Monitor Ph0 Leak Threshold Min {7}
SYM 177E6 "PGM_PS0_LO"              #[SW=flo(X/512)]     #in. h2o       #Purge Phase 0 Tank Pres Min for Vac Leak {7}
SYM 177E8 "S.0x177E8"               #[SW=flo(X*1)]       #              # {3}
SYM 177EA "S.0x177EA"               #[SW=flo(X*1)]       #              # {3}
SYM 177EC "S.0x177EC"               #[UW=flo(X*1)]       #              # {3}
SYM 177EE "PGM_P0_DCMIN"            #[UW=flo(X*1)]       #X 0-1.99      #Calibratable minimum value of PG_DC in phase 0 below which vacuum will not be sufficient to run test Base Value: 0 Resolution: 0.000031 {7}
SYM 177F0 "PGM_P0_WMX"              #[UW=flo(X*1)]       #PPM 0-0.124   #Maximum value of PCOMP_W allowed in phase 0 Base Value: 0 Resolution: 0.000002 {7}
SYM 177F2 "PGM_P0_CNT"              #[UY=flo(X*1)]       #EVENTS 0-255  #Number of times that Phase 0 is allowed to be reset before the vapor generation phase(3) is called Base Value: 3 Resolution: 1 {7}
SYM 177F3 "S.0x177F3"               #[UY=flo(X*1)]       #              # {3}
SYM 177F4 "S.0x177F4"               #[UY=flo(X*1)]       #              # {3}
SYM 177F6 "S.0x177F6"               #[SW=flo(X*1)]       #              # {3}
SYM 177F8 "S.0x177F8"               #[SW=flo(X*1)]       #              # {3}
SYM 177FA "S.0x177FA"               #[SW=flo(X*1)]       #              # {3}
SYM 177FC "S.0x177FC"               #[SY=flo(X*1)]       #              # {3}
SYM 177FD "S.0x177FD"               #[SY=flo(X*1)]       #              # {3}
SYM 177FE "S.0x177FE"               #[UW=flo(X*1)]       #              # {3}
SYM 17800 "S.0x17800"               #[UW=flo(X*1)]       #              # {3}
SYM 17802 "PGM_TC_LOAD"             #[UW]                #Sec 0-63.990002#Time constant used with ROLAV filtering of PGM_LOAD Base Value: 0 Resolution: 0.000977 {7}
SYM 17804 "PGM_TC_VBAT"             #[UW]                #Sec 0-63.990002#Time constant used with ROLAV filtering of PGM_VBAT Base Value: 0 Resolution: 0.000977 {7}
SYM 17806 "PGM_TC_W"                #[UW=flo(X*1)]       #              # {7}
SYM 17808 "RZA.0x17754"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x17754" L8E8B9 {7}
SYM 1780A "CO_ST_ECT"               #[SY=flo(X*1)]       #DEG -40-250   #Cold Start ECT value for ISC SAME AS RZASA "S.0x17762" L88E97 ECT Limit {7}
SYM 1780B "IAC_ER_TM1"              #[UY=flo(X*1)]       #              #calibrated time to indicate an IAC error condition - overspeed  {7}
SYM 1780C "IAC_ER_TM2"              #[UY=flo(X*1)]       #sec           #calibrated time to indicate an IAC error condition - underspeed {7}
SYM 1780D "IAC_ER_TM3"              #[UY=flo(X*1)]       #              #calibrated time to indicate an IAC error condition - ISCKAM {7}
SYM 1780E "IAC_ISFL_OBD"            #[UY=flo(X*1)]       #UNITLESS 0-4  #ISFLAG comparator to limit operation of IAC OBDII error flags setting  SAME AS RZASA "S.0x17765" L88ECF ISFLAG Limit {7}
SYM 17810 "IAC_MON_TM"              #[UW=flo(X/1024)]    #sec           #Mimimum amount of time before setting an ISC fault monitor code {2}
#SYM17810 "S.0x17810"               #[UW=flo(X*1)]       #              # {3}
SYM 17812 "RZA.0x1776C"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1776C" L88EC4 USPD_RUN_TMR Limit {7}
SYM 17814 "V_IAC_TST"               #[UY=flo(X*1)]       #ENUMERATED 0-2#IAC test type enable switch, 1=enable minimum airflow,2=enable ISCKAM clips  SAME AS RZASA "S.0x1776E" L88EF1 {7}
SYM 17816 "IAC_TP_OBD"              #[UW=flo(X*1)]       #Vdc 0-1023    # SAME AS RZASA "S.0x17770" L88EDF TP_REL Limit {7}
SYM 17818 "IAC_ER_TM4"              #[UY=flo(X*1)]       #sec           #Minimum time for IAC (ISC output) driver fault to be present before setting the fault code {2}
#SYM17818 "S.0x17818"               #[UY=flo(X*1)]       #              # {3}
SYM 17819 "IAC_OT_REQ"                                   #              #IAC Output Driver Test {0}
SYM 17819 "IAC_OT_REQ"              :B0                  #              #IAC Output Driver Test {2}
#SYM17819 "S.0x17819"               #[UY=flo(X*1)]       #              # {3}
SYM 1781A "IAC_TST_DC"              #[UW=flo(X/32768)]   #DC%           #ISCDC Test DC Min (P0511) {2}
#SYM1781A "S.0x1781A"               #[UW=flo(X*1)]       #              # {3}
SYM 1781C "P1460_TM_LMT"            #[UY=flo(X*1)]       #Sec 0-31.875  #Time required to set code for A/C OSM fault Base Value: 1 Resolution: 0.125 {7}
SYM 1781D "P1464_TM_LMT"            #[UY=flo(X*1)]       #Sec 0-31.875  #Time A/C demand in selftest before setting code Base Value: 1 Resolution: 0.125 {7}
SYM 1781E "P1474_TM_LMT"            #[UY=flo(X*1)]       #Sec 0-31.875  #Time required before setting fan OSM fault flag Base Value: 1 Resolution: 0.125 {7}
SYM 1781F "P1479_TM_LMT"            #[UY=flo(X*1)]       #Sec 0-31.875  #Time required before setting HEDF OSM fault Base Value: 1 Resolution: 0.125 {7}

SYM 1786A "INJON_TST"               #[UW=flo(X*1)]       ##             ## Injectors Active TQ_TST_SW (NUMCYL) {7}
SYM 1786C "LAM_TST"                 #[UW=flo(X/32768)]   #Lambse        #Lambse value to be used when the TQ_TST_SW is set to one # SAME AS RZASA "S.0x1FEB8" {7}
SYM 1786E "TC_SPK_EXIST"            #[U ]                #Sec 0-63.990002#Time constant for the filter on TR_SPK_EXIST Base Value: 0 Resolution: 0.000977 {7}

SYM 17870 "TQ_MODULE_SW"            #                    #              #Torque control module switch will disable the torque control actions if zeroed (TQM SW) {7}
SYM 17870 "TQ_MODULE_SW"            :B0                  #              #(TQM SW) {7}
SYM 17872 "TQ_SELECT_SW"            #                    #BITMAP        #Bit pattern based calibration switch to enable the simple percent reduction leg of torque {7}

SYM 17874 "TQ_TST_SW"               #                    #              #TQ Reduction Testing SW ( INJ_ON_TST) {7}
SYM 17874 "TQ_TST_SW"               :B0                  #              #TQ Reduction Testing SW ( INJ_ON_TST) {7}
SYM 17875 "TR_INJ_SH"               #[UY]                #X 0-1         #Hystersis value above 'tr_desired' used to decrease injector toggling.Base Value: 0 Resolution: 0.008 {7} 
SYM 17876 "TR_INJ_SL"               #[UY]                #X 0-1         #Hystersis value below 'tr_desired' used to decrease injector toggling.Base Value: 0 Resolution: 0.008 {7}
SYM 17877 "TR_SPK_LVL_H"            #[UY=flo(X*1)]       #UNITS 0-1     #Torque ratio hysteresis used to prevent toggling between spark only reductions modes and injector/air-fuel/spark reduction modes Base Value:0.020 Resolution:0.008 {7}
SYM 17878 "SPK_TST"                 #[           ]       #              # Spark ratio to be used when the TQ_TST_SW is set to one {7}
SYM 1787A "LAM_CYL_OFF"             #[UW=flo(X/32768)]   #Lambse        #Lambse value to be used when the TQ_SELECT_SW (tq_source) == 0{7}

SYM 1787E "TQ_HI_RPM"               #[UW=flo(X*1)]       #RPM 0-10000   #High RPM set point for PURE_DELAY Base Value: 2500 Resolution: 1 {7}
SYM 17880 "TQ_LO_RPM"               #[UW=flo(X*1)]       #RPM 0-10000   #Low RPM set point for PURE_DELAY Base Value: 1000 Resolution: 1 {7}
SYM 17882 "TQ_LOAD_SW"              #[UY=flo(X*1)]       #X 0-1         #Select LOAD or individual cylinder aircharge to be used in torque lookup tables Base Value: 0 Resolution: 1 {7}
SYM 17884 "S.0x17884"               #[UW=flo(X*1)]       #              # {3}
SYM 17886 "ENG_INERTIA"             #[UW]                #FT-LB/RPM/S0-1.99#Engine inertia Base Value: 0 Resolution: 0.00003 {7}
SYM 17888 "SPK_DNDT_C"              #[UW=flo(X*1)]       #RPM/S*S -8192-8191.75#DNDT hysteresis to cancel tip-in retard action in torque control Base Value:1000 Resolution:0.25 {7}
SYM 1788A "S.0x1788A"               #[SY=flo(X*1)]       #              # {3}
SYM 1788B "S.0x1788B"               #[UY=flo(X*1)]       #              # {3}
SYM 1788C "S.0x1788C"               #[UY=flo(X*1)]       #              # {3}
SYM 1788D "TQ_TIP_VS"               #[UY=flo(X*1)]       #MPH 0-127.989998#Vehicle speed above which injector cutout will not be allowed in tipin torque control.Base Value:10.0 Resolution:0.001953 {3}
SYM 1788E "TQ_TIP_VSR"              #[SW=flo(X*1)]       #MPH/S -20-20  #Vehicle speed rate above which injector cutout will be prohibited in tipin torque.Base Value:4.0 Resolution:0.001953 {7}
SYM 17890 "S.0x17890"               #[UY=flo(X*1)]       #              # {3}
SYM 17894 "TIN_MAN_SW"              #[UY=flo(X*1)]       #X 0-1         #Cal. switch to disable Tipin torque control when transmission is in neutral (0 - Disable, 1- Enable) Base Value:0 Resolution:1.0 {7}
SYM 17896 "TOUT_RMPON"              #[UW=flo(X/128)]     #[X]/S 0-100   #Tipout torque ramp rate in torque ratios per second Base Value: 1 Resolution: 0.007800 {7}
SYM 17898 "TOUT_RMPOFF"             #[UW=flo(X/128)]     #[X]/S 0-100   #Tipout torque ramp rate in torque ratios per second Base Value: 1 Resolution: 0.007800 {7}
SYM 1789A "TQ_DECEL_SW"                                  #X 0-1         #Calibration select switch for what type of torque ramping during a tipout is desired.Base Value: 1 Resolution: 1 {7}
#SYM 1789A "TQ_DECEL_SW"             :B0                  #X 0-1         #Calibration select switch for what type of torque ramping during a tipout is desired.Base Value: 1 Resolution: 1 {7}
SYM 1789B "TQ_DFSO_SW"                                   #ENUM 0-1      #Switch to allows ramping down torque prior to full DFSO. Base Value: 0 Resolution: 1 {7}
#SYM 1789B "TQ_DFSO_SW"              :B0                  #ENUM 0-1      #Switch to allows ramping down torque prior to full DFSO. Base Value: 0 Resolution: 1 {7
SYM 1789C "TOUT_MAN_SW"             #[UY=flo(X*1)]       #X 0-1         #Tipout torque manual neutral drive switch override Base Value: 0 Resolution: 1 {7}
SYM 1789E "TIPOUT_VSR"              #[SW=flo(X*1)]       #MMPH/S -20-20 #TIPOUT VEHICLE ACCEL RATE Base Value: 0 Resolution: 0.00195 SAME AS RZASA "S.0x177FA" L98A69 VS_RATE Limit {7}
SYM 178A0 "TQ_DP_MIN"               #[UW=flo(X/4096)]    #PPM 0-15.999760#Value above Minimum Daspot  which allows the setting of dpmin_flg Base Value: 0 Resolution: 0.000244 {7}
SYM 178A2 "TQ_TOUT_STAL"            #[UY=flo(X*1)]       #X 0-1         #Torque DFSO anti-stall clip option switch - 0 anti stall clip disabled, 1-antil stall clip enabled Base Value: 1. Resolution: 1 SAME AS RZASA "S.0x177FE" L98A82 {7}
SYM 178A3 "FIECT_3_CL"              #[SY=flo(X*1)]       #DegF -40-254  #ECT to exit alternate fire, high load Base Value: 240 Resolution: 2 SAME AS RZASA "S.0x177FF" L99312 ECT Limit {7}
SYM 178A4 "FIECT_3_SH"              #[SY=flo(X/0.5)]     #DegF -40-254  #ECT to force alternate fire, high load Base Value: 250 Resolution: 2{7}
SYM 178A6 "FILOAD_3"                #[UW=flo(X/32768)]   #X 0-1.99      #LOAD to force alternate fire Base Value: 0.8 Resolution: 0.01 {7}
SYM 178A8 "FINCECT_1"               #[SY=flo(X/0.5)]     #DegF -40-254  #ECT to force alternate fire, mid gear Base Value: 254 Resolution: 2 {7}
SYM 178AA "S.0x178AA"               #[UW=flo(X*1)]       #              # {3}
SYM 178AC "FINCTM_1L"               #[UW=flo(X*1)]       #Sec 0-3600    #mid gear high rev duration to force rev limit Base Value: 60 Resolution: 1 {7}
SYM 178AE "FIRPM_3"                 #[UW=flo(X/4)]       #RPM 2000-7500 #RPM to force alternate fire Base Value: 7000 Resolution: 1 {7}
SYM 178B0 "FITP_3"                  #[UW=flo(X/64)]      #CNTS 0-1023   #TP to force alternate fire Base Value: 800 Resolution: 1 {7}
SYM 178B2 "NLMTLO_1"                #[UW=flo(X/4)]       #RPM 2000-7500 #mid gear stage 2 rev limit Base Value: 7000 Resolution: 1.0 {2}
#SYM178B2 "S.0x178B2"               #[UW=flo(X*1)]       #              # {3}
SYM 178B4 "SCP_TOIL_HP"             #[UY=flo(X*1)]       #X 0-1         #Switch to allow logic to use Oil Temp data from SCP; 1->expect Toil data, 0->use backup Toil logic Base Value: 0 Resolution: 1 {7}
SYM 178B5 "S.0x178B5"               #[UY=flo(X*1)]       #              # {3}
SYM 178B6 "S.0x178B6"               #[UY=flo(X*1)]       #              # {3}
SYM 178B8 "SCP_TOIL_RPM"            #[UW=flo(X*1)]       #REV/MIN 0-16383.75#Engine speed to allow TOIL limiting via SCP.Base Value: 0. Resolution: 0.25 {7}
SYM 178BA "INJ_HOLD"                #[UW=flo(X/4)]       #PIP-UP EDGES 0-1000#Number of pips per cylinder to hold current bit pattern (NUMCYL) Base Value: 10 Resolution: 1 {2}
SYM 178BC "INJ_N_LIM"               #[UW=flo(X/4)]       #RPM 0-16383   #Engine speed above which enables the use of round robin cylinder rotation Base Value: 4500 Resolution: 0.25 {2}
SYM 178BE "INJ0_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 0 injectors on (EngCyl, NumCyl) Base Value: 1023 Resolution: 1 {2}
SYM 178C0 "INJ1_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 1 injectors on (EngCyl, NumCyl) Base Value: 511 Resolution: 1 {2}
SYM 178C2 "INJ2_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 2 injectors on (EngCyl, NumCyl) Base Value: 495 Resolution: 1 {2}
SYM 178C4 "INJ3_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 3 injectors on (EngCyl, NumCyl) Base Value: 431 Resolution: 1 {2}
SYM 178C6 "INJ4_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 4 injectors on (EngCyl, NumCyl) Base Value: 429 Resolution: 1 {2}
SYM 178C8 "INJ5_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 5 injectors on (EngCyl, NumCyl) Base Value: 173 Resolution: 1 {2}
SYM 178CA "INJ6_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 6 injectors on (EngCyl, NumCyl) Base Value: 82 Resolution: 1 {2}
SYM 178CC "INJ7_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 7 injectors on (EngCyl, NumCyl) Base Value: 37 Resolution: 1 {2}
SYM 178CE "INJ8_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 8 injectors on (EngCyl, NumCyl) Base Value: 33 Resolution: 1 {2}
SYM 178D0 "INJ9_ON"                 #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 9 injectors on (EngCyl, NumCyl) Base Value: 1.0 Resolution: 1 {2}
SYM 178D2 "INJ10_ON"                #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 10 injectors on (EngCyl, NumCyl) Base Value: 1023 Resolution: 1 {2}
SYM 178D4 "INJ11_ON"                #[UW=flo(X*1)]       #Bits 0-65535  #Bit pattern for 11 injectors on (EngCyl, NumCyl) Base Value: 1023 Resolution: 1 {2}
SYM 178D6 "NLMTHI_0"                #[UW=flo(X)]         #RPM 2000-7500 #low gear stage 3 rev limit (non 2-step) Base Value: 7000 Resolution: 1 {2}
#SYM178D6 "S.0x178D6"               #[UW=flo(X*1)]       #              # {3}
SYM 178D8 "NLMTNEUHI_0"             #[UW=flo(X*1)]       #RPM 2000-7500 #REV LIMIT NEUTRAL Stage 3 (2-step) Base Value: 7000 Resolution: 1 {2}
#SYM178D8 "S.0x178D8"               #[UW=flo(X*1)]       #              # {3}
SYM 178DA "OSS_LIM_SEL"             #[UY=flo(X*1)]       #X 0-1         #Switch to select Base Drivetrain limiting, or Specific Drivetrain limiting (use of RT_NOVS_KAM).Base Value: 0 Resolution: 1.0 {7}
SYM 178DC "TCVS_LIM_BAR"            #[UW=flo(X*1)]       #Sec 0-63      #Time constant for VS_LIM_BAR Base Value: 0.025 Resolution: 0.000977 {7}
SYM 178DE "TQ_NO_LIM_SH"            #[UW=flo(X*1)]       #RPM 0-16383.75#Output Shaft Speed Setpoint for speed limiting Base Value: 0 Resolution: 0.25 {7}
SYM 178E0 "TQ_NO_LIM_CL"            #[UW=flo(X*1)]       #RPM 0-16383.75#Output Shaft Speed Clear point for speed limiting Base Value: 0 Resolution: 0.25 {7}
SYM 178E2 "TR_VS_LIM"               #[UW=flo(X*1)]       #X 0-1         #Torque reduction ratio level to maintain during torque based vehicle/output speed limiting. Base Value: 1.0 Resolution: 0.008 {7}
SYM 178E4 "CHTIL_MAX"               #[SW=flo(X/0.5)]     #CHT           #Gauge Cluster Overheat Lamp CHT On (P1285) {7}
SYM 178E6 "CHTIL_MAX_CL"            #[SW=flo(X/0.5)]     #CHT           #Gauge Cluster Overheat Lamp CHT Off {7}
SYM 178E8 "CHT_CRIT_CL"             #[??=flo(X*1)]       #              #?? {7}
SYM 178EA "CHT_CRIT_SH"             #[SW=flo(X/0.5)]     #Deg F         #CHT Critical Temperature (FAILSAFE) {7}
SYM 178EC "COOL_BEG_TIM"            #[UY=flo(X*1)]       #Sec 0-255     #Time allowed in run mode before entry into fail safe cooling is permitted.Base Value: 0 Resolution: 1 SAME AS RZASA "S.0x17838" L996F8 ATMR1 Limit {7}
SYM 178EE "CHTIL_TIM"               #[UW=flo(X/1024)]??? #Sec 0-255     #Frequency of the engine coolant light flashing on/off Base Value: 255 Resolution: 1 {7}
SYM 178F0 "CHT_CRIT_TIM"            #[UW=flo(X/8)]???    #Sec 0-255     #Time spent  in critical cht 'flashing light' region before engine shutdown occurs Base Value: 255 Resolution: 1 {7}
SYM 178F2 "COOL_CAL_SW"                                  #SW 0-1        #Calibration switch used to invoke 'fail safe cooling strategy' for cylinder head temperature control Base Value: 0 Resolution: 1 {7}
#SYM 178F2 "COOL_CAL_SW"             :B0                  #SW 0-1        #Calibration switch used to invoke 'fail safe cooling strategy' for cylinder head temperature control Base Value: 0 Resolution: 1 {7}
SYM 178F4 "COOL_CHT_MAX"            #[UW=flo(X/0.5)]     #DegF 0-511    #Max CHT to start overtemp control Base Value: 500 Resolution: 2 {7}
SYM 178F6 "COOL_CHT_SET"            #[UW=flo(X/0.5)]     #DegF 0-511    #CHT set point temperature used for feedback control of CHT Base Value: 300.Resolution: 2 {7}
SYM 178F8 "COOL_CYL"                #[UW=flo(X/2048)]??? ##Cyls 0-16    #Number of turned off cylinders at start of overtemperature event Base Value: 4 Resolution: 1 {7}
SYM 178FA "COOL_CYL_IDL"            #[UY=flo(X*1)]       ##Cyls 0-16    #Number of cylinders to turn off when in an idle condition. Base Value: 4 Resolution: 1 {7}
SYM 178FC "COOL_CYL_MIN"            #[UW=flo(X/2048)]??? ##Cyls 0-16    #Min number of turned off cyl Base Value: 3 Resolution: 1 {7}
SYM 178FE "COOL_GN"                 #[UW=flo(X/8192)]    #1/DegF 0-3.99 #Fail safe cooling, PI controller proportional gain Base Value: 0 Resolution: 0.0001 {7}
SYM 17900 "COOL_INT"                #[UW=flo(X/8192)]    #1/deg*sec 0-3.99#PI controller integral gain Base Value: 0.001 Resolution: 0.0001 {7}
SYM 17902 "COOL_MAN"                                     #FLAG 0-16     #Temp cal switch: 1 -> overtemp Base Value: 0 Resolution: 1 {7}
#SYM 17902 "COOL_MAN"                :B0                  #FLAG 0-16     #Temp cal switch: 1 -> overtemp Base Value: 0 Resolution: 1 {7}
SYM 17904 "COOL_SMPL_M"             #[UW=flo(X*1)]       #Sec 0-31.99   #Fail safe Cooling, PI controller sample rate Base Value: 0.10 Resolution: 0.001 SAME AS RZASA "S.0x17850" {7}
SYM 17906 "COOL_WOT_TIM"            #[UY=flo(X*1)]       #sec 0-255     #Time allowed to keep all cylinder on upon a wot entry into fail safe cooling Base Value: 20 Resolution: 1 {7}
SYM 17907 "COOL_CYL_OFF"            #[UY=flo(X*1)]       # # Cyl's 0-16 #Numbers of cylinders to disable when critical temperature is reached Base Value: 2 Resolution: 1 {7}
SYM 17908 "TR_FSC_RMP"              #[UW=flo(X*1)]       #[X]/S 0-32    #Fail safe cooling torque ramp rate Base Value: 25. Resolution: 0.25 SAME AS RZASA "S.0x17854" {7}
SYM 1790C "CHT_LVL1H"               #[UY=flo(X*1)]       #X 0-255       #Number of times CHT is greater than a calibration limit Base Value: 2 Resolution: 1{7}
SYM 1790D "CHT_LVL2H"               #[UY=flo(X*1)]       #X 0-255       #Number of times CHT is greater than a calibration limit Base Value: 2 Resolution: 1SAME AS RZASA "S.0x17857" L99703 CHT_LVL2 Limit {7}
SYM 1790E "CHT_LVL3H"               #[UY=flo(X*1)]       #X 0-255       #Number of times CHT is greater than a calibration limit Base Value: 2 Resolution: 1 {7}
SYM 17910 "FSC_LAMP_TM"             #[UW=flo(X/1024)]    #sec 0-63.999001#Time since power up to keep fail safe cooling  light on for bulb test Base Value: 0 Resolution: 0.000977 {7}
SYM 17916 "S.0x17916"               #[UY=flo(X*1)]       #              # {3}
SYM 17917 "S.0x17917"               #[UY=flo(X*1)]       #              # {3}
SYM 17918 "S.0x17918"               #[UY=flo(X*1)]       #              # {3}
SYM 17919 "S.0x17919"               #[UY=flo(X*1)]       #              # {3}
SYM 1791A "S.0x1791A"               #[UY=flo(X*1)]       #              # {3}
SYM 1791B "S.0x1791B"               #[UY=flo(X*1)]       #              # {3}
SYM 1791C "HEATER_HP22"                                  #              #Hego 4 Rear Heater Present {0}
SYM 1791C "HEATER_HP22"             :B0                  #              #Hego 4 Rear Heater Present {2}
#SYM1791C "S.0x1791C"               #[UY=flo(X*1)]       #              # {3}
SYM 1791D "HEATER_HP12"                                  #              #Hego 3 Rear Heater Present {0}
SYM 1791D "HEATER_HP12"             :B0                  #              #Hego 3 Rear Heater Present {2}
#SYM1791D "S.0x1791D"               #[UY=flo(X*1)]       #              # {3}
SYM 1791E "HEATER_HP21"                                  #              #Hego 2 Driver Heater Present {7}
SYM 1791E "HEATER_HP21"             :B0                  #              #Hego 2 Driver Heater Present {7}
SYM 1791F "HEATER_HP11"                                  #              #Hego 1 Passenger Heater Present {7}
SYM 1791F "HEATER_HP11"             :B0                  #              #Hego 1 Passenger Heater Present {7}
SYM 17920 "S.0x17920"               #[SW=flo(X*1)]       #              # {3}
SYM 17922 "S.0x17922_P0208_??"               #[UW=flo(X*1)]       #              # {3}
SYM 17924 "S.0x17924"               #[SW=flo(X*1)]       #              # {3}
SYM 17926 "S.0x17926"               #[SW=flo(X*1)]       #              # {3}
SYM 17928 "S.0x17928"               #[SW=flo(X*1)]       #              # {3}
SYM 1792A "S.0x1792A"               #[SW=flo(X*1)]       #              # {3}
SYM 1792C "S.0x1792C"               #[SW=flo(X*1)]       #              # {3}
SYM 1792E "S.0x1792E"               #[SW=flo(X*1)]       #              # {3}
SYM 17930 "RZA.0x17866"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x17866" L0BDEA {7}
SYM 17932 "RZA.0x17868"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x17868" LOBDF1 {7}
SYM 17934 "RZA.0x1786A"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1786A" L0BDD2 {7}
SYM 17936 "DS_CUR_LOW"              #[UW=flo(X/256)]     #amps          #Rear o2 Heater Fault Threshold {7}
SYM 17938 "S.0x17938"               #[UY=flo(X*1)]       #              # {3}
SYM 17939 "HTRCM_SW"                #[UY=flo(X*1)]       #FLAG 0-1       #Switch to enable EGO heater current monitoring. 1-> enable Base Value: 0 Resolution: 1 {7}
SYM 1793A "HTR_VOLT_NOM"            #[UW=flo(X*1)]       #VOLTS 0-15.9375#Battery voltage that was present when the currnt monitor filure threshold was developed Base Value: 13 Resolution: 0.0625 {7}
SYM 1793C "S.0x1793C"               #[UW=flo(X*1)]       #              # {3}
SYM 1793E "S.0x1793E"               #[UY=flo(X*1)]       #              # {3}
SYM 17940 "S.0x17940"               #[UW=flo(X*1)]       #              # {3}
SYM 1794E "S.0x1794E"               #[UY=flo(X*1)]       #              # {3}
SYM 1794F "S.0x1794F"               #[UY=flo(X*1)]       #              # {3}
SYM 17950 "V_EGORNTM"               #[UY=flo(X*1)]       #Sec 0-255     #Time since exitting crank mode (ATMR1) to wait before enabling ego test Base Value: 255 Resolution: 1 {7}
SYM 17951 "S.0x17951"               #[UY=flo(X*1)]       #              # {3}
SYM 17952 "S.0x17952"               #[UY=flo(X*1)]       #              # {3}
SYM 17953 "V_EGO_EGR_SW"            #[UY=flo(X*1)]       #ENUMERATED 0-1#Switch when set to 1 allows EGO test to take EGR transitions into account {7}
SYM 17954 "S.0x17954"               #[UY=flo(X*1)]       #              # {3}
SYM 17955 "S.0x17955"               #[UY=flo(X*1)]       #              # {3}
SYM 17956 "S.0x17956"               #[UY=flo(X*1)]       #              # {3}
SYM 17957 "S.0x17957"               #[UY=flo(X*1)]       #              # {3}
SYM 1795A "S.0x1795A"               #[UW=flo(X*1)]       #              # {3}
SYM 1795C "S.0x1795C"               #[UW=flo(X*1)]       #              # {3}
SYM 1795E "S.0x1795E"               #[UW=flo(X*1)]       #              # {3}
SYM 17960 "V_EGOWARM"               #[SW=flo(X*1)]       #Deg -4096-4095#Minimum temperature at which to enable the continuous EGO switching test Base Value: 0 Resolution: 0.125 {7}
SYM 17962 "S.0x17962"               #[UW=flo(X*1)]       #              # {3}
SYM 17964 "S.0x17964"               #[UW=flo(X*1)]       #              # {3}
SYM 17966 "EGO_TPR_MAX"             #[UW=flo(X*1)]       #IN. WATER -64-63.990002#Maximum Tank Pressure before VMV leak Base Value: 10 Resolution: 0.00195 {7}
SYM 17968 "US_HTR_FREQ"             #[UW=flo(X*1)]       #Hz 1-1.2      #US HEGO heater cycle frequency for Fast Light-Off Hegos Base Value: 1.2 Resolution: 0.10 {7}
SYM 1796A "USHTRDC_SW"              #[UY=flo(X*1)]       #X 0-1         #Switch to enable upstream heater duty-cycle mode. 1 = Enable Base Value: 1.0 Resolution: 1 {7}
SYM 1796C "S.0x1796C"               #[UW=flo(X*1)]       #              # {3}
SYM 1796E "S.0x1796E"               #[UY=flo(X*1)]       #              # {3}
SYM 17970 "LAM_BAR_FK"              #[UW=flo(X/65536)]   #X 0-0.999985  #Filter constant for LAM_BAR Base Value: 0.50 Resolution: 0.000015 {7}
SYM 17972 "KAM_BAR_FK"              #[UW=flo(X/65536)]   #X 0-0.999985  #Filter constant for KAM_BAR Base Value: 0.50 Resolution: 0.000015 {7}
SYM 17974 "V_ADPAM_MIN"             #[UW=flo(X*1)]       #LBM/MIN 0-63.999020#Minimum AM to perform fuel test Base Value: 0.0 Resolution: 0.000977 {7}
SYM 17976 "V_ADPAM_MAX"             #[UW=flo(X*1)]       #LBM/MIN 0-63.999020#Maximum AM to perform fuel test Base Value: 63.999020 Resolution: 0.000977 {7}
SYM 17978 "V_ADPLD_MAX"             #[UW=flo(X*1)]       #NORMD 0-1.999969#Maximum LOAD to perform adaptive clip test Base Value: 0.60 Resolution: 0.000031 {7}
SYM 1797A "V_ADPLD_MIN"             #[UW=flo(X*1)]       #NORMD 0-1.999969#Minimum LOAD to perform adaptive clip test Base Value: 0.30 Resolution: 0.000031 {7}
SYM 1797C "V_ADPN_MAX"              #[UW=flo(X*1)]       #RPM 0-16383.769531#Maximum N to perform adaptive clip test Base Value: 5000 Resolution: 0.25 {7}
SYM 1797E "V_ADPN_MIN"              #[UW=flo(X*1)]       #RPM 0-16383.769531#Minimum N to perform adaptive clip test Base Value: 1000 Resolution: 0.25 {7}
SYM 17980 "V_KAMBAR_MAX"            #[UW=flo(X*1)]       #X 0-255.996094#Upper limit of filtered KAMRF, above which a lean fuel system fault will be indicated Base Value: 1.25 Resolution: 0.003906 {7}
SYM 17982 "V_KAMBAR_MIN"            #[UW=flo(X*1)]       #X 0-255.996094#Lower limit of filtered KAMRF, below which a rich fuel system fault will be indicated Base Value: 0.75 Resolution: 0.003906 {7}
SYM 17984 "V_LAMBAR_MAX"            #[UW=flo(X*1)]       #X 0-1.99      #Upper limit of filtered LAMBSE, above which a rich fuel system fault will be indicated Base Value: 1.25 Resolution: 0.000031 {7} 
SYM 17986 "V_LAMBAR_MIN"            #[UW=flo(X*1)]       #X 0-1.99      #Lower limit of filtered LAMBSE, below which a lean fuel system fault will be indicated Base Value: 0.75 Resolution: 0.000031 {7}
SYM 17988 "FADPT_SW"                                     #              #Allow Adaptive Fuel (Early EEC-V Only) {0}
SYM 17988 "FADPT_SW"                :B0                  #              #Allow Adaptive Fuel (Early EEC-V Only) {2}
#SYM17988 "S.0x17988"               #[UY=flo(X*1)]       #              # {3}
SYM 17989 "VECT3"                   #[SY=flo(X*1)]       #DegF -0-254   #MIN.COOLANT TEMP. (ENGINE ON) UNITS ARE DEG F Base Value: 150.Resolution: 2.0 {7}
SYM 1798A "VECT5"                   #[SY=flo(X*1)]       #DegF -40-254  #STARTING COOLANT TEMP. FOR WARM UP COUNTER UNITS ARE DEG F Base Value: 80.Resolution: 2.0 {7}
SYM 1798C "ADP_AM_LEAN"             #[UW=flo(X*1)]       #LBS/MIN 0-63.990002#MINIMUM AIR MASS TO ELIMINATE LEAN LEARNING WHEN REFERENCING CELLS, LB/MIN.Base Value: 63.990002 Resolution: 0.000977 {7}
SYM 1798E "S.0x1798E"               #[UW=flo(X*1)]       #              # {3}
SYM 17990 "FLG_RLS_HP"                                   #              #Reverse Lockout Solenoid Present {7}
#SYM 17990 "FLG_RLS_HP"              :B0                  #              #Reverse Lockout Solenoid Present {7}
SYM 17991 "VS_RLS"                  #[UY=flo(X/2)]       #MPH           #Reverse Lockout MPH {7}
SYM 17992 "VS_RLSH"                 #[UY=flo(X/2)]       #MPH           #Reverse Lockout MPH Hyst {7}
SYM 17993 "RZA.0x17FE8"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FE8" L95899 DEMAND_TIMER Limit {7}
SYM 17994 "EO_OSM_DLY"              #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FE9" L958C2 DEMAND_TIMER Limit {7}
SYM 17995 "V_ISC_HI_DLY"            #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FEA" L95A44 Time delay to allow RPM to reach minimum value for engine running on-demand test 7}
SYM 17996 "V_ISC_HI_DL2"            #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FEB" L95A99 Time delay to allow RPM to settle after EGR on demand test {7}
SYM 17997 "V_ISC_LO_DLY"            #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FEC" L95B38 Time delay to allow RPM to return to normal idle before testing ISC duty cycle {7}
SYM 17998 "V_ISC_LO_TIM"            #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FED" L95B54 Time delay to allow ISC to test at low rpm {7}
SYM 17999 "ER_HI_RPM"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FEE" L95A7D Base value for RPM requested during engine running on demand test {7}
SYM 1799A "V_ISC_HI_MIN"            #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x17FF0" L95A50 NBAR Limit Minimum RPM to pass High RPM portion of engine running on demand test {7}
SYM 1799C "ER_LAM_BAS"              #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x17FF2" L95AA3 S.ER_LAM_DSD Base value for LAMBSE requested during engine running on demand test{7}
SYM 1799E "ER_SPARK_BAS"            #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FF4"L959F7 S.ER_SPARK {7}
SYM 1799F "KOER_MINMPH"             #[UY=flo(X*1)]       #MPH 0-120     #Minimum vehicle speed to conduct KOER self test SAME AS RZASA "S.0x17FF5" L95929 VSBAR Limit {7}
SYM 179A0 "KOER_TST_TM"             #[UY=flo(X*1)]       #Sec 0-255     #Maximum amount of time that KOER can run Base Value: 0 Resolution: 1 {7}
SYM 179A2 "OTM_MAX_TM"              #[UW=flo(X*1)]       #              # Maximum time in Output Test Mode without changing states SAME AS RZASA "S.0x17FF8" L95BD1 OTM_TIMER Limit {7}
SYM 179A4 "PTO_TST_SW"              #[UY=flo(X*1)]       #SW            #PTO OBD-II Moniors Bitmask  {7}
SYM 179A4 "CAT_PTO_SW"              :B0                  #SW            #CAT PTO test calibration switch; 1=Allow test during PTO {7}
SYM 179A4 "CCM_PTO_SW"              :B1                  #SW            #CCM PTO test calibration switch; 1 -> Allow test during PTO {7}
SYM 179A4 "PURG_PTO_SW"             :B2                  #SW            #PURG PTO test calibration switch; 1 -> Allow test during PTO {7}
SYM 179A4 "SAIR_PTO_SW"             :B3                  #SW            #SAIR PTO test calibration switch; 1 -> Allow test during PTO {7}
SYM 179A4 "FUEL_PTO_SW"             :B4                  #SW            #FUEL PTO test calibration switch; 1 -> Allow test during PTO {7}
SYM 179A4 "EGO_PTO_SW"              :B5                  #SW            #EGO PTO test calibration switch; 1 -> Allow test during PTO {7}
SYM 179A4 "EGR_PTO_SW"              :B6                  #SW            #EGR PTO test calibration switch; 1 -> Allow test during PTO {7}
SYM 179A4 "MIS_PTO_SW"              :B7                  #SW            #MIS PTO test calibration switch; 1 -> Allow test during PTO {7}
SYM 179A5 "PTO_HP"                  #[UY=flo(X*1)]       #FLAG 0-1      #PTO hardware present switch; 1=hardware present, 0= hardware not present.Base Value: 0 {7}
SYM 179A6 "PTO_HOLD_TM"             #[UY=flo(X*1)]       #Sec 0-255     #Ammount of delay before the resumption of OBDII monitor operation after PTO operation is disabled Base Value: 0 Resolution: 1 SAME AS RZASA "S.0x17FFC" L0E7AD {7}
SYM 179A7 "FLF_TST_SW"              #[UY=flo(X*1)]       #SW            #Flexible fuel affected monitors(OBDII_TST_SW) {7}
SYM 179A7 "CAT_FLF_SW"              :B0                  #SW            #CAT flexible fuel test calibration switch; 1=Allow test during flexible fuel operation {7}
SYM 179A7 "CCM_FLF_SW"              :B1                  #SW            #CCM flexible fuel test calibration switch; 1=Allow test during flexibel==le fuel operation {7}
SYM 179A7 "PURG_FLF_SW"             :B2                  #SW            #PURG flexible fuel test calibration switch; 1=Allow test during flexible fuel operation {7}
SYM 179A7 "SAIR_FLF_SW"             :B3                  #SW            #SAIR flexible fuel test calibration switch; 1=Allow test during flexible fuel operation {7}
SYM 179A7 "FUEL_FLF_SW"             :B4                  #SW            #FUEL flexible fuel test calibration switch; 1=Allow test during flexible fuel operation {7}
SYM 179A7 "EGO_FLF_SW"              :B5                  #SW            #EGO flexible fuel test calibration switch; 1=Allow test during flexible fuel operation {7}
SYM 179A7 "EGR_FLF_SW"              :B6                  #SW            #EGR flexible fuel test calibration switch; 1=Allow test during flexible fuel operation {7}
SYM 179A7 "MIS_FLF_SW"              :B7                  #SW            #MIS flexible fuel test calibration switch; 1=Allow test during flexible fuel operation {7}
SYM 179A8 "S.0x179A8"               #[UY=flo(X*1)]       #              # {3}
SYM 179A9 "RZA.0x17FFE"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x17FFE" L0ECFC {7}
SYM 179AA "ECT_LVL"                 #[UY=flo(X*1)]       #              # [RZASA 0ECDE 0EDED] ECT Intermittent Fault Level {7}
SYM 179AB "RZA.0x18000"               #[UY=flo(X*1)]       #              # SAME AS RZASA 18000 {7}
SYM 179AC "S.N_ERR_START"           #[UY=flo(X*1)]       #              # SAME AS RZASA 18001 L9CD37 {7}
SYM 179AD "RZA.0x18002"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x18002" L0ED47 {7}
SYM 179AE "OBDII_MIL_SW"            #[UY=flo(X*1)]       #SW            #(set same as OBD_TST_SW) {2}
SYM 179AE "CAT_MIL_SW"              :B0                  #SW            #CAT MIL enable switch; 1->connect CAT test to the MIL {7}
SYM 179AE "CCM_MIL_SW"              :B1                  #SW            #CCM MIL enable switch; 1->connect CCM test to the MIL {7}
SYM 179AE "PURG_MIL_SW"             :B2                  #SW            #PURG MIL enable switch; 1->connect the PURG test to the MIL {7}
SYM 179AE "SAIR_MIL_SW"             :B3                  #SW            #SAIR MIL enable siwtch; 1->connect the SAIR test to the MIL {7}
SYM 179AE "FUEL_MIL_SW"             :B4                  #SW            #FUEL MIL enable switch; 1->connect the FUEL test to the MIL {7}
SYM 179AE "EGO_MIL_SW"              :B5                  #SW            #EGO mIL enable switch; 1->connect the EGO test to the MIL {7}
SYM 179AE "EGR_MIL_SW"              :B6                  #SW            #EGR MIL enable switch; 1->connect the EGR test to the MIL {7}
SYM 179AE "MIS_MIL_SW"              :B7                  #SW            #MIS MIL enable switch; 1-> connect the MIS test to the MIL {7}
#SYM179AE "S.0x179AE"               #[SY=flo(X*1)]       #              # {3}
SYM 179AF "OBDII_TST_SW"            #[UY=flo(X*1)]       #SW            #OBDII Monitor Tests SW {2}
SYM 179AF "CAT_TST_SW"              :B0                  #              #CAT test present calibration switch; 1->CAT present {7}
SYM 179AF "CCM_TST_SW"              :B1                  #              #CCM test present calibration switch; 1->CCM test present (Rail Pressure Sensor, CHT Tests,Knk Snsr Tests) (P0193) {7}
SYM 179AF "PURG_TST_SW"             :B2                  #              #PURG test present calibration switch; 1->PURG test present {7}
SYM 179AF "SAIR_TST_SW"             :B3                  #              #SAIR test present calibration switch; 1->SAIR test present(Thermactor / "Secondary Air") {7}
SYM 179AF "FUEL_TST_SW"             :B4                  #              #FUEL test present calibration switch; 1->FUEL test present {7}
SYM 179AF "EGO_TST_SW"              :B5                  #              #EGO test present calibration switch; 1->EGO test present {7}
SYM 179AF "EGR_TST_SW"              :B6                  #              #EGR test present calibration switch; 1->EGR test present {7}
SYM 179AF "MIS_TST_SW"              :B7                  #              #MIS test present claibration switch; 1->MIS test present {7}
#SYM 179B0 "PIDMAP_2"                #[UW=flo(X*1)]       #X 0-65535     #J1979 map of supported PIDs for numbers 17-20 {7}
SYM 179B2 "S.0x179B2"               #[UW=flo(X*1)]       #              # {3}
SYM 179B4 "S.0x179B4"               #[UW=flo(X*1)]       #              # {3}
SYM 179B6 "S.0x179B6"               #[UW=flo(X*1)]       #              # {3}
SYM 179B8 "CL_MIL_SW"               #[UY=flo(X*1)]       #SW 0-1        #Closed Loop Entry MIL enable siwtch; 1->connect the Closed loop entry test to the MIL {7}
SYM 179B9 "CL_OBDI_SW"                                   #SW 0-1        #Closed Loop Entry OBD-I MIL control select switch. 1->use OBD-I MIL control for closed loop entry {7}
#SYM 179B9 "CL_OBDI_SW"              :B0                  #              #OBD-I MIL Control {7}
SYM 179BA "S.0x179BA"               #[UY=flo(X*1)]       #              # {3}
SYM 179BB "ECT_WARM"                #[SY=flo(X*1)]       #Degrees 0-254 #Temperature above which the engine is considered warm for the purposes of OBDII similar conditions {7}
SYM 179BC "S.0x179BC"               #[UY=flo(X*1)]       #              # {3}
SYM 179BE "PIDMAP_1"                #[UW=flo(X*1)]       #X 0-65535     #J1979 map of supported PIDs for numbers 01-16 {7}
SYM 179C0 "PIDMAP_2_??"                #[UW=flo(X*1)]       #X 0-65535     #J1979 map of supported PIDs for numbers 17-20 {7} MAYBE 179B0 ??
SYM 179C2 "PIDMAP_3"                #[UW=flo(X*1)]       #X 0-65535     #J1979 map of supported PIDs for mode 01 PIDs 01-16 {7}
SYM 179C4 "PIDMAP_4"                #[UW=flo(X*1)]       #X 0-65535     #J1979 map of supported PIDs for mode 01 PIDs 17-20 {7}
#SYM 179C6 "J1979_01_1C"             #[UY=flo(X*1)]       #X 0-255       #OBD req'ments to which vehicle is designed: 1=OBDII(CARB),2=OBD(FedEPA),3=OBD&OBDII,4=OBDI,5=none  {2}
SYM 179C8 "INJ_MAX_LOAD"            #[UW=flo(X*1)]       #X 0-0.400     #Maximum load to turn off fuel injectors while engine is on Base Value: 0.250 #SAME AS RZASA "S.0x18010" L97067 LOAD Limit {7}
SYM 179CA "INJ_MAX_N"               #[UW=flo(X*1)]       #RPM 0-1700    #Maximum engine speed to turn off fuel injectors while engine is on Base Value: 1500. #SAME AS RZASA "S.0x18012" L9705D RPM Limit {7}
SYM 179CC "REQV"                    #[UW=flo(X/32768)]   #X 0-1.999     #RICH LIMIT FOR LAMBDA UNITS ARE LAMBDAS Base Value: 0.75 Resolution: 0.00003 {7}
SYM 179CE "LEQV"                    #[UW=flo(X/32768)]   #X 0-1.999     #LEAN LIMIT FOR LAMBDA UNITS ARE LAMBDAS Base Value: 1.35 Resolution: 0.00003 {7}
SYM 179D0 "VIPRR1"                  #[UW=flo(X*1)]       #[X]/S 0.01-0.5#RAMP RATE FOR FUEL RICH Base Value: 0.10 Resolution: 0.000031 {7}
SYM 179D2 "VIPLR1"                  #[UW=flo(X*1)]       #[X]/S 0-1.99  #RATE TO RAMP LEAN UNITS ARE LAMBDAS/SEC Base Value: 0.05 Resolution: 0.00003 {7}
SYM 179D8 "S.0x179D8"               #[UW=flo(X*1)]       #              # {3}
SYM 179DC "VCIDSW"                  #[UY=flo(X*1)]       #ENUMERATED 0-1#CYLINDER IDENTIFICATION TEST SWITCH 0 = DO NOT DO CID TEST, 1 = DO CID TEST UNITLESS  {7}
SYM 179E3 "S.0x179E3"               #[UY=flo(X*1)]       #              # {3}
SYM 179F1 "VNREVIDM"                #[UY=flo(X*1)]       #RPM 0-63      #NUBER OF ENGINE ROTATIONS WITH MISSED IDMS BEFORE SETTING FG IDM ERROR FLAG. Base Value: 5 Resolution: 1 {7}
SYM 179F4 "V_CIDN_MIN"              #[UW=flo(X*1)]       #RPM 0-16383.75#N MUST BE GREATER THAN THIS VALUE FOR CID/BANK SENSOR TO BE TESTED  {7}
SYM 179F6 "V_CIDN_MAX"              #[UW=flo(X*1)]       #RPM 0-16383.75#Maximum RPM required to fail CID sensor {7}
SYM 179F8 "S.0x179F8"               #[UW=flo(X*1)]       #              # {3}
SYM 179FA "V_PIP_HARD"              #[UW=flo(X*1)]       #MS 0-65535    #MAX TIME BETWEEN PIPS TO INDICATE A HARD FAULT UNITS ARE MSECS {7}
SYM 179FC "VPMIN"                   #[UW=flo(X*1)]       #HWTIMERTICKS 0-65535#MIN PIP PERIOD TO ENTER CVIP SP_DIS IDM TEST UNITS ARE CLOCK TICKS  {7}
SYM 179FE "VPMAX"                   #[UW=flo(X*1)]       #HWTIMERTICKS 0-65535#MAX PIP PERIOD TO ENTER CVIP SP_DIS IDM TEST UNITS ARE CLOCK TICKS  {7}
SYM 17A00 "S.0x17A00"               #[UY=flo(X*1)]       #              # {3}
SYM 17A0E "MILLIM"                                       #              #MIL Bulb Check SW {7}
#SYM 17A0E "MILLIM"                  :B0                  #              #MIL Bulb Check SW {7}
SYM 17A10 "MIL_SW"                  #[UY=flo(X*1)]       #SW            #MIL Enable SW (OBDII_TST_SW) {7}
SYM 17A1C "VSSTP"                   #[UW=flo(X*1)]       #ADCT 0-1023   #MINIMUM TP TO ENTER VSS TEST {7}
SYM 17A1F "V_MOV_DLY"               #[UY=flo(X*1)]       #Secs 0-254    #Start up delay before allowing VMOVING flag to set to avoid codes from partially filled converter {7}
SYM 17A20 "VSAMIN"                  #[UW=flo(X*1)]       #RPM 0-6000    #MIN. ENG. SPEED TO DO VSS TEST WITH AUTOMATIC TRANSMISSIONS UNITS = RPM  {7}
SYM 17A22 "V_VSS_NRHI"              #[UW=flo(X*1)]       #RPM 0-6000    #High eng. speed for load range to infer vehicle movement Base Value: 3000 {7}
SYM 17A24 "V_VSS_NRLO"              #[UW=flo(X*1)]       #RPM 0-6000    #Low eng. sped for load range to infer vehicle movement Base Value: 1800 {7}
SYM 17A28 "V_TP_ERR_MIN"            #[UY=flo(X*1)]       #Sec 0-10      #Min time at TP out of range to set code P1121 Base Value: 3 Resolution: 0.125 {7}
SYM 17A29 "V_LOAD_HI"               #[UY=flo(X*1)]       #LOAD 0-1      #Max load to set code P1121 TP high Base Value: 0.20 Resolution: 0.008 {7}
SYM 17A2A "V_LOAD_LOW"              #[UY=flo(X*1)]       #LOAD 0-1      #Min load to set code P1121 with TP low Base Value: 0.7 Resolution: 0.008 {7}
SYM 17A2C "V_TP_HIGH"               #[UW=flo(X*1)]       #COUNTS 0-1024 #Min TP to do TP very high test Base Value: 700 Resolution: 1 {7}
SYM 17A2E "V_TP_LOW"                #[UW=flo(X*1)]       #COUNTS 0-1024 #Max TP to do TP very low test Base Value: 250 Resolution: 1 {7}
SYM 17A30 "V_WOTNMIN"               #[UW=flo(X*1)]       #RPM 0-6000    #Minimum RPM to enable 'stuck open' Base Value: 1000 Resolution: 1 {7}
SYM 17A32 "TP_HI_ER"                #[UW=flo(X*1)]       #CNTS 0-1023   #TP sensor maximum voltage Base Value: 929 Resolution: 1 {7}
SYM 17A34 "TP_LO_ER"                #[UW=flo(X*1)]       #CNTS 0-1023   #TP sensor minimum voltage Base Value: 70 Resolution: 1 {7}
SYM 17A36 "TP_IDL_ER"               #[UW=flo(X*1)]       #CNTS 0-1023   #TP sensor minimum voltage expected at idle Base Value: 110 Resolution: 1 {7}
SYM 17A38 "S.0x17A38"               #[UW=flo(X*1)]       #              # {3}
SYM 17A3A "S.0x17A3A"               #[UW=flo(X*1)]       #              # {3}
SYM 17A3C "S.0x17A3C"               #[UW=flo(X*1)]       #              # {3}
SYM 17A3E "S.0x17A3E"               #[UW=flo(X*1)]       #              # {3}
SYM 17A40 "DTPMAX"                  #[UW=flo(X*1)]       #Cnts 0-255    #Maximum delta between TP and RATCH to enable RATCH to change value Base Value: 5.0 Resolution: 1.0{7}
SYM 17A42 "0x400"                   #                                   # SAME AS RZASA 0X400 Immediate Load {7}
SYM 17A44 "0X3C00"                  #[UW=flo(X*1)]       #              # SAME AS RZASA 3C00 {3}
SYM 17A46 "0x400"                   #                                   # SAME AS RZASA 0X400 Immediate Load {7}
SYM 17A48 "P1120_TC"                #[UY=flo(X*1)]       #Secs 0-16     #Time constant for code P1120 fault filter, TP below idle position.Base Value: 1.Resolution: 0.062500  SAME AS RZASA "S.0x180E4" L944E8 {7}
SYM 17A4E "ALT_PPM"                 #[SW]                               # L_838FA RZA L_94483 {7}
SYM 17A50 "S.0x17A50"               #[UY=flo(X*1)]       #              # {3}
SYM 17A51 "TP_CTR"                  #[UY=flo(X*1)]       #EVENTS 0-255  #Maximum sample count where Throttle position sensor is within limit Base Value: 5.0 Resolution: 0.004 {7}
SYM 17A52 "S.0x17A52"               #[UY=flo(X*1)]       #              # {3}
SYM 17A53 "RZA.0x180EA"               #[UY=flo(X*1)]       #              # SAME AS RZASA "S.0x180EA" L943FA {7}
SYM 17A56 "P0121_LVL"               #[UY=flo(X*1)]       #Cnts 0-1      #Fault filter threshold for code Base Value: 0.632 {7}

SYM 18001 "S.N_ERR_START"           #[UY=flo(X*1)]       #              # SAME AS RZASA S.0x18001 L9CD37 {7}


SYM 18032 "S.0x18032"               #[UY=flo(X*1)]       #              # {3}
SYM 1804C "VBAT_CCM_MIN"            #[UY=flo(X*1)]       #              #Minimum voltage to perform OSM tests {7}
SYM 1804D "CCM_MON_TM"              #[UY=flo(X*1)]       #Sec 0-155     #Time in run mode to consider Comprehensive Componants monitored Base Value: 10 Resolution: 1 {7}
SYM 1804E "FIL_HYST"                #[UY=flo(X/256)]     #X             # SAME AS RZASA "S.0x180ED" L94419 FMEM Threshold Hyst {2}
#SYM1804E "S.0x1804E"               #[UY=flo(X*1)]       #              # {3}
SYM 18050 "TPUNWOT"                 #[UW=flo(X/64)]      #TP_REL        #REL_TP Breakpoint for WOT Shift Relock Delay {7}
SYM 18052 "UWOTDLY"                 #[UY=flo(X/8)]       #sec           #WOT Delay {7}
SYM 18054 "S.0x18054"               #[UW=flo(X*1)]       #              # {3}
SYM 18056 "S.0x18056"               #[UW=flo(X*1)]       #              # {3}
SYM 18058 "S.0x18058"               #[SW=flo(X*1)]       #              # {3}
SYM 1805A "S.0x1805A"               #[SW=flo(X*1)]       #              # {3}
SYM 1805C "S.0x1805C"               #[SW=flo(X*1)]       #              # {3}
SYM 1805E "S.0x1805E"               #[SW=flo(X*1)]       #              # {3}
SYM 18060 "S.0x18060"               #[UY=flo(X*1)]       #              # {3}
SYM 18061 "S.0x18061"               #[UY=flo(X*1)]       #              # {3}
SYM 18062 "S.0x18062"               #[SW=flo(X*1)]       #              # {3}
SYM 18064 "S.0x18064"               #[SW=flo(X*1)]       #              # {3}
SYM 18066 "ECT_FMEM"                #[SY=flo(X*1)]       #Deg 0-250     #FMEM value for failed ECT sensor Base Value: 180 Resolution: 2 {7}
SYM 18067 "ECT_RAMP_TM"             #[UY=flo(X*1)]       #Sec 0-255     #Time between updates while ramping ECT to ECT_FMEM Base Value: 60 Resolution: 1 {7}
SYM 18068 "ECT_TC1"                 #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for filtered ECT Base Value: 1.2 Resolution: 0.000977 {7}
SYM 1806A "ECT_SNS_HP"              #[UY=flo(X*1)]       #X 0-1         #ECT hardware present switch; 0 -> no ECT, 1 -> ECT sensor present. Base Value: 1 Resolution: 1 {7}
SYM 1806B "ECT_ER_TM"               #[UY=flo(X*1)]       #Sec 0-31.875  #Time with failure present to set ECT fault Base Value: 1 Resolution: 0.125 {7}
SYM 1806C "ECT_FM_TM"               #[UY=flo(X*1)]       #Sec 0-31.875  #Minimum time in FMEM mode for ECT once entered Base Value: 1 Resolution: 0.125 {7}
SYM 1806D "ECT_WUT_VS"              #[UY=flo(X*1)]       #MPH 0-120     #Increment ECT_WUT_TMR above this vehicle speed Base Value: 15 Resolution: 0.50 {7}
SYM 1806E "ECT_WUT_LD"              #[UW=flo(X*1)]       #X 0-1.992188  #Increment ECT_WUT_TMR above this load Base Value: 0.30 Resolution: 0.000031 {7}
SYM 18070 "ECT_HI_ER"               #[SW=flo(X*1)]       #Deg -127-320  #Maximum acceptable value for ECT (ECT short) Base Value: 290 Resolution: 1 {7}
SYM 18072 "ECT_LO_ER"               #[SW=flo(X*1)]       #Deg -127-320  #Minimum acceptable value for ECT (ECT open) Base Value: -45 Resolution: 1 {7}
SYM 18074 "ECT_LO_KOEO"             #[SW=flo(X*1)]       #Deg -127-320  #Minimum ECT for KOEO self test Base Value: 50 Resolution: 1 {7}
SYM 18076 "ECT_HI_KOER"             #[SW=flo(X*1)]       #Deg -127-320  #Maximum ECT for KOER Self-Test Base Value: 240 Resolution: 1 {7}
SYM 18078 "ECT_HI_KOEO"             #[SW=flo(X*1)]       #Deg -127-320  #Maximum ECT for KOEO self test Base Value: 240 Resolution: 1 {7}
SYM 1807A "ECT_LO_KOER"             #[SW=flo(X*1)]       #Deg -127-320  #Minimum ECT for KOER Self-Test Base Value: 150 Resolution: 1 {7}
SYM 1807C "ENG_SOAK_TC"             #[UW=flo(X*1)]       #Sec 0-65535   #Time constant for inferred engine temperature, ENGT_INF Base Value: 10000 Resolution: 1 {7}

SYM 18102 "RZA.0x18102"               #[ W=flo(X*1)]       #              #SAME AS RZASA "S.0x18102"  {7}
SYM 183C0 "RZA.0x187C0"               #[ W=flo(X*1)]       #              #SAME AS RZASA "S.0x187C0"  {7}

SYM 186C4 "V_PSPS_CNT"              #[UY=flo(X*1)]       #COUNTER 0-255 #Number of speed transitions without a PSPS transition to assume a failure Base Value: 10 Resolution: 1.0 SAME AS RZASA "S.0x17680" L1B138 V_PSPSPD_CTR Limit {7}
SYM 186C5 "PSPS_SENSE"                                   #X 0-1         #Voltage input for setting POWSFG; 0 -> low, 1 -> high Base Value: 1 {7}
SYM 186C6 "PSPS_SWPT"               #[UW=flo(X/64)]      #AD CNTS 0-1023#PSPS input switch point Base Value: 512 Resolution: 1 {7}
SYM 186C8 "BOO_ERR_CAL"             #[UY=flo(X*1)]       #COUNTS 0-255  #Brake On / Off input error calibration Base Value: 255 Resolution: 1 {7}
SYM 186C9 "V_ZTOSPD_MPH"            #[UY=flo(X*1)]       #MPH 0-125.5   #Minimum vehicle speed require to increment V_aaaSPD_CTR  #SAME AS RZASA "S.0x17684" L9FEAE VSBAR Limit {7}
SYM 186CA "V_ZTOSPD_TM"             #[UY=flo(X*1)]       #Secs 0-255    #Minimum time greater tham V_ZTOSPD_MPH to increment V_ZTOSPD_CTR  #SAME AS RZASA "S.0x17685" L9FEc2 V_ZTOSPD_TMR Limit {7}
SYM 186CC "SAIR_EGO_LVL"            #[UW=flo(X*1)]       #Volts 0-5Vdc  #Voltage on EGO sensor indicating lean/rich boundry {7}
SYM 186CE "S.0x186CE"               #[UW=flo(X*1)]       #              # {3}
SYM 186D2 "TCVEGO_SAIR"             #[UW=flo(X*1)]       #Sec 0-63.990002#Time constant for upstream hego voltages Base Value: 0.10 Resolution: 0.000977 {7}
SYM 186D4 "SAIR_END_TM"             #[UY=flo(X*1)]       #Secs 0-31.875 #Maximum time to delay ending of SAIR monitor test to wait for EAM pump to spin down Base Value: 4. {7}
SYM 186D5 "S.0x186D5"               #[UY=flo(X*1)]       #              # {3}
SYM 186D6 "S.0x186D6"               #[UW=flo(X*1)]       #              # {3}
SYM 186D8 "S.0x186D8"               #[UW=flo(X*1)]       #              # {3}
SYM 186DA "S.0x186DA"               #[UW=flo(X*1)]       #              # {3}
SYM 186DC "S.0x186DC"               #[UW=flo(X*1)]       #              # {3}
SYM 186DE "EAM_LAM_DEL"             #[UW=flo(X*1)]       #X 0-1         #Delta LAMAVE to allow air pump hot retest Base Value: 0.1 {7}
SYM 186E0 "S.0x186E0"               #[UW=flo(X*1)]       #              # {3}
SYM 186E2 "S.0x186E2"               #[UW=flo(X*1)]       #              # {3}
SYM 186E4 "S.0x186E4"               #[UW=flo(X*1)]       #              # {3}
SYM 186E6 "S.0x186E6"               #[UY=flo(X*1)]       #              # {3}
SYM 186E7 "S.0x186E7"               #[UY=flo(X*1)]       #              # {3}
SYM 186E8 "S.0x186E8"               #[UY=flo(X*1)]       #              # {3}
SYM 186E9 "S.0x186E9"               #[UY=flo(X*1)]       #              # {3}
SYM 186EA "S.0x186EA"               #[UY=flo(X*1)]       #              # {3}
SYM 186EB "S.0x186EB"               #[UY=flo(X*1)]       #              # {3}
SYM 186EC "SAIR_VALVES"             #[UY=flo(X*1)]       #ENUMERATED 1-2 #Number of Secondary Air Control Valves (Cal. Level: Not_Modifiable) {7}
SYM 186ED "S.0x186ED"               #[UY=flo(X*1)]       #              # {3}
SYM 186EE "S.0x186EE"               #[UW=flo(X*1)]       #              # {3}
SYM 186F0 "SAIR_DLAM"               #[UW=flo(X*1)]       #LAMBDA 0-1.9  #Delta LAMBSE value used to ramp fuel rich in continuos sec. air test {7}
SYM 186F2 "SAIR_REQV"               #[UW=flo(X*1)]       #-- 0.5-1.9    #Richest allowable LAMBSE value to conduct continuous flow test {7}
SYM 186F4 "SAIR_LEQV"               #[UW=flo(X*1)]       #-- 0-1.9      #Leanest allowable LAMBSE value to start continuous flow test {7}
SYM 186F6 "SAIR_VIPLR1"             #[UW=flo(X*1)]       #-- 0-1.99     #Ramp rate for fuel lean {7}
SYM 186F8 "SAIR_VIPRR1"             #[UW=flo(X*1)]       #-- 0.01-0.5   #Ramp rate for fuel rich {7}
SYM 186FA "SAIR_LAM_DEL"            #[UW=flo(X*1)]       #UNITLESS 0-1  #Delta LAMBSE for secondary air pump test {7}
SYM 186FC "SAIR_HOLD_TM"            #[UY=flo(X*1)]       #Secs 0-31.875 #Maximum amount of time to hold LAMBSE at SAIR_REQV before exiting continuous sec. air test {7}
SYM 186FD "SAIR_RAMP_TM"            #[UY=flo(X*1)]       #Secs 0-31.875 #Time for hegos to detect switch in fuel initialization {7}
SYM 186FE "SAIR_RCH_TM"             #[UY=flo(X*1)]       #Secs 0-31.875 #Minimum amount of time EGOs must be rich to start continuous flow test {7}
SYM 186FF "S.0x186FF"               #[UY=flo(X*1)]       #              # {3}
SYM 18700 "S.0x18700"               #[UY=flo(X*1)]       #              # {3}
SYM 18702 "S.0x18702"               #[SW=flo(X*1)]       #              # {3}
SYM 18704 "S.0x18704"               #[SW=flo(X*1)]       #              # {3}
SYM 18706 "S.0x18706"               #[UW=flo(X*1)]       #              # {3}
SYM 18708 "IDBLOCKH_ADR"            #[UY=flo(X*1)]       #Bank          #VID Block Bank Selection {7}
SYM 1870A "IDBLOCK_ADR"             #[UW=flo(X*1)]       #ADDRESS       #VID Block Start Address {7}
SYM 1870C "MULTI_CAL_EN"            #[UY=flo(X*1)]       #X 0-1         #If set to zero any Multi-calibration information is automatically defaulted to a base calibration.Base Value: 0 Resolution: 1 {7}
SYM 1870E "P1270_TC"                #[UW=flo(X*1)]       #Sec 0-16      #Time constant for fault P1270, RPM or VS limiting detected Base Value: 2 Resolution: 0.0625 {7}


#   18710                           #                                   #https://www.dtcdecode.com/Ford 
#   18710                           #                                   #https://www.obd-codes.com/trouble_codes/ford/ 
#   18710                           #                                   #https://www.fordwiki.co.uk/index.php/Ford_Diagnostic_Codes_List 
#   18710                           # START OF DTC CHART                #

SYM 18710 "P0107"                   #[UW]               # MILCODE       #BP sensor circuit below minimum {7} 
SYM 18712 "P0108"                   #[UW]               # MILCODE       #BP sensor circuit above maximum {7}
SYM 18714 "P0106"                   #[UW]               # MILCODE       #BP sensor signal outside acceptable range {7}
SYM 18716 "P0112"                   #[UW]               # NON_MILCODE   # {7}
SYM 18718 "P0113"                   #[UW]               # NON_MILCODE   # {7}
SYM 1871A "P0117"                   #[UW]               # NON_MILCODE   # {7}
SYM 1871C "P0118"                   #[UW]               # NON_MILCODE   # {7}
SYM 1871E "P0125"                   #[UW]               # NON_MILCODE   # {7}
SYM 18720 "P1714"                   #[UW]               # NON_MILCODE   # {7}
SYM 18722 "P1715"                   #[UW]               # NON_MILCODE   # {7}
SYM 18724 "P1740"                   #[UW]               # NON_MILCODE   # {7}
SYM 18726 "P1742"                   #[UW]               # NON_MILCODE   # {7}
SYM 18728 "P1744"                   #[UW]               # NON_MILCODE   # {7}
SYM 1872A "P1747"                   #[UW]               # NON_MILCODE   # {7}
SYM 1872C "P0750"                   #[UW]               # NON_MILCODE   # {7}
SYM 1872E "P0751"                   #[UW]               # NON_MILCODE   # {7}
SYM 18730 "P0755"                   #[UW]               # NON_MILCODE   # {7}
SYM 18732 "P0756"                   #[UW]               # NON_MILCODE   # {7}
SYM 18734 "P0102"                   #[UW]               # NON_MILCODE   # {7}
SYM 18736 "P0103"                   #[UW]               # NON_MILCODE   # {7}
SYM 18738 "P1120"                   #[UW]               # NON_MILCODE   # {7}
SYM 1873A "P0122"                   #[UW]               # NON_MILCODE   # {7}
SYM 1873C "P0123"                   #[UW]               # NON_MILCODE   # {7}
SYM 1873E "P0720"                   #[UW]               # NON_MILCODE   # {7}
SYM 18740 "P1121"                   #[UW]               # NON_MILCODE   # {7}
SYM 18742 "P0500_VSS_FAILURE"       #[UW]               # MILCODE       #fault code for vss failure {7}
SYM 18744 "P0705"                   #[UW]               # NON_MILCODE   # {7}
SYM 18746 "P0707"                   #[UW]               # NON_MILCODE   # {7}
SYM 18748 "P0708"                   #[UW]               # NON_MILCODE   # {7}
SYM 1874A "P0743"                   #[UW]               # NON_MILCODE   # {7}
SYM 1874C "P1704"                   #[UW]               # NON_MILCODE   # {7}
SYM 1874E "P0320"                   #[UW]               # NON_MILCODE   # {7}
SYM 18750 "P0340"                   #[UW]               # NON_MILCODE   # {7}
SYM 18752 "P0351"                   #[UW]               # NON_MILCODE   # {7}
SYM 18754 "P0352"                   #[UW]               # NON_MILCODE   # {7}
SYM 18756 "P0353"                   #[UW]               # NON_MILCODE   # {7}
SYM 18758 "P0354"                   #[UW]               # NON_MILCODE   # {7}
SYM 1875A "P0355"                   #[UW]               # NON_MILCODE   # {7}
SYM 1875C "P0356"                   #[UW]               # NON_MILCODE   # {7}
SYM 1875E "P0357"                   #[UW]               # NON_MILCODE   # {7}
SYM 18760 "P0358"                   #[UW]               # NON_MILCODE   # {7}
SYM 18762 "P0359"                   #[UW]               # NON_MILCODE   # {7}
SYM 18764 "P0360"                   #[UW]               # NON_MILCODE   # {7}
SYM 18766 "P0350"                   #[UW]               # NON_MILCODE   # {7}
SYM 18768 "P1504"                   #[UW]               # NON_MILCODE   # {7}
SYM 1876A "P1505"                   #[UW]               # NON_MILCODE   # {7}
SYM 1876C "P1506"                   #[UW]               # NON_MILCODE   # {7}
SYM 1876E "P1507"                   #[UW]               # NON_MILCODE   # {7}
SYM 18770 "P1516"                   #[UW]               # NON_MILCODE   # {7}
SYM 18772 "P1517"                   #[UW]               # NON_MILCODE   # {7}
SYM 18774 "P1518"                   #[UW]               # NON_MILCODE   # {7}
SYM 18776 "P1520"                   #[UW]               # NON_MILCODE   # {7}
SYM 18778 "P1537"                   #[UW]               # NON_MILCODE   # {7}
SYM 1877A "P1538"                   #[UW]               # NON_MILCODE   # {7}
SYM 1877C "P1233"                   #[UW]               # NON_MILCODE   # {7}
SYM 1877E "P1235"                   #[UW]               # NON_MILCODE   # {7}
SYM 18780 "P1237"                   #[UW]               # NON_MILCODE   # {7}
SYM 18782 "P0026"                   #[UW]               # NON_MILCODE   # {7}
SYM 18784 "U1039_SCP_VSS_FLT"       #[UW]               # MILCODE       #SCP Fault Code; Vehicle Speed message missing or supplying invalid data {7}
SYM 18786 "P0190"                   #[UW]               # NON_MILCODE   # {7}
SYM 18788 "P0192"                   #[UW]               # NON_MILCODE   # {7}
SYM 1878A "P0193"                   #[UW]               # NON_MILCODE   # {7}
SYM 1878C "P0442"                   #[UW]               # NON_MILCODE   # {7}
SYM 1878E "P0443"                   #[UW]               # NON_MILCODE   # {7}
SYM 18790 "P0446"                   #[UW]               # NON_MILCODE   # {7}
SYM 18792 "P0452"                   #[UW]               # NON_MILCODE   # {7}
SYM 18794 "P0453"                   #[UW]               # NON_MILCODE   # {7}
SYM 18796 "P0455"                   #[UW]               # NON_MILCODE   # {7}
SYM 18798 "P1443"                   #[UW]               # NON_MILCODE   # {7}
SYM 1879A "P1444"                   #[UW]               # NON_MILCODE   # {7}
SYM 1879C "P1445"                   #[UW]               # NON_MILCODE   # {7}
SYM 1879E "P1450"                   #[UW]               # NON_MILCODE   # {7}
SYM 187A0 "P1451"                   #[UW]               # NON_MILCODE   # {7}
SYM 187A2 "P0411"                   #[UW]               # NON_MILCODE   # {7}
SYM 187A4 "P0412"                   #[UW]               # NON_MILCODE   # {7}
SYM 187A6 "P1413"                   #[UW]               # NON_MILCODE   # {7}
SYM 187A8 "P1414"                   #[UW]               # NON_MILCODE   # {7}
SYM 187AA "P0130"                   #[UW]               # NON_MILCODE   # {7}
SYM 187AC "P0131"                   #[UW]               # NON_MILCODE   # {7}
SYM 187AE "P0132"                   #[UW]               # NON_MILCODE   # {7}
SYM 187B0 "P0133"                   #[UW]               # NON_MILCODE   # {7}
SYM 187B2 "P0135"                   #[UW]               # NON_MILCODE   # {7}
SYM 187B4 "P0136"                   #[UW]               # NON_MILCODE   # {7}
SYM 187B6 "P0138"                   #[UW]               # NON_MILCODE   # {7}
SYM 187B8 "P0141"                   #[UW]               # NON_MILCODE   # {7}
SYM 187BA "P0150"                   #[UW]               # NON_MILCODE   # {7}
SYM 187BC "P0151"                   #[UW]               # NON_MILCODE   # {7}
SYM 187BE "P0152"                   #[UW]               # NON_MILCODE   # {7}
SYM 187C0 "P0153"                   #[UW]               # NON_MILCODE   # {7}
SYM 187C2 "P0155"                   #[UW]               # NON_MILCODE   # {7}
SYM 187C4 "P0156"                   #[UW]               # NON_MILCODE   # {7}
SYM 187C6 "P0158"                   #[UW]               # NON_MILCODE   # {7}
SYM 187C8 "P0161"                   #[UW]               # NON_MILCODE   # {7}
SYM 187CA "P1133"                   #[UW]               # NON_MILCODE   # {7}
SYM 187CC "P1134"                   #[UW]               # NON_MILCODE   # {7}
SYM 187CE "P1153"                   #[UW]               # NON_MILCODE   # {7}
SYM 187D0 "P1154"                   #[UW]               # NON_MILCODE   # {7}
SYM 187D2 "P0400"                   #[UW]               # NON_MILCODE   # {7}
SYM 187D4 "P0401"                   #[UW]               # NON_MILCODE   # {7}
SYM 187D6 "P0402"                   #[UW]               # NON_MILCODE   # {7}
SYM 187D8 "P1400"                   #[UW]               # NON_MILCODE   # {7}
SYM 187DA "P1401"                   #[UW]               # NON_MILCODE   # {7}
SYM 187DC "P1405"                   #[UW]               # NON_MILCODE   # {7}
SYM 187DE "P1406"                   #[UW]               # NON_MILCODE   # {7}
SYM 187E0 "P1409"                   #[UW]               # NON_MILCODE   # {7}
SYM 187E2 "P1299"                   #[UW]               # NON_MILCODE   # {7}
SYM 187E4 "P0420_CAT1"              #[UW]               # MILCODE       #Fault code, Bank-1 cat fail {7}
SYM 187E6 "P0430_CAT2"              #[UW]               # MILCODE       #Fault code, Bank-2 cat fail {7}
SYM 187E8 "P1130_EGO11_ADP_LMT"     #[UW]               # MILCODE       #Lack of EGO11 switch, adaptive fuel at limit fault code {7}
SYM 187EA "P1131_EGO11_LEAN"        #[UW]               # MILCODE       #Lack of EGO11 switch, EGO indicates lean fault code {7}
SYM 187EC "P1132_EGO11_RICH"        #[UW]               # MILCODE       #Lack of EGO11 switch, EGO indicates rich fault code {7}
SYM 187EE "P1150_EGO21_ADP_LMT"     #[UW]               # MILCODE       #Lack of EGO21 switch, adaptive fuel at limit {7}
SYM 187F0 "P1151_EGO21_LEAN"        #[UW]               # MILCODE       #Lack of EGO21 switch, EGO indicates lean fault filter {7}
SYM 187F2 "P1152_EGO21_RICH"        #[UW]               # MILCODE       #Lack of EGO21 switch, EGO indicates rich fault code {7}
SYM 187F4 "P1309"                   #[UW]               # NON_MILCODE   # {7}
SYM 187F6 "P0300"                   #[UW]               # NON_MILCODE   # {7}
SYM 187F8 "P0301"                   #[UW]               # NON_MILCODE   # {7}
SYM 187FA "P0302"                   #[UW]               # NON_MILCODE   # {7}
SYM 187FC "P0303"                   #[UW]               # NON_MILCODE   # {7}
SYM 187FE "P0304"                   #[UW]               # NON_MILCODE   # {7}
SYM 18800 "P0305"                   #[UW]               # NON_MILCODE   # {7}
SYM 18802 "P0306"                   #[UW]               # NON_MILCODE   # {7}
SYM 18804 "P0307"                   #[UW]               # NON_MILCODE   # {7}
SYM 18806 "P0308"                   #[UW]               # NON_MILCODE   # {7}
SYM 18808 "P0171"                   #[UW]               # NON_MILCODE   # {7}
SYM 1880A "P0172"                   #[UW]               # NON_MILCODE   # {7}
SYM 1880C "P0174"                   #[UW]               # NON_MILCODE   # {7}
SYM 1880E "P0175"                   #[UW]               # NON_MILCODE   # {7}
SYM 18810 "P0503_VSS_NOISY_MALF"    #[UW]               # NON_MILCODE   #Noisy VSS malfunction {7}
SYM 18812 "P0505"                   #[UW]               # NON_MILCODE   # {7}
SYM 18814 "P0605"                   #[UW]               # NON_MILCODE   # {7}
SYM 18816 "P0703_BOO_NOT_SEEN"      #[UW]               # NON_MILCODE   #Change in brake state not seen in Continuous test {7}
SYM 18818 "P0325"                   #[UW]               # NON_MILCODE   # {7}
SYM 1881A "P0460"                   #[UW]               # NON_MILCODE   # {7}
SYM 1881C "P0602"                   #[UW]               # NON_MILCODE   # {7}
SYM 1881E "P0704"                   #[UW]               # NON_MILCODE   # {7}
SYM 18820 "P0712"                   #[UW]               # NON_MILCODE   # {7}
SYM 18822 "P0713"                   #[UW]               # NON_MILCODE   # {7}
SYM 18824 "P0721"                   #[UW]               # NON_MILCODE   # {7}
SYM 18826 "P0741"                   #[UW]               # NON_MILCODE   # {7}
SYM 18828 "P0781"                   #[UW]               # NON_MILCODE   # {7}
SYM 1882A "P0782"                   #[UW]               # NON_MILCODE   # {7}
SYM 1882C "P0783"                   #[UW]               # NON_MILCODE   # {7}
SYM 1882E "P1000"                   #[UW]               # NON_MILCODE   # {7}
SYM 18830 "P1100"                   #[UW]               # NON_MILCODE   # {7}
SYM 18832 "P0230"                   #[UW]               # NON_MILCODE   # {7}
SYM 18834 "P0231"                   #[UW]               # NON_MILCODE   # {7}
SYM 18836 "P0232"                   #[UW]               # NON_MILCODE   # {7}
SYM 18838 "P0121"                   #[UW]               # NON_MILCODE   # {7}
SYM 1883A "P1260"                   #[UW]               # NON_MILCODE   # {7}
SYM 1883C "P1270"                   #[UW]               # NON_MILCODE   # {7}
SYM 1883E "P1288"                   #[UW]               # NON_MILCODE   # {7}
SYM 18840 "P1289"                   #[UW]               # NON_MILCODE   # {7}
SYM 18842 "P1290"                   #[UW]               # NON_MILCODE   # {7}
SYM 18844 "P1112"                   #[UW]               # NON_MILCODE   # {7}
SYM 18846 "P1117"                   #[UW]               # NON_MILCODE   # {7}
SYM 18848 "P1125"                   #[UW]               # NON_MILCODE   # {7}
SYM 1884A "P1127"                   #[UW]               # NON_MILCODE   # {7}
SYM 1884C "P1128"                   #[UW]               # NON_MILCODE   # {7}
SYM 1884E "P1129"                   #[UW]               # NON_MILCODE   # {7}
SYM 18850 "P1137"                   #[UW]               # NON_MILCODE   # {7}
SYM 18852 "P1138"                   #[UW]               # NON_MILCODE   # {7}
SYM 18854 "P1157"                   #[UW]               # NON_MILCODE   # {7}
SYM 18856 "P1158"                   #[UW]               # NON_MILCODE   # {7}
SYM 18858 "P1232"                   #[UW]               # NON_MILCODE   # {7}
SYM 1885A "P1234"                   #[UW]               # NON_MILCODE   # {7}
SYM 1885C "P1236"                   #[UW]               # NON_MILCODE   # {7}
SYM 1885E "P1238"                   #[UW]               # NON_MILCODE   # {7}
SYM 18860 "P1408"                   #[UW]               # NON_MILCODE   # {7}
SYM 18862 "P1460"                   #[UW]               # NON_MILCODE   # {7}
SYM 18864 "P1469"                   #[UW]               # NON_MILCODE   # {7}
SYM 18866 "P1474"                   #[UW]               # NON_MILCODE   # {7}
SYM 18868 "P1484"                   #[UW]               # NON_MILCODE   # {7}
SYM 1886A "P1479"                   #[UW]               # NON_MILCODE   # {7}
SYM 1886C "P1500"                   #[UW]               # NON_MILCODE   # {7}
SYM 1886E "P1502_VSS_CKT_INT"       #[UW]               # NON_MILCODE   #Vehicle Speed Sensor circuit intermittent malfunction. {7}
SYM 18870 "P1512"                   #[UW]               # NON_MILCODE   # {7}
SYM 18872 "P1513"                   #[UW]               # NON_MILCODE   # {7}
SYM 18874 "P1519"                   #[UW]               # NON_MILCODE   # {7}
SYM 18876 "P0603"                   #[UW]               # NON_MILCODE   # {7}
SYM 18878 "P0501"                   #[UW]               # NON_MILCODE   # {7}
SYM 1887A "U1051_SCP_BOO_FLT"       #[UW]               # NON_MILCODE   #SCP Fault Code; Brake Status message missing or supplying invalid data {7}
SYM 1887C "P1710"                   #[UW]               # NON_MILCODE   # {7}
SYM 1887E "P1713"                   #[UW]               # NON_MILCODE   # {7}
SYM 18880 "P1718"                   #[UW]               # NON_MILCODE   # {7}
SYM 18882 "P1728"                   #[UW]               # NON_MILCODE   # {7}
SYM 18884 "P1729"                   #[UW]               # NON_MILCODE   # {7}
SYM 18886 "P1741"                   #[UW]               # NON_MILCODE   # {7}
SYM 18888 "P1743"                   #[UW]               # NON_MILCODE   # {7}
SYM 1888A "P1746"                   #[UW]               # NON_MILCODE   # {7}
SYM 1888C "P1751"                   #[UW]               # NON_MILCODE   # {7}
SYM 1888E "P1756"                   #[UW]               # NON_MILCODE   # {7}
SYM 18890 "P1760"                   #[UW]               # NON_MILCODE   # {7}
SYM 18892 "P1767"                   #[UW]               # NON_MILCODE   # {7}
SYM 18894 "P1900"                   #[UW]               # NON_MILCODE   # {7}
SYM 18896 "P1461"                   #[UW]               # NON_MILCODE   # {7}
SYM 18898 "P1462"                   #[UW]               # NON_MILCODE   # {7}
SYM 1889A "P1463"                   #[UW]               # NON_MILCODE   # {7}
SYM 1889C "P1464"                   #[UW]               # NON_MILCODE   # {7}
SYM 1889E "P1702"                   #[UW]               # NON_MILCODE   # {7}
SYM 188A0 "P1705"                   #[UW]               # NON_MILCODE   # {7}
SYM 188A2 "P1709"                   #[UW]               # NON_MILCODE   # {7}
SYM 188A4 "P1780"                   #[UW]               # NON_MILCODE   # {7}
SYM 188A6 "P1781"                   #[UW]               # NON_MILCODE   # {7}
SYM 188A8 "P1783"                   #[UW]               # NON_MILCODE   # {7}
SYM 188AA "P1116"                   #[UW]               # NON_MILCODE   # {7}
SYM 188AC "P1124"                   #[UW]               # NON_MILCODE   # {7}
SYM 188AE "P1101"                   #[UW]               # NON_MILCODE   # {7}
SYM 188B0 "P1650"                   #[UW]               # NON_MILCODE   # {7}
SYM 188B2 "P1651"                   #[UW]               # NON_MILCODE   # {7}
SYM 188B4 "P1711"                   #[UW]               # NON_MILCODE   # {7}
SYM 188B6 "P1501"                   #[UW]               # NON_MILCODE   # {7}
SYM 188B8 "P1001"                   #[UW]               # NON_MILCODE   # {7}
SYM 188BA "P1285"                   #[UW]               # NON_MILCODE   # {7}
SYM 188BC "P0180_FRT_FLT"           #[UW]               # NON_MILCODE   #Fuel rail temperature sensor fault code  {7}
#   188BD                           # END OF DTC CHART                  # {7}
SYM 188BE "AICE_FREQ_BITS"          #                                   # {7}
SYM 188C2 "AICE_TOGL"               #                                   # {7}
SYM 188C4 "AICES_UNLK_SET"          #                                   # {7}
SYM 188C6 "AICES_REG1_SET"          #                                   # {7}
SYM 188C8 "AICES_VRS_CFG"           #                                   # {7}
SYM 188CA "AICES_AD_CMND"           #                                   # {7}
SYM 188CC "AICES_CHAN_MASK"         #                                   # {7}
SYM 188CE "AICES_AD_WAIT"           #                                   # {7}
SYM 188D0 "AICES_AD_FINI"           #                                   # {7}
SYM 188D2 "AICES_RD_DIG"            #                                   # {7}
SYM 188D4 "AICES_DIG_BACK"          #                                   # {7}
SYM 188D6 "AICES_PIP_MAF"           #                                   # {7} 
SYM 188D8 "AICES_PIP_MAF_FIN"       #                                   # {7} 
SYM 188DA "AICES_PIP_MAF_WAIT"      #                                   # {7} 

SYM 188E4 "A3_CR_KSCTRS"            #                                   # {7}
SYM 188E6 "A3_CR_KSCTRS"            #                                   # {7}
SYM 188F6 "A3_KNK_COUNTER"          #                                   # {7}


SYM 18908 "ATOD_LIST"               #                                   # {7}

SYM 189B0 "S.0x192D4"               #                                   # SAME AS RZASA "S.0x192D4" L02752 {7}
SYM 189BC "S.0x192DE"               #                                   # SAME AS RZASA "S.0x192DE" L02752 {7}
SYM 189C2 "S.0x192E3"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x192E3" L028B1 {7}

SYM 18BD2 "NEXT_SPOUT_B_???"        #[  ]                #X 0-1.999969  #BETA FOR NEXT SPOUT EDGE Init. Value: 0 Resolution: 0.000031 {7}
SYM 18BDE "S.0x19669"               #[ Y]                               # SAME AS RZASA "S.0x19669" L06D0E {7}
#BYT 18BDE 18C39 :N                                                      # ???

SYM 19124 "S.0x19A64"               #[ W]                               # SAME AS RZASA "S.0x19A64"  {7}
WOR 19124 1912B                     #                                   #

SYM 1912A "S.0x1995C"               #[ Y]                #              # SAME AS RZASA "S.0x1995C"  {7}


SYM 1912E "S.0x19960"               #[ Y]                #              # SAME AS RZASA "S.0x19960"  {7}

SYM 19132 "S.0x19964"               #[ W]                               # SAME AS RZASA "S.0x19964"  {7}
WOR 19132 19139                     #                                   #

SYM 1913A "S.0x1996C"               #[ W]                               # SAME AS RZASA "S.0x1996C"  {7}
WOR 1913A 19141                     #                                   #

SYM 19142 "S.0x19974"               #[ W]                               # SAME AS RZASA "S.0x19974"  {7}
WOR 19142 19149                     #                                   #

SYM 1914A "S.0x1997C"               #[ W]                               # SAME AS RZASA "S.0x1997C"  {7}
WOR 1914A 19151                     #                                   #

SYM 19152 "S.0x19984"               #[ W]                               # SAME AS RZASA "S.0x19984"  {7}
WOR 19152 19159                     #                                   #




SYM 19282 "Timer_Cmd_Str"           #                                   # {7}
SYM 193B2 "BACKGROUND"              #                                   # {7}
SYM 194F0 "SBDS_BACKGROUND_LIST"    #                                   # {7}
SYM 194F6 "BACKGROUND_0"            #                                   # {7}
#SYM 194F8 "S.0x19585"               #[  ]                #              # SAME AS RZASA "S.0x19585"  {7}

SYM 1956C "BGS_Lvl1_3_LIST"         #                                   # {7}

SYM 19572 "BGS_AddrLIST"            #                                   # {7}
#SYM 1957C "RASTER_ASYNC_TASK_??"               #[ W]                               # tqctl_controller_?? L_02ACB {7}
SYM 19586 "TSCF_19586"                    #[UW=flo(X*1)]       #1/HWTIMERTICK 0-1#TICKS TO SECONDS CONVERSION FACTOR Base Value: 0 Resolution: 0.0001 SAME AS RZASA "S.0x1AD50" L855F3 {7}
SYM 19588 "S.0x1AD52"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1AD52" L8B5A3 {7}
SYM 1958A "FRHDR"                   #[UW]                #X 0.4-0.6     #crystal frequency constant Base Value: 0.416672 Resolution: 0.000015 {7}
SYM 1958C "S.0x1958C"               #[ W]                #              # CRAI8 L_04122 {7}
SYM 19590 "S.0x1AD5E"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1AD5E" L98FED {7}

SYM 195A0 "TICKS_TO_SEC"            #[UW=flo(X*1)]       #TICK/SEC 400000-600000#CPU clock ticks per second SAME AS RZASA "S.0x1AD6E" L9F3FC {7}
SYM 195A2 "S.0x195A2"               #[           ]       #              # {7}


SYM 195D0 "S.0x1ADA6"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1ADA6" L897A1 {7}
SYM 195D2 "S.0x1ADA8"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1ADA8" L897A6 {7}
SYM 195D6 "CHTG_PRD"                #[UW]                #              #Output period of cylinder head temperature gauge {7}
#SYM 195D6 "MFP_PERIOD"              #[UW=flo(X/65536)]   #sec           #Modulated Fuel Pump Period SAME AS RZASA "S.0x1ADAC" L1D48D L9F9D3 {7}
SYM 195DC "DTSCF_??_195DC"                #[ W]                #              #DTSCF is dependent upon the CPU clock frequency and is defined by software {7}

SYM 195E6 "S.0x1ADBC"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1ADBC" L021AB {7}
SYM 195EC "TSCF_195EC"                    #[ W]                #1/HWTIMERTICK 0-1 #TICKS TO SECONDS CONVERSION FACTOR Resolution: 0.0001 {7}

SYM 197A2 "FR_REG_VS_DATA"          #[UY]                               #RZA L0749B {7}
SYM 197A3 "FR_REG_DOL_DATA"         #[UY]                               #RZA L07497 {7}


SYM 197E7 "AIR_MAF_SAMP_??"            #[UW]                               # {7}

SYM 1AD22 "S.0x1AD52"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1AD52" L8B5A3 {7}

SYM 1AD70 "S.0x1ADAC"               #[UW=flo(X*1)]       #              # SAME AS RZASA "S.0x1ADAC" L1D48D L9F9D3 {7}
SYM 1AD80 "S.0x1ADBC"               #[UW=flo(X*1)]       #              # SAME AS RZASA S.0x1ADBC L021AB     # {7}


SYM 1E002 "AICE-1_OR_AICE-2_??"        #[  ]                #              # VALUE FOR AICE_VERS SELECT SWITCH 1 = AICE-1, 2 = AICE-2
SYM 1F702 "LUS_PRD_DTKS_??"            #[UW]                               # {7}

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# Add Bank 1 payloads here

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#SYM8FFFE "SP**_(WARNING)_AHISL"    #[UW=flo(X/256)]     #lbs/hr        # Injector High Slope **SEE COMMENTS** {2}
#SYM8FFFE "S.0x8FFFE"               #[UW=flo(X/256/Y)]   #%             # {2}

SYM 8F6FC "AP_DC0_PRD_DTKS"         #[UW]                               # {7}
SYM 8F6FE "VS_PRD_DTKS"             #[UW]                               # {7}
SYM 8F702 "LUS_PRD_DTKS"            #[UW]                               # {7}
SYM 8F704 "VSF_PRD_DTKS"            #[UW]                               # {7}
SYM 8F776 "HLOS_VALUES"             #[UW]                               # {7}
SYM 8F778 "HLOS_VALS_1"             #[UW]                               # {7}
SYM 8F77A "HLOS_VALS_2"             #[UW]                               # {7}



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#SYM9FF97 "VID_Octane"              #[UY=flo(X*1)]       #              #(FNOCTEOL) {2}
#SYM9FF9A "VID_TIRE_REV"            #[UW=flo(X*1)]       #Rev/Mile      #Rev Mile Info {2}
#SYM9FF9C "VID_RT_AXLE"             #[UW=flo(X/1024)]    #Axle Ratio    #Rear End Gear Ratio {2}
#SYM9FFFC "VID_ROM_TO"              #[UW=flo(X*1)]       #HEX           #VID Checksum (P0602) {2}



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SYM 12068 "usyFn703A"                                                   #ECT/ACT Transfer function. Input = A/D converter counts and Output = temperature, deg F {7}
FUN 12068 1207B :UY :SY #[UY=flo(X*4)] [SY=flo(X*2)]                    #X Input: FRT_CNTS Units: ADCT -127-254 DEGF XY Pairs: 10 {7}
SYM 120CA "uuwFn070K"                                                   #RPM normalizing function used for expanded low speed range during Lean Cruise operation {7}
FUN 120CA 120E5 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input: N Units: RPM Units: NORMAL RPM 0-9 XY Pairs: 7  {7}
SYM 120E6 "uuwFn071C"                                                   #Load Normalizing function; used for table lookup. Input = LOAD {7}
FUN 120E6 12101 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input: LOAD Units: * Units: NRML LOAD 0-7 XY Pairs: 7 {7}
SYM 12102 "uuwFn.0x12102"                                               # {3}
FUN 12102 1212D :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 1212E "uuwFn.0x1212e"                                               # {3}
FUN 1212E 12149 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 1214A "uuwFn.0x1214a"                                               # {3}
FUN 1214A 1215D :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1215E "suwFn.0x1215e"                                               # {3}
FUN 1215E 12179 :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    #°F> {3}
SYM 1217A "uuwFnRF_DP_ADC"                                              #Converts RFP injector delta-P sensor from ADC counts {7}
FUN 1217A 12195 :UW :UW #[UW=flo(X/64)] [UW=flo(X/512)]                 #X Input: IRF_DPACTUAL Units: ADC COUNTS 0-90 PSI XY Pairs: 7 {7}
SYM 12196 "uuwFnRFNRM_FLOW"                                             #Normalization fn of fuel-line flow for FNRF_SSFF {7}
FUN 12196 121B9 :UW :UW #[UW=flo(X/16384)] [UW=flo(X/256)]              #X Input: FP_FLOWRATEX Units: LB/MIN 0-8 XY Pairs: 9 {7}
#SYM12196 "uuwFn.0x12196"                                               # {3}
#FUN12196 121B9 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 121BA "uuwFnRFNRM_RAP"                                              #Y Scaling RFS Target RAP {2}
FUN 121BA 121D5 :UW :UW #[UW=flo(X/512)] [UW=flo(X/256)]                #Target_RAP>Row {2}
#SYM121BA "uuwFn.0x121ba"                                               # {3}
#FUN121BA 121D5 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 121D6 "suyFn825A"                                                   #Idle ECT DSDRPM Adder (Primary DSDRPM Adder) {2}
FUN 121D6 121E5 :SY :UY #[SY=flo(X*2)] [UY=flo(X*8)]                    #ECT>+DSDRPM {2}
#SYM121D6 "suyFn.0x121d6"                                               # {3}
#FUN121D6 121E5 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 121E6 "suyFn825A_ALT"                                               #Idle ECT DSDRPM Adder Alternate {7}
FUN 121E6 121F5 :SY :UY #[SY=flo(X*2)] [UY=flo(X*8)]                    #ECT>+DSDRPM {7}
SYM 121F6 "suyFn825B"                                                   #Idle ACT DSDRPM Adder {7}
FUN 121F6 12203 :SY :UY #[SY=flo(X*2)] [UY=flo(X*8)]                    #ACT>+DSDRPM {7}
SYM 12204 "uuwFn070"                                                    # Normalizing function for N, used with FN1325 as well as LTMTBL.{7}
FUN 12204 1221F :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #X Input: N Units: RPM 0-9 XY Pairs: 7 Units: NORMD {7}
#SYM12204 "uuwFn.0x12204"                                               # {3}
#FUN12204 1221F :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #>SC {3}
SYM 12220 "uuwFn071"                                                    #Load Normalizing function; used for table lookup. Input = LOAD. Output = Normalized load {7}
FUN 12220 1223B :UW :UW #[UW=flo(X/8)] [UW=flo(X/256)]                  # X Input: LOAD Units:FRAC 0-7 XY Pairs: 7 Units: NORMD {7}
SYM 1223C "sswFn.0x1223c"                                               # {3}
FUN 1223C 1225B :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #> {3}
SYM 1225C "uuwFn021"                                                    #Y Scaling LOAD (FNTDSEC8X10,FN1353) (Speed Density) {2}
FUN 1225C 1227B :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #Load>Col {2}
#SYM1225C "uuwFn.0x1225c"                                               # {3}
#FUN1225C 1227B :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 1227C "suwFn346C"                                                   #Cold Hego Delay Adder {7}
FUN 1227C 12293 :SW :UW #[SW=flo(X/8)] [UW=flo(X/1024)]                 #EXT_FEG>Adder {7}
SYM 12294 "uuwFn021A"                                                   #NORMALIZED LOAD FOR ADAPTIVE FUEL {7}
FUN 12294 122B3 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: LOAD Units:X Units: ROW NUMBER Resolution: 0.0039 XY Pairs: 8 {7}
SYM 122B4 "uuwFnSP**_041"                                               #Normalized AM (Adaptive Update Rate) {2}
FUN 122B4 122D3 :UW :UW #[UW=flo(X/1024*Z)] [UW=flo(X/256)]             #AM>Row {2}
#SYM122B4 "uuwFn.0x122b4"                                               # {3}
#FUN122B4 122D3 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 122D4 "uuwFn070D"                                                   #NORMALIZED ENGINE SPEED FOR ADAPTIVE FUEL. {7}
FUN 122D4 122EF :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: N Units: RPM Units: COLUMN NUM.0-9 Resolution: 0.0039 XY Pairs: 7 {7}
SYM 122F0 "uuyFn018"                                                    #Y Scaling ATMR1 (Fuel Tables) {2}
FUN 122F0 122FD :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #ATMR1>Row {2}
#SYM122F0 "uuyFn.0x122f0"                                               # {3}
#FUN122F0 122FD :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #> {3}
SYM 122FE "uuwFn036I_SP**_Mass_Airflow_Transfer"                        #FN036I(imaf) = Air meter transfer function (A/D counts to lbm/tick), lbm/tick. {2}
FUN 122FE 12375 :UW :UW #[UW=flo(X/64)] [UW=flo(X/163.5670949911362*Z)] #IMAF>LBS/MIN {2}
#SYM122FE "uuwFnSP**_Mass_Airflow_Transfer"                             #FN036M (MAF Transfer) {2}
#FUN122FE 12375 :UW :UW #[UW=flo(X/64/200)] [UW=flo(X/163.5670949911362*Z)]#IMAF>LBS/MIN {2}
#SYM122FE "Fn.0x122FE"                                                  # {2}
#FUN122FE 12375 :UW :UW #[UW=flo(X/64)] [UW=flo(X/163.5670949911362)]   #IMAF>LBS/MIN {2}
#SYM122FE "uuwFn036"                                                    # {3}
#FUN122FE 12375 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 12376 "uswFnCHT2R"                                                  #CHT Thermister Dual Transfer Warm (4 Cyl) (XX_ECT_SNS_HP) (Feed Forward) {7}
FUN 12376 123AD :UW :SW #[UW=flo(X/64)] [SW=flo(X/0.5)]                 #ADCnts>F {7}
SYM 123AE "uswFn703F"                                                   #Transfer function for ECT, ACT and TOT to deg F {7}
FUN 123AE 123E9 :UW :SW #[UW=flo(X/64)] [SW=flo(X/8)]                   #X Input: ECT/ACT/TOT Units: COUNTS Units: DEG F -4096-4095{7}
SYM 123EA "uuwFn072A"                                                   #PERLOAD normalizing function; used for table lookup. Input = PERLOAD. Output = Normalized perload {2}
FUN 123EA 12405 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/16)]               #X Input:PERLOAD Units:% Units:NORMD Resolution:0.0625 XY Pairs:7 {2}
#SYM123EA "uuwFn.0x123ea"                                               # {3}
#FUN123EA 12405 :UW :UW #[UW=flo(x*1)] [UW=flo(X/16)]                   #> {3}
SYM 12406 "suyFn022B"                                                  #Temperature normalizing function; used for table lookup. {2}
FUN 12406 12411 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/16)]                 #X Input:ACT Units:DEGF Units:NORMD 0-9 Resolution:0.0625 XY Pairs:6 {2}
#SYM12406 "suyFn.0x12406"                                               # {3}
#FUN12406 12411 :SY :UY #[SY=flo(x*1)] [UY=flo(X/16)]                   #> {3}
SYM 12412 "uuwFn018C"                                                   #Y Scaling ATMR1 (Fuel Tables) - FN018 {2}
FUN 12412 1242D :UW :UW #[UW=flo(X/8)] [UW=flo(X/16)]                   #ATMR1>Row {2}
#SYM12412 "uuwFn.0x12412"                                               # {3}
#FUN12412 1242D :UW :UW #[UW=flo(x*1)] [UW=flo(X/16)]                   #> {3}

SYM 1247A "Fn1247A"                                                     # {7}
FUN 1247A 12499  :SW :UW                                                # ?????

SYM 124B2 "suwFn059"                                                    #Temp Comp for Inferred BP (CAI) (ISC Correction ACT) {2}
FUN 124B2 124CD :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/32768)]              #ACT>Corr {2}
#SYM124B2 "suwFn.0x124b2"                                               # {3}
#FUN124B2 124CD :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    #°F> {3}
SYM 124D0 "uuwFn044"                                                    #Y Scaling TP_REL (FN1036,FN1037) {2}
FUN 124D0 124EF :UW :UW #[UW=flo(X/64)] [UW=flo(X/256)]                 #TP_REL>Col {2}
#SYM124D0 "uuwFn.0x124d0"                                               # {3}
#FUN124D0 124EF :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 124F0 "uuwFn070E"                                                   #X Scaling RPM Inferred MAF/BP (FN1036 / FN1037) {2}
FUN 124F0 1250B :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>Col {2}
#SYM124F0 "uuwFn.0x124f0"                                               # {3}
#FUN124F0 1250B :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 1250C "uuwFn077"                                                    #Y Scaling PCT_LOAD (FN1039) {2}
FUN 1250C 1251F :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #PCT_LOAD>Row {2}
#SYM1250C "uuwFn.0x1250c"                                               # {3}
#FUN1250C 1251F :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 12520 "uuwFn078"                                                    #X Scaling ISCDTY (FN1039) {2}
FUN 12520 12533 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #ISCDTY>Col {2}
#SYM12520 "uuwFn.0x12520"                                               # {3}
#FUN12520 12533 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 1269E "uuwFn185A"                                                   #IMRC closing weight for IMRC spark modification SAME AS RZASA "uuwFn.0x124b8" #L9743B IMRC {7}
FUN 1269E 126B1 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:IMRC_RSP_TMR Units:s Units:FRACTION 0-1 Resolution: 0.007812 XY Pairs: 5 {7}
SYM 126B2 "uuwFn186A"                                                   #IMRC opening weight for IMRC spark modification SAME AS RZASA "uuwFn.0x124cc" L97461 IMRC {7}
FUN 126B2 126C5 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:IMRC_RSP_TMR Units:s Units:FRACTION 0-1 Resolution: 0.007812 XY Pairs: 5 {7}
SYM 126C6 "uuwFn503"                                                    #IMRC Enable TPREL Threshold {2}
FUN 126C6 126E1 :UW :UW #[UW=flo(X/4)] [UW=flo(X/64)]                   #N_RPM>TPREL {2}
#SYM126C6 "uuwFn.0x126c6"                                               # {3}
#FUN126C6 126E1 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 126E2 "uuwFn285"                                                    #IMR closing multipler for transient fuel modification as a function of time since IMR changed state SAME AS RZASA "uuwFn.0x124e0" L97455 IMRC {7}
FUN 126E2 126F9 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:IMRC_RSP_TMR X Units:S Units:FRACTION 0-1.992188 Resolution: 0.007812 XY Pairs: 6 {7}
SYM 126FA "uuwFn286"                                                    #IMR opening multipler for transient fuel modification as a function of time since IMR changed state SAME AS RZASA "uuwFn.0x124f4" L9747B IMRC {7}
FUN 126FA 12711 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:IMRC_RSP_TMR X Units:S Units:FRACTION 0-1.992188 Resolution: 0.007812 XY Pairs: 6 {7}
SYM 12856 "uswFnMAXISIGTOT"                                             #Upper TOT limit for ISIG testing per VBAT SAME AS RZASA "uswFn.0x1280a" L82943 {7}
FUN 12856 1286D :UW :SW #[UW=flo(x/4096)] [SW=flo(x*1)]                 #X=VBAT VOLTS> DEGREES TOT XY Pairs: 6 RANGE -4096 TO 4095.875 {7}
SYM 1286E "uswFnMINISIGTOT"                                             #Lower TOT limit for ISIG testing per VBAT SAME AS RZASA "uswFn.0x12822" L82955 {7}
FUN 1286E 12885 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #X=VBAT VOLTS> DEGREES TOT XY Pairs: 6 RANGE -4096 TO 4095.875 {7}
SYM 12962 "uuwFn035"                                                    #Peak load at ESTP, unitless (EEC Standard Temperature and Pressure) {7}
FUN 12962 1297D :UW :UW #[UW=flo(X/4)] [UW=flo(X/32768)]                #RPM>LOAD {7}
#NOTE:  EEC Standard Temperature and Pressure (ESTP) is defined to be 100 deg F inlet air temperature (act), 29.875 inches Hg abs. barometric pressure, and 200 deg F engine coolant temperature (ect).


SYM 1297E "uuwFn085"                                                    #Y Scaling LOAD (FN1315) {2}
FUN 1297E 12995 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/16)]               #Load>Y_Row {2}
#SYM1297E "uuwFn.0x1297e"                                               # {3}
#FUN1297E 12999 :UW :UW #[UW=flo(x*1)] [UW=flo(X/16)]                   #> {3}
SYM 129A7 "uuyFn201"                                                    #EGR Valve Start to Open Duty Cycle vs SYS_DELPR {7}
FUN 129A7 129B0 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:SYS_DELPR Units:IN HG Units:Vdc 0-0.90 Resolution: 0.0078 XY Pairs: 5 {7}
SYM 129B1 "uuyFn202"                                                    #EGR Monitor SYS_DELPR Threshold {7}
FUN 129B1 129BC :UY :UY #[UY=flo(X/8)] [UY=flo(X/2)]                    #HO">HO" {7}

SYM 129BE "suwFn_129BE"
FUN 129BE 129D5 :SW :UW



SYM 129D6 "suwFn394R_TEH"                                               #Time delay, as a function of TOTECT, before neutral-drive to reverse change is reflected in DNDSUP; High resolution {7}
FUN 129D6 129F1 :SW :UW #[SW=flo(X/8)] [UW=flo(X/1024)]                 #X Input:TOTECT Units:DEG F Units:SECOND 0-63.999001 Resolution: 0.001 XY Pairs: 7 {7}
SYM 129F2 "suwFn394F_TEH"                                               #Time delay, as a function of TOTECT, before neutral/park to in-gear change is reflected in DNDSUP; High resolution {7}
FUN 129F2 12A0D :SW :UW #[SW=flo(X/8)] [UW=flo(X/1024)]                 #X Input:TOTECT Units:DEG F Units:SECOND 0-63.999001 Resolution: 0.001 XY Pairs: 7 {7}
SYM 12A0E "uuwFnFP_VBAT"                                                #VBAT large enough with respect to AM to allow high speed fuel pump operation {7}
FUN 12A0E 12A21 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #VBAT VOLTAGE> (0-16.0) Units: LB/MIN XY Pairs: 5 {7}
SYM 12A7C "suyFnRF_BOIL"                                                #Commanded Fuel Pressure {7}
FUN 12A7C 12A8B :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/2)]                  #RF_RAILTEMP>RF_DPREF_PSI {7}
SYM 12A8C "uuwFnFP_IR_DROP"                                             #FPDM Voltage Drop {2}
FUN 12A8C 12A9F :UW :UW #[UW=flo(X/16384)] [UW=flo(X/16)]               #FlowRate>Volts_DC {2}
#SYM12A8C "uuwFn.0x12a8c"                                               # {3}
#FUN12A8C 12A9F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 12AA0 "uuwFnRF_LINEAR"                                              #Rail Pressure Commanded {7}
FUN 12AA0 12ABB :UW :UW #[UW=flo(X/33554432)] [UW=flo(X/512)]           #lbmf_inj1>psi {7}
SYM 12ABC "uuwFnFRTMUL"                                                 #Inferred FRT Flow Multiplier {7}
FUN 12ABC 12ADB :UW :UW #[UW=flo(X/16384)] [UW=flo(X/65536)]            #Flowrate>Fraction {7}
SYM 12ADC "uuwFnFRTTC"                                                  #Inferred Rail Temp TC {7}
FUN 12ADC 12AFB :UW :UW #[UW=flo(X/16384)] [UW=flo(X/64)]               #FlowRate>S {7}
SYM 12AFC "suwFnRF_COLD"                                                #Cold Start Rail Pres Commanded {7}
FUN 12AFC 12B0F :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/128)]                #RAILTEMP>psi {7}
SYM 12B10 "uuwFnXTMINGR4"                                               #Y Scaling Sec TIM_IN_GR4 (FNTMSEQ32P4) {7}
FUN 12B10 12B27 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #sec>Y_Row {7}
SYM 12B28 "uuwFnXVSBART_RT"                                             #X Scaling VSBART_RT (FNTMSEQ32P4) {7}
FUN 12B28 12B4F :UW :UW #[UW=flo(X/2)] [UW=flo(X/256)]                  #MPH> {7}
SYM 12B8C "sswFn851A"                                                   #DESMAF Derivative Contributor {2}
FUN 12B8C 12BAB :SW :SW #[SW=flo(X/4)] [SW=flo(X/2048)]                 #RPMERR>lbs/min {2}
#SYM12B8C "sswFn.0x12b8c"                                               # {3}
#FUN12B8C 12BAB :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #> {3}
SYM 12BAC "sswFn852A"                                                   #Idle Proportional Correction (Anti-Stall) {2}
FUN 12BAC 12BCB :SW :SW #[SW=flo(X/4)] [SW=flo(X/2048)]                 #RPMERR>lbs/min {2}
#SYM12BAC "sswFn.0x12bac"                                               # {3}
#FUN12BAC 12BCB :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #> {3}
SYM 12BCC "uswFn610"                                                    #TANK PRESSURE SENSOR TRANSFER FUNCTION{7}
FUN 12BCC 12BE3 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #X Input:TPR_CNTS Units:COUNTS Units:IN. WATER -64-63.990002 Resolution: 0.001950 XY Pairs: 6 {7}
SYM 12BE4 "uuwFn610A"                                                   #Fuel level sensor transfer function {7}
FUN 12BE4 12C07 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:FLI_REST Units:Ohms Units: -- 0-1.999 Resolution: 0.000031 XY Pairs: 9 {7}
SYM 12C08 "uuwFn610A_SCP"                                               #Transfer function used when fuel level input is received over SCP bus {7}
FUN 12C08 12C2B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:scp_fli_cnts Units:ADct Units:-- 0-1.999 Resolution: 0.000031 XY Pairs: 9 {7}
SYM 12C2C "uuwFnSCP_FLVL"                                               #Transfer function for filtered fuel level received over SCP bus {7}
FUN 12C2C 12C4F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:scp_fli_lvl Units:unitless Units:-- 0-1.999 Resolution: 0.000031 XY Pairs: 9 {7}
SYM 12C50 "uuwFnPGM_PH2_TM"                                             #Purge Monitor Ph2 Time {7}
FUN 12C50 12C6B :UW :UW #[UW=flo(X/32768)] [UW=flo(x*1)]                #Fuel_Lvl%>sec {7}
SYM 12C6C "uuwFnPGM_02LK_T"                                             #Purge Monitor 02 Ph2 Time {7}
FUN 12C6C 12C83 :UW :UW #[UW=flo(X/32768)] [UW=flo(x*1)]                #Fuel_Lvl%>sec {7}
SYM 12C84 "uuwFnPGM_IDLE_T"                                             #Purge Monitor Idle Ph2 Time {7}
FUN 12C84 12C9B :UW :UW #[UW=flo(X/32768)] [UW=flo(x*1)]                #Fuel_Lvl%>sec {7}
SYM 12CB6 "uuwFn339B(x)"                                                #LAMBSE fuel modulation function generator (Res= 0.001, Range = 0-1, 10 xy pairs) {7}
FUN 12CB6 12CDD :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #Output units=norm A/F Input units= norm time (FN_INPUT)Ranging from 0-20 (useful range 0-2) {7}
## Base calibration = (0.0, 0.0), (0.2, 0.588), (0.35, 0.891),(0.45, 0.988), (0.5, 1.0), (0.55, 0.988), (0.65, 0.891),(0.8, 0.588), (1.0, 0.0) ####

SYM 12CDE "uuwFn.0x12CDE"                                               #
FUN 12CDE 12CED :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #
SYM 12CEE "uuwFn039A_??"                                                #RPM NORMALIZING FUNCTION FOR FN1353A ??? {7}
FUN 12CEE 12CFD :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #N_RPM {7}
SYM 12D02 "sswFnFAOSCI"                                                 #Integral feedback {7}
FUN 12D02 12D1D :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #X Input:ERROR Units:VOLTS Units:LAMBDA/MIN -0.025-0.249 Resolution: 0.000008 XY Pairs: 7 {7}
SYM 12D1E "sswFnFAOSCP"                                                 #Proportional feedback bias from FAOSC {7}
FUN 12D1E 12D39 :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #X Input:ERROR Units:VOLTS Units:NORM A/F -0.015-0.015 Resolution: 0.000122 XY Pairs: 7 {7}
SYM 12DDA "uuyFn315"                                                    #Hego Bias VS Multiplier {2}
FUN 12DDA 12DE5 :UY :UY #[UY=flo(X/2)] [UY=flo(X/128)]                  #MPH>xLambda {2}
#SYM12DDA "uuyFn.0x12dda"                                               # {3}
#FUN12DDA 12DE5 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 12DE6 "uuwFn039E"                                                   #X Scaling RPM (FN1353E,FNTDSEC8x10) {2}
FUN 12DE6 12E0D :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>X_Col {2}
#SYM12DE6 "uuwFn.0x12de6"                                               # {3}
#FUN12DE6 12E0D :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 12E2E "uuwFn039"                                                    #X Scaling RPM (HEGO) {2}
FUN 12E2E 12E4D :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>X_Col {2}
#SYM12E2E "uuwFn.0x12e2e"                                               # {3}
#FUN12E2E 12E4D :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 12E4E "uuwFn021E"                                                   #Y Scaling LOAD (FN1351E) {7}
FUN 12E4E 12E5D :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #LOAD>Y_Row {7}
SYM 12E5E "uuwFn039F"                                                   #X Scaling RPM (FN1351E) {7}
FUN 12E5E 12E6D :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>X_Col {7}
SYM 12F6C "ssyFn336"                                                    #Injector Timing ECT Modifier {7}
FUN 12F6C 12F77 :SY :SY #[SY=flo(X/0.5)] [SY=flo(X/0.25)]               #ECT>CrkDgr {7}
SYM 12F78 "uuwFnCALCLP"                                                 #Dynamic Fuel Max Pip Period (NUMCYL) {7}
FUN 12F78 12F93 :UW :UW #[UW=flo(X/4)] [UW=flo(X/16384)]                #RPM>PIP_Period {7}
SYM 12FB0 "suwFn001"                                                    #X Scaling Temp Delta (FN1338) {7}
FUN 12FB0 12FC7 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/256)]                #DELTA_TEMP>Col {7}
SYM 12FC8 "suwFn001A"                                                   #Y Scaling Temp (FN1338) {7}
FUN 12FC8 12FDF :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/256)]                #Temp>Row {7}
SYM 12FE0 "suwFn001B"                                                   #Y Scaling Off Engine Temp (FN1347) {7}
FUN 12FE0 12FF7 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/256)]                #powr_off_temp>Row {7}
SYM 12FF8 "uuwFn007"                                                    #Y Scaling AM (FN1348) {7}
FUN 12FF8 1300F :UW :UW #[UW=flo(X/1024)] [UW=flo(X/256)]               #AM>Y_Row {7}
SYM 13010 "uuwFn008"                                                    #X Scaling ATMR3 (FN1348) {7}
FUN 13010 13027 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #sec>X_Col {7}
SYM 13028 "uuwFn008B"                                                   #X Scaling Soak Time (FN1347) {7}
FUN 13028 13047 :UW :UW #[UW=flo(X/2)] [UW=flo(X/256)]                  #sec>Col {7}
SYM 130A4 "uuwFn839"                                                    #Dashpot CT Spark Multiplier {2}
FUN 130A4 130BF :UW :UW #[UW=flo(X/4096)] [UW=flo(X/128)]               #DASPOT>xSAFTOT {2}
#SYM130A4 "uuwFn.0x130a4"                                               # {3}
#FUN130A4 130BF :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 130C8 "suwFn385A"                                                   #Minimum engine speed to exit CRANK versus ECT {7}
FUN 130C8 130E7 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/4)]                  #X Input:ECT Units:DEG.F Units:RPM 0-1000 Resolution:0.25 XY Pairs: 8 {7}
SYM 130E8 "suwFnFn385A"                                                 #UNDERSPEED-to-RUN transition as a function of ECT {7}
FUN 130E8 13107 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:ECT Units:DEG F Units:RPM 0-1000 Resolution: 0.25 XY Pairs: 8 {7}
SYM 13114 "suyFn022C"                                                   # ECT NORMALIZING FUNCTION FOR TRANSIENT FUEL TABLES {7}
FUN 13114 1311F :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/16)]                 # X Input: ECT  X Input Units: degF {7}
#SYM13114 "suyFn.0x13114"                                               # {3}
#FUN13114 1311F :SY :UY #[SY=flo(x*1)] [UY=flo(X/16)]                   #>SC {3}
SYM 13120 "uuwFn071L"                                                   #TEISF Y Scaling Load {2}
FUN 13120 1313F :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #Load>Y_Row {2}
#SYM13120 "uuwFn.0x13120"                                               # {3}
#FUN13120 1313F :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #>SC {3}
SYM 13140 "uuwFn079F"                                                   #Y Scaling Stoich AFR (FN1380F) {2}
FUN 13140 1315B :UW :UW #[UW=flo(X/1024)] [UW=flo(X/16)]                #AFR>Y_Row {2}
#SYM13140 "uuwFn.0x13140"                                               # {3}
#FUN13140 1315B :UW :UW #[UW=flo(x*1)] [UW=flo(X/16)]                   #> {3}
SYM 1315C "suwFn312S"                                                   #Change in the transient fuel puddle mass ber change in aircharge. {7}
FUN 1315C 13183 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:ECT Units:DEGF Units: UNITLESS 0-15.999 Resolution: 0.000244 XY Pairs: 10 {7}
SYM 13184 "uuwFn313"                                                    #EISF SPEED COMPENSATION {7}
FUN 13184 1319B :UW :UW #[UW=flo(X/4)] [UW=flo(X/16384)]                #X Input:N Units:RPM Units: UNITLESS 0-3.99 Resolution:0.000061 XY Pairs: 6 {7}
#SYM13184 "uuwFn.0x13184"                                               # {3}
#FUN13184 1319B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1319C "uuwFn313TA"                                                  #TSEIF RPM Multiplier Accel {7}
FUN 1319C 131BB :UW :UW #[UW=flo(X/4)] [UW=flo(X/16384)]                #RPM>xMul {7}
SYM 131BC "uuwFn313TD"                                                  #DECEL EFTC RPM MULTIPLIER {7}
FUN 131BC 131DB :UW :UW #[UW=flo(X/4)] [UW=flo(X/16384)]                #X Input:N Units:RPM Units: UNITLESS 0-3.99 Resolution: 0.015625 XY Pairs: 8 {7}
SYM 133A2 "uuwFn052N"                                                   #FN052N(n) = Slope of manifold absolute pressure vs. air charge, inches Hg/(lbm/intake stroke). {7}
FUN 133A2 133C1 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #N > {7}
SYM 133C2 "suyFn022V"                                                   #X/Y Scaling ECT/ACT - Manifold Fill {2}
FUN 133C2 133CF :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/16)]                 #ACT/ECT>X/Y {2}
#SYM133C2 "suyFn.0x133c2"                                               # {3}
#FUN133C2 133CF :SY :UY #[SY=flo(x*1)] [UY=flo(X/16)]                   #°F> {3}
SYM 133D0 "uuyFn052BP"                                                  #MAP BP Correction {7}
FUN 133D0 133DB :UY :UY #[UY=flo(X/8)] [UY=flo(X/128)]                  #BP>xMul {7}
SYM 133DC "suwFn052C"                                                   #Crank LOAD (CRANK PW) {7}
FUN 133DC 133F3 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/32768)]              #ECT>LOAD {7}
SYM 133F4 "uuwFn052M"                                                   #FN052M(n) = Manifold absolute pressure at 0 air charge, inches Hg.  {7}
FUN 133F4 13423 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #N > IN/HG{7}
SYM 13424 "suwFn059T"                                                   #FN059T(act) = Density correction factor for cylinder air charge, unitless {7}
FUN 13424 1343B :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    #ACT F> {3}
SYM 1347C "ssyFn123A"                                                   #FN123A(act) = Air meter correction for air charge temperature, unitless. {7}
FUN 1347C 13487 :SY :SY #[SY=flo(X*2)] [SY=flo(x*1)]                    #ACT F> {7}
SYM 13488 "ssyFn123E"                                                   #FN123E(ect) = Air meter correction for engine coolant temperature, unitless {7}
FUN 13488 13493 :SY :SY #[SY=flo(x*1)] [SY=flo(x*1)]                    #ECT F> {7}
SYM 13494 "uuwFnSP**_040A"                                              #Default Air Charge {7}
FUN 13494 134B3 :UW :UW #[UW=flo(X/4)] [UW=flo(X/4194304*Z)]            #RPM>lbs/intake {7}
SYM 134BE "uuwFn367W"                                                   #Injector Offset Voltage / FN367 {2}
FUN 134BE 134ED :UW :UW #[UW=flo(X/4096)] [UW=flo(X/1024)]              #VBAT>PW {2}
#SYM134BE "uuwFn.0x134be"                                               # {3}
#FUN134BE 134ED :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 134F2 "uuyFn348BP"                                                  #Crank fuel pulsewidth multiplier as a function of BP {2}{7}
FUN 134F2 134FD : Y : Y #[?Y=flo(X/8)] [?Y=flo(X/64)]                   #X Input:BP Input Units:INHG Units: UNITLESS 0-3.984 Resolution: 0.015625 XY Pairs: 6 {2}
#SYM134F2 "uuyFn.0x134f2"                                               # {3}
#FUN134F2 134FD :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 1356A "suwFn320A"                                                   #ECT OL Threshold {2}
FUN 1356A 13585 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/32768)]              #ECT>PERLOAD {2}
#SYM1356A "suwFn.0x1356a"                                               # {3}
#FUN1356A 13585 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13586 "uuwFn337C"                                                   #CL Max Load Allowed Warm (FN337C) {7}
FUN 13586 135B5 :UW :UW #[UW=flo(x/8)?] [UW=flo(x/128)?]                #in Hg>xMul {7} USES N
SYM 135B6 "uuwFn338"                                                    #Max Load OL Decel (LOLOD) {7}
FUN 135B6 135D1 :UW :UW #[UW=flo(X/4)] [UW=flo(X/32768)]                #RPM>LOAD {7}
SYM 135D4 "suwFn371"                                                    #Engagement Drive Fuel Multiplier {2}
FUN 135D4 135F3 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/256)]                #ECT>xLambse {2}
#SYM135D4 "suwFn.0x135d4"                                               # {3}
#FUN135D4 135F3 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 135F4 "suwFn371_ALT"                                                #Engagement Drive Fuel Multiplier {2}
FUN 135F4 13613 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/256)]                #ECT>xLambse {2}
#SYM135F4 "suwFn.0x135f4"                                               # {3}
#FUN135F4 13613 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13614 "suyFn387A"                                                   #FUELPW MULTIPLIER VS ECT PURPOSE: UNDERSPEED MODE FUEL CONTROL.  Range:  0-1.98  {2}
FUN 13614 13625 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/64)]                 #X Input:ECT Units:DEGF Units:UNITLESS 0-1.984375 Resolution: 0.015625 XY Pairs: 9 {2}
#SYM13614 "suyFn.0x13614"                                               # {3}
#FUN13614 13625 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 13626 "suyFn387_ALT"                                                #Alternative FN387 {2}
FUN 13626 13637 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/64)]                 #X Input:ECT Units:DEGF Units:UNITLESS 1-2 Resolution: 0.015625 XY Pairs: 9 {2}
#SYM13626 "suyFn.0x13626"                                               # {3}
#FUN13626 13637 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 136D8 "suyFn393F"                                                   #Engagement Drive Delay (N/D Delay) {2}
FUN 136D8 136E5 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/1024)]               #ECT>sec {2}
#SYM136D8 "suyFn.0x136d8"                                               # {3}
#FUN136D8 136E5 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 136E6 "suyFn393R"                                                   #Engagement Reverse Delay (N/R Delay) {7}
FUN 136E6 136F3 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/1024)]               #ECT>sec {7}

#SYM 136F8 "suwFn371_??"                                                    #Engagement Drive Fuel Multiplier {7}
#FUN 136F8 13723 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/256)]                #ECT>xLambse {7}

SYM 136F8 "suwFn348A"                                                   #CRANK FUEL PULSEWIDTH PURPOSE:CRANK FUEL AS A FUNCTION OF ECT INPUT: ENGINE COOLANT TEMPERATURE {2}
FUN 136F8 13723 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/65.536)]             #X Input:ECT Units:degF Units: MS 0-0.6 Resolution: 0.000015 XY Pairs: 11
#SYM136F8 "suwFn.0x136f8"                                               # {3}
#FUN136F8 13723 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1375C "uuwFn301"                                                    #Multiplier for closed throttle as a function of engine speed N {7}
FUN 1375C 13773 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units: UNITLESS 0-1.992 Resolution: 0.007812 XY Pairs: 6 {7}
SYM 13774 "uuwFn303"                                                    #WOT Fuel Multiplier as a function of engine speed N {2}
FUN 13774 13793 :UW :UW #[UW=flo(X/4)] [UW=flo(X/128)]                  ##X Input:N Units:RPM Units: UNITLESS 0-1.992 Resolution: 0.007812 XY Pairs: 8  {2}
#SYM13774 "uuwFn.0x13774"                                               # {3}
#FUN13774 13793 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13794 "uuwFn308"                                                    #Sea level fuel multiplier, RPM {7}
FUN 13794 137AF :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:UNITLESS 0-1.99 Resolution: 0.01 XY Pairs: 7 {7}
SYM 137B0 "uuwFn309"                                                    #Altitude lugging fuel multiplier, RPM {7}
FUN 137B0 137CB :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:UNITLESS 0-1.99 Resolution: 0.007812 XY Pairs: 7 {7}
SYM 137DD "suyFn300"                                                    #ACT Lambse Multiplier {2}
FUN 137DD 137E8 :SY :UY #[SY=flo(X*2)] [UY=flo(X/64)]                   #ACT>xLambse {2}
#SYM137DD "suyFn.0x137dd"                                               # {3}
#FUN137DD 137E8 :SY :UY #[SY=flo(X*2)] [UY=flo(x*1)]                    #°F> {3}
SYM 137E9 "suyFn325"                                                    #Stabilized ECT Lambse Modifier (FN1360) {2}
FUN 137E9 137F6 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/128)]                #ECT>xLambse {2}
#SYM137E9 "suyFn.0x137e9"                                               # {3}
#FUN137E9 137F6 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 137F8 "uuwFn.0x137f8"                                               # {3}
FUN 137F8 1380F :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 13810 "uuwFn.0x13810"                                               # {3}
FUN 13810 13827 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 13828 "uuwFn.0x13828"                                               # {3}
FUN 13828 13843 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1393C "uuwFnPWCOM_BK"                                               #Breakpoint DeltaP {2}
FUN 1393C 13953 :UW :UW #[UW=flo(X/512)] [UW=flo(X/16384)]              #DELTAP>X {2}
#SYM1393C "uuwFn.0x1393c"                                               # {3}
#FUN1393C 13953 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13954 "uuwFnPWCOM_HS"                                               #AHISL DeltaP {2}
FUN 13954 1396B :UW :UW #[UW=flo(X/512)] [UW=flo(X/16384)]              #DELTAP>X {2}
#SYM13954 "uuwFn.0x13954"                                               # {3}
#FUN13954 1396B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1396C "uuwFnPWCOM_LS"                                               #ALOSL DeltaP {2}
FUN 1396C 13983 :UW :UW #[UW=flo(X/512)] [UW=flo(X/16384)]              #DELTAP>X {2}
#SYM1396C "uuwFn.0x1396c"                                               # {3}
#FUN1396C 13983 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13984 "uuwFnRGP"                                                    #Inferred Fuel Flow Rail Pressure Mechanical {2}
FUN 13984 1399B :UW :UW #[UW=flo(X/16384)] [UW=flo(X/512)]              #wfeng_tmp>psi {2}
#SYM13984 "uuwFn.0x13984"                                               # {3}
#FUN13984 1399B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1399C "uuwFn311"                                                    #OL Threshold TPREL (THBP5) {2}
FUN 1399C 139B7 :UW :UW #[UW=flo(X/4)] [UW=flo(X/64)]                   #RPM>TP_REL {2}
#SYM1399C "uuwFn.0x1399c"                                               # {3}
#FUN1399C 139B7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13A81 "uuyFnTAX_??"                                                    #X Scaling Synthesized Throttle (FNTA_STP) {7}
FUN 13A81 13A94 :UY :UY #[UY=flo(X*64)] [UY=flo(X/16)]                  #N_BYTE>Col {7}
SYM 13A95 "uuyFnTAY_??"                                                    #Y Scaling Synthesized Throttle (FNTA_STP) {7}
FUN 13A95 13AA8 :UY :UY #[UY=flo(X/0.5)] [UY=flo(X/16)]                 #TQ_NET>Row {2}
SYM 13BEC "uuwFn203"                                                    #EGR TP cutout threshold {7}
FUN 13BEC 13C13 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: N Units: RPM  COUNTS 0-1023 XY Pairs: 10 {7}
SYM 13C14 "uswFn1405_THRES"                                             #EGR Monitor DELPR Threshold (P1405) {7}
FUN 13C14 13C2B :UW :SW #[UW=flo(X/1024)] [SW=flo(X/128)]               #lbs/min>DelPr {7}
SYM 13C2C "uswFn1406_THRES"                                             #EGR Monitor DELPR Threshold (P1406) {7}
FUN 13C2C 13C43 :UW :SW #[UW=flo(X/1024)] [SW=flo(X/128)]               #lbs/min>DelPr {7}
SYM 13C44 "uuwFn_HTR_XFER"                                              #HEGO Heater Current Transfer {7}
FUN 13C44 13C4F :UW :UW #[UW=flo(X/64)] [UW=flo(X/256)]                 #cts>amps {7}
SYM 13C50 "uuyFn_USHTR_DC"                                              #Hego Heater DC (Long-tubes) {7}
FUN 13C50 13C5D :UY :UY #[UY=flo(x*1)] [UY=flo(X/128)]                  #US_HTR_TMR>US_HTR_DC {7}
#SYM13C50 "uuyFn.0x13c50"                                               # {3}
#FUN13C50 13C5D :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 13CA6 "uuwFnSP**_096"                                               #FMEM Inferred TP_REL (failed TPS) {7}
FUN 13CA6 13CC1 :UW :UW #[UW=flo(X/1024*Z)] [UW=flo(X/64)]              #lbs/min>TP_REL {7}

SYM 13CC2 "uuyFn_13CC2"
FUN 13CC2 13CCD :UY :UY

SYM 13CCE "suwFn803A"                                                   #DSDRPM Kick Down Timer (FN826A) {2}
FUN 13CCE 13CE9 :SW :UW #[SW=flo(X/0.5)] [UW=flo(x*1)]                  #ACSTRT>sec {2}
#SYM13CCE "suwFn.0x13cce"                                               # {3}
#FUN13CCE 13CE9 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13CEA "suyFn826A"                                                   #DSDRPM Startup ECT Adder (Kickdown) {2}
FUN 13CEA 13CF7 :SY :UY #[SY=flo(X*2)] [UY=flo(X*8)]                    #ECT>+DSDRPM {2}
#SYM13CEA "suyFn.0x13cea"                                               # {3}
#FUN13CEA 13CF7 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 13CF8 "suyFn826B"                                                   #Startup ACT DSDRPM Adder (TKDTN) {7}
FUN 13CF8 13D05 :SY :UY #[SY=flo(X*2)] [UY=flo(X*8)]                    #ACT>+DSDRPM {7}
SYM 13D06 "suwFn861"                                                    #DSDRPM Min Clip TOT {7}
FUN 13D06 13D25 :SW :UW #[SW=flo(X/8)] [UW=flo(X/2)]                    #> {7}
SYM 13D26 "suwFn861R"                                               #Minimum value of DSDRPM, in Reverse, based on TOT constraints SAME AS RZASA F_13C5C {7}
FUN 13D26 13D45 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEGREES F* Units:RPM 0-1024  Resolution: 8.0 XY Pairs: 8 {7}
SYM 13D46 "suyFn884"                                                    #ISC Crank ISCDC {2}
FUN 13D46 13D51 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/128)]                #ECT>ISCDTY {2}
#SYM13D46 "suyFn.0x13d46"                                               # {3}
#FUN13D46 13D51 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 13D52 "uuwFn060"                                                    #Y Scaling Perload_ISC (FN8000) {2}
FUN 13D52 13D71 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #Perload_ISC>Row {2}
#SYM13D52 "uuwFn.0x13d52"                                               # {3}
#FUN13D52 13D71 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 13D72 "uuwFn061"                                                    #X Scaling Lbs/Min (FN8000) {2}
FUN 13D72 13D99 :UW :UW #[UW=flo(X/4096)] [UW=flo(X/256)]               #LBS/MIN>Col {2}
#SYM13D72 "uuwFn.0x13d72"                                               # {3}
#FUN13D72 13D99 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 13D9A "uuyFn890"                                                    #ISCKAM Correction Altitude {2}
FUN 13D9A 13DA1 :UY :UY #[UY=flo(X/8)] [UY=flo(X/256)]                  #BP>AM_PPM {2}
#SYM13D9A "uuyFn.0x13d9a"                                               # {3}
#FUN13D9A 13DA1 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 13DDE "uuwFn035A"                                                   #Peak load at sea level as a function of engine speed {2}
FUN 13DDE 13E0D :UW :UW #[UW=flo(X/4)] [UW=flo(X/32768)]                #X Input:N Units:RPM Units:UNITLESS 0-1.99 Resolution:0.00003 XY Pairs: 12 {2}
#SYM13DDE "uuwFn.0x13dde"                                               # {3}
#FUN13DDE 13E0D :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13E0E "uuwFn018B"                                                   #Y Scaling ATMR3 (ISC_Multiplier) {2}
FUN 13E0E 13E21 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #ATMR3>Row {2}
#SYM13E0E "uuwFn.0x13e0e"                                               # {3}
#FUN13E0E 13E21 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13E22 "suyFn020C"                                                   #Temperature normalizing function of ECT, used as input  for FN1861 {2}
FUN 13E22 13E2F :SY :UY #[SY=flo(X*2)] [UY=flo(X/16)]                   #X Input:ECT Units:DEGF Units: NORMD 0-6 Resolution: 0.0625 XY Pairs: 7 {2} {7}
#SYM13E22 "suyFn.0x13e22"                                               # {3}
#FUN13E22 13E2F :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 13E30 "uuwFn875HD"                                                  #Idle AM Drive (Auto Trans Only) (FN875D) {2}
FUN 13E30 13E57 :UW :UW #[UW=flo(X/16)] [UW=flo(X/2048)]                #RPM>LBS/MIN {2}
#SYM13E30 "uuwFn.0x13e30"                                               # {3}
#FUN13E30 13E57 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13E58 "uuwFn875HN"                                                  #Idle AM Neutral (FN875N) {2}
FUN 13E58 13E7F :UW :UW #[UW=flo(X/16)] [UW=flo(X/2048)]                #RPM>LBS/MIN {2}
#SYM13E58 "uuwFn.0x13e58"                                               # {3}
#FUN13E58 13EAB :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13ED4 "uuwFn881"                                                    #A/C AM PSI Correction (AC PPM) {2}
FUN 13ED4 13EEF :UW :UW #[UW=flo(X/0.5)] [UW=flo(X/2048)]               #PSI> AM {2}
#SYM13ED4 "uuwFn.0x13ed4"                                               # {3}
#FUN13ED4 13EEF :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13EF0 "uuwFn881ME"                                                  #AC_PPM_TMR Multiplier A/C Non Cycling {7}
FUN 13EF0 13F17 :UW :UW #[UW=flo(X/8)] [UW=flo(X/2048)]                 #Sec>X*AM {7}
SYM 13F18 "uuwFn885"                                                    #A/C Desmaf Adder (AC PPM) {7}
FUN 13F18 13F2F :UW :UW #[UW=flo(X/4)] [UW=flo(X/2048)]                 #RPM>AC_PPM {7}
SYM 13F30 "uuwFn885TE"                                                  #A/C PPM Desmaf Adder {2}
FUN 13F30 13F3F :UW :UW #[UW=flo(X/8)] [UW=flo(X/2048)]                 #AC_TMR>AC_PPM {2}
#SYM13F30 "uuwFn.0x13f30"                                               # {3}
#FUN13F30 13F3F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 13F40 "suwFn887"                                                    #A/C ACT Adder (AC PPM) {2}
FUN 13F40 13F57 :SW :UW #[SW=flo(X/0.5)] [UW=flo(X/2048)]               #ACT>AC_PPM {2}
#SYM13F40 "suwFn.0x13f40"                                               # {3}
#FUN13F40 13F57 :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    #°F> {3}
SYM 13F58 "uuwFn887ME"                                                  #A/C PPM Multiplier Non Cycling FN887 {7}
FUN 13F58 13F7F :UW :UW #[UW=flo(X/8)] [UW=flo(X/2048)]                 #AC_PPM_TMR>xAC_PPM {7}
SYM 13F80 "uuyFn813A_RZA13EE6"                                          # SAME AS RZASA  "uuyFn.0x13ee6" L88756 {7}
FUN 13F80 13F8D :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #INJON> {7}
SYM 13F8E "uuwFn812"                                                    #EAM DesMAF Adder {7}
FUN 13F8E 13FA9 :UW :UW #[UW=flo(X/4)] [UW=flo(X/2048)]                 #RPM>+DESMAF_PPM {7}
SYM 13FAA "uuwFn812T"                                                   #EAM TMR PPM Modifier {7}
FUN 13FAA 13FC1 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/256)]               #IAC_EAM_TMR>*EAM_PPM {7}
SYM 13FC2 "uuwFn822B"                                                   #Electrodrive Fan transient airflow as a function of FANTMR {7}
FUN 13FC2 13FE1 :UW :UW #[UW=flo(X/256)] [UW=flo(X/2048)]               # UNITS: PPM (0-1) X Input: FANTMR  X Input Units: s  XY Pairs: 8 {7}
SYM 13FE2 "uuwFn822"                                                    #P/S PRES AM ADDER (Power Steering) {2}
FUN 13FE2 14001 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/2048)]              #PSTMR>PPM {2}
#SYM13FE2 "uuwFn.0x13fe2"                                               # {3}
#FUN13FE2 14001 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14002 "uuwFn830"                                                    #Dashpot Pre-Position Offset {2}
FUN 14002 14019 :UW :UW #[UW=flo(X/4)] [UW=flo(X/4096)]                 #Delta_RPM>LBS/MIN {2}
#SYM14002 "uuwFn.0x14002"                                               # {3}
#FUN14002 14019 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1401A "uuwFn879"                                                    #Dashpot Decay Rate {2}
FUN 1401A 14035 :UW :UW #[UW=flo(X/4096)] [UW=flo(X/4096)]              #LBS/MIN>LBS/MIN {2}
#SYM1401A "uuwFn.0x1401a"                                               # {3}
#FUN1401A 14035 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14036 "uuwFn882A"                                                   #Dashpot Maximum Allowed {2}
FUN 14036 14051 :UW :UW #[UW=flo(X/4)] [UW=flo(X/4096)]                 #Delta_RPM>AM {2}
#SYM14036 "uuwFn.0x14036"                                               # {3}
#FUN14036 14051 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14052 "uuyFn891"                                                    #DASHPOT Max Clip VSS Multiplier {2}
FUN 14052 1405D :UY :UY #[UY=flo(X/2)] [UY=flo(X/128)]                  #MPH>xDASHPOT {2}
#SYM14052 "uuyFn.0x14052"                                               # {3}
#FUN14052 1405D :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 1405E "uuwFn894"                                                    #Dashpot Min Clip {2}
FUN 1405E 14071 :UW :UW #[UW=flo(X/4)] [UW=flo(X/4096)]                 #N_RATCHET>LBS/MIN {2}
#SYM1405E "uuwFn.0x1405e"                                               # {3}
#FUN1405E 14071 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14072 "uuwFn894H"                                                   #Dashpot Min Clip 4th Gear Decels {2}
FUN 14072 14085 :UW :UW #[UW=flo(X/4)] [UW=flo(X/4096)]                 #N_RATCHET>LBS/MIN {2}
#SYM14072 "uuwFn.0x14072"                                               # {3}
#FUN14072 14085 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14086 "uuwFn894L"                                                   #Dashpot Clip No Decel {2}
FUN 14086 14099 :UW :UW #[UW=flo(X/4)] [UW=flo(X/4096)]                 #N_RATCHET>LBS/MIN {2}
#SYM14086 "uuwFn.0x14086"                                               # {3}
#FUN14086 14099 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1409A "uuyFn441A"                                                   #Effect of LAMBSE on inferred exhaust flange temp {7}
FUN 1409A 140AD :UY :UY #[UY=flo(X/128)] [UY=flo(X/128)]                #X Input:SPK_LAMBSE Units:UNITLESS Units:UNITLESS 0-1.99 Resolution:0.0078 XY Pairs:10 {7}
#SYM1409A "uuyFn.0x1409a"                                               # {3}
#FUN1409A 140AD :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 140AE "uuyFn441B"                                                   #CAT Flange Temp Spark Delta {2}
FUN 140AE 140C1 :UY :UY #[UY=flo(X/4)] [UY=flo(X/128)]                  #SPK_DELTA>X {2}
#SYM140AE "uuyFn.0x140ae"                                               # {3}
#FUN140AE 140C1 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 140C2 "uuyFn441C"                                                   #Effect of EGR on inferred exhaust flange temp {7}
FUN 140C2 140CF :UY :UY #[UY=flo(X/8)] [UY=flo(X/128)]                  #X Input:EGRACT Units:%EGR Units:MULTIPLIER 0-1.99 Resolution:0.0078 XY Pairs: 7 {7}
SYM 140D0 "uuwFn441T"                                                   # CAT EGT AM Modifier ECT {2}
FUN 140D0 140EB :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #AM>X {2}
#SYM140D0 "uuwFn.0x140d0"                                               # {3}
#FUN140D0 140EB :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
#SYM 140DC "uuyFn441D_??startvalue??"                                                   #CAT Temp EGR Multiplier (FN441C) {2}
#FUN 140DC 140E9 :UY :UY #[UY=flo(X/8)] [UY=flo(X/128)]                  #EGRACT>X {2}
SYM 140EC "uuwFn442__A"                                                 #CAT Temp EGT AM Modifier ACT {2}
FUN 140EC 14113 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lbs/min>sec {2}
#SYM140EC "uuwFn.0x140ec"                                               # {3}
#FUN140EC 14113 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14114 "uuwFn443"                                                    #CAT Temp HEGO AM {2}
FUN 14114 1413B :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lbs/min>deg {2}
#SYM14114 "uuwFn.0x14114"                                               # {3}
#FUN14114 1413B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1413C "uuwFn443L"                                                   #CAT Temp Flange vs Hego AM {2}
FUN 1413C 14157 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lbs/min>deg {2}
#SYM1413C "uuwFn.0x1413c"                                               # {3}
#FUN1413C 14157 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14158 "uuwFn445L"                                                   #CAT Temp Flange Midbed AM {2}
FUN 14158 14173 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lbs/min>deg {2}
#SYM14158 "uuwFn.0x14158"                                               # {3}
#FUN14158 14173 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14174 "uuwFn448"                                                    #CAT Temp Drop Exotherms {2}
FUN 14174 1418F :UW :UW #[UW=flo(X/1024)] [UW=flo(X/128)]               #lbs/min>X {2}
#SYM14174 "uuwFn.0x14174"                                               # {3}
#FUN14174 1418F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14190 "uuwFn448A"                                                   #CAT Temp Drop Steady Exhaust {2}
FUN 14190 141B7 :UW :UW #[UW=flo(X/128)] [UW=flo(X/128)]                #SPK_LAMBSE>deg F {2}
#SYM14190 "uuwFn.0x14190"                                               # {3}
#FUN14190 141B7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 141B8 "uuwFn449"                                                    #CAT Temp Drop EXT_EXOT TC {2}
FUN 141B8 141DF :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lbs/min>sec {2}
#SYM141B8 "uuwFn.0x141b8"                                               # {3}
#FUN141B8 141DF :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 141E0 "uuwFn449A"                                                   #CAT Temp AFR TC {2}
FUN 141E0 14207 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lb/min>sec {2}
#SYM141E0 "uuwFn.0x141e0"                                               # {3}
#FUN141E0 14207 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14208 "uuwFn450"                                                    #CAT Temp Drop HEGO TC {2}
FUN 14208 1422F :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lbs/min>sec {2}
#SYM14208 "uuwFn.0x14208"                                               # {3}
#FUN14208 1422F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14230 "uuwFn450L"                                                   #Flange Vs Hego Temp Difference {2}
FUN 14230 1424B :UW :UW #[UW=flo(X/1024)] [UW=flo(X/64)]                #lbs/min>deg F {2}
#SYM14230 "uuwFn.0x14230"                                               # {3}
#FUN14230 1424B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1424C "uuwFnEXOMF"                                                  #CAT Temp Due to Misfire {2}
FUN 1424C 14273 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/128)]               #lbs/min>deg f / %misfire {2}
#SYM1424C "uuwFn.0x1424c"                                               # {3}
#FUN1424C 14273 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14298 "suwFnEXP"                                                    #Exponential function, 'e' raised to the 'x' {7}
FUN 14298 142CB :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:xin_tmp Units:unitless Units:UNITLESS 0-1.99 Resolution: 0.000031 XY Pairs: 11 {7}
SYM 142CC "suwFnEXP_12"                                                 #Exponential function, 'e' raised to the 'x', revised x bin point {7}
FUN 142CC 142FF :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TIME RATIO Units:unitless Units:UNITLESS 0-1.99 Resolution: 0.000031 XY Pairs: 11 {7}

SYM 14300 "xxxFn_14300_???"
FUN 14300 14333 :UW :UW  # ????



SYM 14348 "uuwFn703Q"                                                   #A/C head pressure tranfer function, for use with analogue sensor input {7}
FUN 14348 14357 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:IACPRES_SEN Units:COUNTS Units:PSI 0-510 Resolution: 2 XY Pairs: 4 {7}
SYM 14372 "uuwFn052BF"                                                  #Backflow MAF Correction Upper (Start) (NBKFLOW_L) {7}
FUN 14372 14391 :UW :UW #[UW=flo(X/4)] [UW=flo(X/64)]                   #RPM>TP_REL {7}
SYM 14392 "uswFn052BFLS"                                                #Backflow MAF Correction Lower (Ends) (NBKFLOW_H) {7}
FUN 14392 143B1 :UW :SW #[UW=flo(X/4)] [SW=flo(X/64)]                   #RPM>TP_REL {7}
SYM 143BA "suyFn.0x143ba"                                               # {3}
FUN 143BA 143C5 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 143C6 "suyFn.0x143c6"                                               # {3}
FUN 143C6 143D1 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 143DF "uuyFn321"                                                    #OPEN LOOP ENLEANMENT MULTIPLIER, UNITLESS {7}
FUN 143DF 143EE :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:OL_LEAN_TMRX Units:s Units: UNITLESS 0-1.99 XY Pairs: 8 {7}
SYM 143F2 "uuwFn023A"                                                   #NORMALIZING FUNCTION FOR FN1350B {7}
FUN 143F2 14411 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input:CRKPIPCTR_BW Units:PIPS Units: COL. NUMBER 0-7 Resolution: 0.0039 XY Pairs: 8 {7}
#SYM143F2 "uuwFn.0x143f2"                                               # {3}
#FUN143F2 14411 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 14412 "suwFn024D"                                                   #NORMALIZING FUNCTION FOR FUNCTION FN1350B; USED IN CRANK FUEL FOR PORT INJECTORS {7}
FUN 14412 14431 :SW :UW #[SW=flo(X*2)] [UW=flo(X/256)]                  #X Input:CRKTMP Units:DEG. F Units:ROW NUMBER 0-5 XY Resolution:0.0039 Pairs: 8 {7}
#SYM14412 "suwFn.0x14412"                                               # {3}
#FUN14412 14431 :SW :UW #[SW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 145A6 "uuwFn070U"                                                   #Engine speed normalizing function for knock control {7}
FUN 145A6 145CD :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #X Input:N Units:RPM 0-9 Units: NONE XY Pairs: 10 {7}
SYM 145CE "uuwFn071U"                                                   #Load normalizing function for knock control {7}
FUN 145CE 145ED :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input:LOAD Units:unitless 0-7 Resolution:0.000244 XY Pairs: 8 {7}
SYM 145EE "suyFn033A"                                                   #ACT Scaling KNK Retard {2}
FUN 145EE 145F9 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/16)]                 #ACT>X/Y {2}
#SYM145EE "suyFn.0x145ee"                                               # {3}
#FUN145EE 145F9 :SY :UY #[SY=flo(X*2)] [UY=flo(X/16)]                   #°F>SC {3}
SYM 14618 "uuwFn097B"                                                   #MBT Delta Normalizing {2}
FUN 14618 14627 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #SPK_MBT_DELT>X/Y {2}
#SYM14618 "uuwFn.0x14618"                                               # {3}
#FUN14618 14627 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #> {3}
SYM 14628 "uuwFn.0x14628"                                               # {3}
FUN 14628 1464F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 14650 "uuwFn149"                                                    #Fraction of PIP period during which the knock signal is considered valid {7}
FUN 14650 1466B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:FRACTION 0-0.999985 XY Pairs: 7 {7}
SYM 1466C "uuwFn150"                                                    #Start of valid knock sensing window - Fraction of PIP period {7}
FUN 1466C 14687 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:FRACTION 0-0.999985 XY Pairs: 7 {7}
SYM 14688 "suyFn030A"                                                   #KTS window multiplier based on air charge temperature {7}
FUN 14688 14693 :SY :UY #[SY=flo(X*2)] [UY=flo(x*1)]                    #X Input:ACT Units:degF Units:UNITLESS 0-3.9 Resolution:0.016 XY Pairs: 6 {7}
SYM 14694 "uuyFn143A"                                                   #Retard increment versus RPM, deg {7}
FUN 14694 1469F :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:N Units:RPM Units:DEG 0-31.75 XY Pairs: 6 {7}
SYM 146A0 "uuyFn145A"                                                   #Variable Knock threshold window position {7}
FUN 146A0 146A9 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:N Units: RPM Units:FRAC 0-0.996 Resolution: 0.003906 XY Pairs: 5 {7}
SYM 1474E "suyFn775"                                                    #Knock ACT Threshold Multiplier {7}
FUN 1474E 14759 :SY :UY #[SY=flo(X*2)] [UY=flo(X/128)]                  #ACT>X {7}
SYM 1475A "suyFn776"                                                    #Knock ECT Threshold Multiplier {7}
FUN 1475A 14765 :SY :UY #[SY=flo(X*2)] [UY=flo(X/128)]                  #ECT>X {7}
SYM 14C66 "uuwFn070O"                                                   #RPM Scaling Spark {2}
FUN 14C66 14C79 :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>X/Y {2}
#SYM14C66 "uuwFn.0x14c66"                                               # {3}
#FUN14C66 14C79 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #>SC {3}
SYM 14C7A "uuyFn146D"                                                   #Spark Advance Rate (KNK_ADV) {7}
FUN 14C7A 14C8D :UY :UY #[UY=flo(X/0.03125)] [UY=flo(X/32)]             #RPM>Sec/Deg {7}
SYM 14D42 "uuwFn880N"                                                   #DSDRPM Neutral Time Min Clip (Dashpot) {7}
FUN 14D42 14D5D :UW :UW #[UW=flo(x*1)] [UW=flo(X/2)]                    #ATMR1>DSDRPM_Min {7}
SYM 14D5E "uuwFn700"                                                    #Throttle position multiplier for engine combustion noise spark modifier {7}
FUN 14D5E 14D75 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TP_REL Units:COUNTS Units:UNITLESS 0-1Resolution: 0.01 XY Pairs: 6 {7}
SYM 14D76 "suyFn702"                                                    #Engine coolant temperature multiplier for engine combustion noise spark modifier  {7}
FUN 14D76 14D85 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #X Input:ECT Units:DEG. F Units: UNITLESS 0-1 Resolution: 0.01 XY Pairs: 8 {7}
SYM 14D86 "uuyFn712"                                                    #Proportions the contributions from the base sea level & base altitude spark tables as a fn of alt. {7}
FUN 14D86 14D8F :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:BP Units:IN HG Units: NONE 0-1 Resolution: 0.00781 XY Pairs: 5 {7}
SYM 14F31 "usyFn722"                                                    #BDL Modifier BP {2}
FUN 14F31 14F38 :UY :SY #[UY=flo(X/8)] [SY=flo(X/4)]                    #BP_inhg>SpkAdv {2}
#SYM14F31 "usyFn.0x14f31"                                               # {3}
#FUN14F31 14F38 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #> {3}
SYM 14F39 "usyFn723B"                                                   #BDL Lug Spk Adder {2}
FUN 14F39 14F46 :UY :SY #[UY=flo(X/8)] [SY=flo(X/64)]                   #sec>+SpkAdv {2}
#SYM14F39 "usyFn.0x14f39"                                               # {3}
#FUN14F39 14F46 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #> {3}
SYM 14F47 "ssyFn724A"                                                   #ECT BDL ECT Multiplier (FN2220) {2}
FUN 14F47 14F54 :SY :SY #[SY=flo(X*2)] [SY=flo(X*2)]                    #ECT>xSpkAdv {2}
#SYM14F47 "ssyFn.0x14f47"                                               # {3}
#FUN14F47 14F54 :SY :SY #[SY=flo(x*1)] [SY=flo(x*1)]                    #> {3}
SYM 15136 "uuwFn741"                                                    #Ceiling for spark limiting for Stable Low Load conditions {7}
FUN 15136 15151 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:STB_LOLD_TMR Units:s Units: DEGS. ADV 0-63.75 Resolution: 0.25 XY Pairs: 7 {7}
SYM 151BE "uuwFn012"                                                    #Y Load BDL/MBT Spark (FN012F) {2}
FUN 151BE 151D5 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #Load>Row {2}
#SYM151BE "uuwFn.0x151be"                                               # {3}
#FUN151BE 151D5 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #>SC {3}
SYM 151D6 "uuyFn013"                                                    #Normalized LOAD for half sized spark tables {2}
FUN 151D6 151E1 :UY :UY #[UY=flo(X/128)] [UY=flo(X/16)]                 #X Input:LOAD Units:unitless Units:UNITLESS 0-4 Resolution:0.0625 XY Pairs:6 {7} 
#SYM151D6 "uuyFn.0x151d6"                                               # {3}
#FUN151D6 151E1 :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #>SC {3}
SYM 151E2 "uuyFn013B"                                                   #Load normalizing function for low load spark {3}
FUN 151E2 151ED :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #X Input:LOAD Units:unitless Units:UNITLESS 0-4 Resolution:0.0625 XY Pairs:6 {7}
SYM 151EE "uuyFn013C"                                                   #Normalized LOAD for OSCMOD  FN2020 spark table {7}
FUN 151EE 151F9 :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #X Input:LOAD Units:unitless Units:UNITLESS 0-4 Resolution:0.0625 XY Pairs:6 {7}
SYM 151FA "suyFn014"                                                    #Normalized ECT for spark calculation {7}
FUN 151FA 15207 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/16)]                 #X Input:ECT Units:DEG F Units:UNITLESS 0-5 Resolution:0.0625 XY Pairs:7 {7}
SYM 15208 "suyFn014_ALT"                                                #ECT normalizing function for spark {7}
FUN 15208 15215 :SY :UY #[SY=flo(x*1)] [UY=flo(X/16)]                   #X Input:ECT Units:DEG F Units:UNITLESS 0-5 Resolution:0.0625 XY Pairs:7 {7}
SYM 15216 "uuyFn015"                                                    #Normalized LAMBSE for spark calculation {7}
FUN 15216 15221 :UY :UY #[UY=flo(X/128)] [UY=flo(X/16)]                 #X Input:SPK_LAMBSE Units:unitless Units:UNITLESS 0-4 Resolution: 0.0625 XY Pairs: 6 {7}
SYM 15222 "uuyFn015W"                                                   #Normalized lambse for MFA borderline spark control {7}
FUN 15222 1522F :UY :UY #[UY=flo(X/128)] [UY=flo(X/16)]                 #X Input:SPK_LAMBSE Units:Unitless Units:UNITLESS 0-7 Resolution:0.0625 XY Pairs: 7 {7}
SYM 15230 "uuwFn016"                                                    #X Scaling RPM  (BDL/MBT/FN016D) {2}
FUN 15230 1524B :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>Col {2}
#SYM15230 "uuwFn.0x15230"                                               # {3}
#FUN15230 1524B :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #>SC {3}
SYM 1524C "uuyFn017"                                                    #X Scaling RPM (Spark) {2}
FUN 1524C 15259 :UY :UY #[UY=flo(X*64)] [UY=flo(X/16)]                  #RPM>X_Col {2}
#SYM1524C "uuyFn.0x1524c"                                               # {3}
#FUN1524C 15259 :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #>SC {3}
SYM 1525A "uuyFn017D"                                                   #Engine speed normalizing function for low load spark {7}
FUN 1525A 15267 :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #X Input:N Units:RPM Units:UNITLESS 0-5 Resolution:0.0625 XY Pairs:7 {7}
SYM 15268 "uuyFn018F"                                                   #ATMR3 normalizing function for FN2000B {7}
FUN 15268 15271 :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #X Input:ATMR3 Units:sec Units:UNITLESS 0-5 Resolution:0.0625 XY Pairs: 5
SYM 15272 "suyFn020D"                                                   #Engine coolant temperature normalizing function for low load spark {7}
FUN 15272 1527F :SY :UY #[SY=flo(x*1)] [UY=flo(X/16)]                   #X Input:ECT Units:degF Units:UNITLESS 0-6 Resolution: 0.0625 XY Pairs: 7
SYM 15280 "suyFn024F"                                                   #Y Scaling ACT (FN1142) {7}
FUN 15280 1528B :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/16)]                 #ACT>Row {7}
SYM 1528C "suyFn024G"                                                   #Y Scaling ACT (FN2231 - BDL ACT Retard) {2}
FUN 1528C 15299 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/16)]                 #ACT>Row {2}
#SYM1528C "suyFn.0x1528c"                                               # {3}
#FUN1528C 15299 :SY :UY #[SY=flo(X*2)] [UY=flo(X/16)]                   #°F>SC {3}
SYM 1529A "uuwFn028"                                                    #X Scaling TP_REL {7}
FUN 1529A 152B1 :UW :UW #[UW=flo(X/64)] [UW=flo(X/16)]                  #TP_REL>X_Col {7}
SYM 152B2 "suwFn029"                                                    #Y Scaling Cat Temp {7}
FUN 152B2 152C9 :SW :UW #[SW=flo(X/8)] [UW=flo(X/16)]                   #EXR_CMD>Y_Row {7}
SYM 152CA "uuyFn070X"                                                   #X Scaling RPM - Spk Tbls {7}
FUN 152CA 152D7 :UY :UY #[UY=flo(X*64)] [UY=flo(X/16)]                  #RPM>Col {7}
SYM 152D8 "uuyFn071W"                                                   #Load normalizing function for MFA borderline spark control (SPK_LOAD_TMP) {7}
FUN 152D8 152E5 :UY :UY #[UY=flo(x*1)] [UY=flo(X/4096)]                 #X Input:LOAD Units:Unitless Units:UNITLESS 0-7 Resolution: 0.0625 XY Pairs: 7 {7}
SYM 152E6 "sswFn745B"                                                   #Decel Spk Osc Mod Offset Multiplier {2}
FUN 152E6 15305 :SW :SW #[SW=flo(X/64)] [SW=flo(X/128)]                 #rpm/sec>xMul {2}
#SYM152E6 "sswFn.0x152e6"                                               # {3}
#FUN152E6 15305 :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #> {3}
SYM 15306 "uuyFn746"                                                    #Spark Oscillation Modulation {2}
FUN 15306 15317 :UY :UY #[UY=flo(x*1)] [UY=flo(X/128)]                  #RPM/MPH>xMul {2}
#SYM15306 "uuyFn.0x15306"                                               # {3}
#FUN15306 15317 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 15336 "uswFn704A"                                                   #Max Tip-In Spark Allowed (87 Octane) (FN2290) {2}
FUN 15336 15355 :UW :SW #[UW=flo(X/4)] [SW=flo(X/2)]                    #RPM>SpkAdv {2}
#SYM15336 "uswFn.0x15336"                                               # {3}
#FUN15336 15355 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #> {3}
SYM 1537A "ssyFn705"                                                    #Tip-In Retard Initial {2}
FUN 1537A 15387 :SY :SY #[SY=flo(X/0.5)] [SY=flo(X/4)]                  #ACT>Deg {2}
#SYM1537A "ssyFn.0x1537a"                                               # {3}
#FUN1537A 15387 :SY :SY #[SY=flo(X*2)] [SY=flo(x*1)]                    #°F> {3}
SYM 15388 "usyFn730A"                                                   #MBT Lambse Modifier (FN730) {2}
FUN 15388 15395 :UY :SY #[UY=flo(X/128)] [SY=flo(X/4)]                  #Lambse>SpkAdv {2}
#SYM15388 "usyFn.0x15388"                                               # {3}
#FUN15388 15395 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #> {3}
SYM 15396 "uuyFn731"                                                    #MBT EGR Modifier {2}
FUN 15396 1539F :UY :UY #[UY=flo(X/128)] [UY=flo(X/32)]                 #Load>SpkAdv {2}
#SYM15396 "uuyFn.0x15396"                                               # {3}
#FUN15396 1539F :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #> {3}
SYM 15421 "uuyFn766"                                                    #MBT TQ Ratio {7}
FUN 15421 15432 :UY :UY #[UY=flo(X/4)] [UY=flo(X/128)]                  #MBT_Delta>TQ_Ratio {7}
SYM 15433 "uuyFn767"                                                    #Calculates the torque ratio at which an engine is operating from the spark delta from MBT. Used in the Idle Feedback Spark {7}
FUN 15433 15444 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:Retard from MBT Units:DEG Units: UNITLESS 0-1 Resolution: 0.0078 XY Pairs: 9 {7}
SYM 15446 "uswFn797"                                                    #MBT TQ Ratio Retard Transfer {2}
FUN 15446 15469 :UW :SW #[UW=flo(X/32768)] [SW=flo(X/128)]              #TIP_TR>SpkAdv {2}
#SYM15446 "uswFn.0x15446"                                               # {3}
#FUN15446 15469 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #> {3}
SYM 1546A "uswFn799"                                                    #TQ Ratio TQ Retard (Idle FBS) {7}
FUN 1546A 1548D :UW :SW #[UW=flo(X/32768)] [SW=flo(X/128)]              #TIP_TR>-SpkAdv {7}
SYM 1548E "suwFn701"                                                    #Spark multiplier when engine is in failsafe cooling mode  {7}
FUN 1548E 154AD :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    #X Input:CHT Units:DEGREES F Units: NONE 0-8 Resolution: 0.10 XY Pairs: 8 {7}
SYM 154CC "uuyFn727"                                                    #Multiplier which corrects for the non linear effect of % methanol on borderline detonation.  {7}
FUN 154CC 154D5 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:PM Units:% METHANOL Units: NONE 0-1 Resolution: 0.0078 XY Pairs: 5 {7}
SYM 154D6 "usyFn740"                                                    #Pre-ignition spark adder based on lambse. {3}
FUN 154D6 154E3 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:SPK_LAMBSE Units:Unitless Units:Degrees -32-31.75 Resolution:0.25 XY Pairs:7 {7}
SYM 154E4 "usyFn751"                                                    #Pre-ignition spark adder based on percent methanol {3}
FUN 154E4 154F1 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:PM Units:Unitless Units:Degrees -32-31.75 Resolution:0.25 XY Pairs:7 {7}
SYM 1552E "uuyFn011"                                                    #Normalized rpm for half-sized spark tables.  Intended to be used in upper rpm range. {7}
FUN 1552E 1553B :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #X Input:N Units:unitless Units:UNITLESS 0-5 Resolution:0.0625 XY Pairs:7 {7}
SYM 15728 "uuwFn125"                                                    #LOM Load function, used to activate LOM spark strategy, RPM {7}
FUN 15728 1573B :UW :UW #[UW=flo(X/4)] [UW=flo(X/32768)]                #X Input:N Units:RPM* Units:NORMD 0-1.9999 Resolution:0.000031 XY Pairs:5 {7}
SYM 1573C "uuyFn129A"                                                   #Multiplier to FN309 to compensate for altitude {7}
FUN 1573C 15747 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:BP Units:PSI Units: ENUMERATED 0-1.99 Resolution: 0.0078 XY Pairs: 6 {7}
SYM 1583C "uuyFn212A"                                                   #Multiplier to FN308 to compensate for altitude {7}
FUN 1583C 15845 :UY :UY #[UY=flo(X/8)] [UY=flo(X/128)]                  #X Input:BP Units:INHG Units:UNITLESS0-1.99 Resolution: 0.0078 XY Pairs: 5{7}
SYM 15846 "suyFn211"                                                    #EGR Multiplier as a function of ECT {7}
FUN 15846 15851 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #X Input: ECT Units: DEGF Units: UNITLESS 0-0.99 XY Pairs: 6 {7}
SYM 15852 "uuyFn_EGR_WOT"                                               #Function to control desired EGR rate based on amount of time at WOT {7}
FUN 15852 15865 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input: EGR_WOT_TMRX Units: s Units: UNITLESS 0-2.4 XY Pairs: 10 {7}
SYM 15866 "uuyFn217A"                                                   #EGRALT multiplier as a function of Barometric Pressure BP {7}
FUN 15866 15871 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input: BP Units: INHG Units: UNITLESS 0-1.99 XY Pairs: 6 {7}
SYM 15872 "suyFn220"                                                    #EGR Multiplier as a function of Air Charge Temperature, ACT {7}
FUN 15872 15881 :SY :UY #[SY=flo(X*2)] [UY=flo(x*1)]                    #X Input: ACT Units: DEGF Units: UNITLESS 0-1.992 XY Pairs: 5 {7}
SYM 15882 "suwFn220A"                                                   #EGR Multiplier as a function of Inferred Ambient Temperature {7}
FUN 15882 15895 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input: INFAMB_KAM Units: DEGF Units: UNITLESS 0-1.9999 XY Pairs: 5 {7}
SYM 15986 "uuyFn004"                                                    #BP correction for exhaust backpressure calculation, 'Hg  SAME AS RZASA "uuyFn.0x15872" L838BB {7}
FUN 15986 1598F :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:BP Units:INHG Units:INHG 0-31.875 Resolution: 0.125 XY Pairs: 5 {7}
SYM 15990 "uuwFn074B"                                                   #Upstream pressure as a function of AM {7}
FUN 15990 159B7 :UW :UW #[UW=flo(X/1024)] [UW=flo(X/128)]               # X Input:AM Units:LB/MIN Units:IN H2O 0-255.992203 Resolution: 0.00781 XY Pairs: 10 {7}
SYM 159B8 "uuwFn246A"                                                   #EGR mass flow as a function of DELPR {7}
FUN 159B8 159E7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: DELPR Units: IN H2O Units: LB/MIN 0-1.9999 Resolution: 0.00003 XY Pairs: 12 {7}
SYM 159E8 "uuwFn247A"                                                   #Desired pressure drop as a function of desired flow {7}
FUN 159E8 15A17 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: DESEM Units: LB/MIN Units: IN H2O 0-255.996094 Resolution: 0.00391 XY Pairs: 12 {3}
SYM 15A18 "uuwFn248C"                                                   #Max desired EGR flow rate vs percent load {7}
FUN 15A18 15A2F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: PCT_LOAD Units: % Units: -- 0-31.875 Resolution: 0.125 XY Pairs: 6 {7}
SYM 15A30 "suyFn230A"                                                   #Time since start to enable EGR - extended range {7}
FUN 15A30 15A3F :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #X Input: TCSTRT Units: DEGF Seconds 0-2048 Resolution: 8.0 XY Pairs: 8 {7}

SYM 15A40 "xxxFn_15A40"
FUN 15A40 15A57 :UY :UY


SYM 15A58 "uuwFn054D"                                                   #Upstream EGO switch point  {7}
FUN 15A58 15A6F :UW :UW #[UW=flo(x*1)] [UW=flo(X/1024)]                 #X Input:FUL_STOIC_AF Units:UNITLESS Units:UNITLESS 0-1 Resolution: 0.001 XY Pairs: 6 {7}
SYM 15A70 "uuwFn513"                                                    #WOT Threshold TPREL (OL Threshold TPREL) {2}
FUN 15A70 15A87 :UW :UW #[UW=flo(X/4)] [UW=flo(X/64)]                   #RPM>TP_REL {2}
#SYM15A70 "uuwFn.0x15a70"                                               # {3}
#FUN15A70 15A87 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 15A88 "uuwFn821"                                                    #Max VBAT DSDRPM Drive (Neutral too) {7}
FUN 15A88 15A9B :UW :UW #[UW=flo(x*1)] [UW=flo(X/2)]                    #VOLTMR>DSDRPM {7}
SYM 15A9C "uuwFn818"                                                    #PCV Leak AM (ITHBMA) {2}
FUN 15A9C 15AB3 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/4096)]             #Perload_ISC>ppm {2}
#SYM15A9C "uuwFn.0x15a9c"                                               # {3}
#FUN15A9C 15AB3 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 15AB4 "uuwFn819"                                                    #AM Leak MAF / Perload (Unmetered ISC Flow) {2}
FUN 15AB4 15ACB :UW :UW #[UW=flo(X/32768)] [UW=flo(X/4096)]             #PERLOAD_ISC>PPM {2}
#SYM15AB4 "uuwFn.0x15ab4"                                               # {3}
#FUN15AB4 15ACB :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 15ACC "uuwFn068"                                                    #ENGINE SPEED NORMALIZING FUNCTION FOR FN6000 {7}
FUN 15ACC 15AEB :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input:N Units:RPM Units:COL. NUMBER 0-7 Resolution:0.0039 XY Pairs: 8 {7}
SYM 15AEC "uuwFn069B"                                                   #Percent load normalizing function for FN6000A {7}
FUN 15AEC 15B0B :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input:PCT_LOAD Units:UNITLESS Units:ROW NUMBER 0-7 Resolution:0.0039 XY Pairs: 8 {7}
SYM 15B0C "uuwFn630"                                                    #PURGE RAMP RATE; PG_RAMP1 SAME AS RZASA "uuwFn.0x156c4" L8E536 {7}
FUN 15B0C 15B27 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:AM Units:LBM Units:UNITLESS 0-0.99 Resolution: 0.000015 XY Pairs: 7 {7}
SYM 15B28 "uuwFn631"                                                    #PURGE RAMP RATE, PG_RAMP2 SAME AS RZASA "uuwFn.0x15670" L8E55E {7}
FUN 15B28 15B43 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:AM Units:LBM Units:UNITLESS 0-0.99 Resolution: 0.000015 XY Pairs: 7 {7}
SYM 15B44 "uuwFn666"                                                    #PURGE DUTY CYCLE DURING OPEN LOOP, PART THROTTLE SAME AS RZASA "uuwFn.0x155b8" L8E668 {7}
FUN 15B44 15B63 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:AM Units:PPM Units: DUTY CYCLE 0-1 Resolution: 0.000030 XY Pairs: 8 {7}
SYM 15B64 "uuwFn667"                                                    #PURGE DUTY CYCLE DURING OPEN LOOP, WIDE OPEN THROTTLE {7}
FUN 15B64 15B83 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:AM Units:PPM Units: DUTY CYCLE 0-1  Resolution: 0.000030 XY Pairs: 8 {7}
SYM 15B84 "uuwFnFN_LAMT1"                                               #PC_SCALE_FN value when LAMBSE's direction is toward 1.0 SAME AS RZASA "uuwFn.0x156fc" L8E10D {7}
FUN 15B84 15B9F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:LAMBSE1 Units:UNITLESS Units: UNITLESS 0-0.2499 Resolution: 0.000015 XY Pairs: 7 {7}
SYM 15BA0 "uuwFnFN_LAMA1"                                               #PC_SCALE_FN value when LAMBSE's direction is away from 1.0 SAME AS RZASA "uuwFn.0x156fc" L8E10D {7}
FUN 15BA0 15BBB :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:LAMBSE1 Units:UNITLESS Units: UNITLESS 0-0.2499 Resolution: 0.000015 XY Pairs: 7 {7}
SYM 15BBC "suwFn_PG_TNK_ML"                                             #PG_RAMPn multiplier to compensate for fuel tank pressures SAME AS RZASA "suwFn.0x15774" L8E4F9 {7}
FUN 15BBC 15BD7 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:PGM_TANK_PRS Units:IN. WATER Units:UNITLESS 0-1 Resolution: 0.000031 XY Pairs: 7 {7}
SYM 15BD8 "uuwFnPG_PC_L_0"                                              #Maximim value of percent PCOMP above which purge increase is not allowed during accels/cruise {7}
FUN 15BD8 15BF7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:AM Units:lbm/min Units:-- 0-0.999985 Resolution:0.000015 XY Pairs: 8 {7}
SYM 15BF8 "uuwFnPG_PC_H_0"                                              #Maximim value of percent PCOMP above which purge is decreased during accels/cruise. {7}
FUN 15BF8 15C17 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:AM Units:lbm/min Units:-- 0-0.999985 Resolution:0.000015 XY Pairs: 8 {7}
SYM 15C58 "uuyFn600"                                                    #Canister Purge Duty Cycle Multiplier X-input = PRGTMR Y-output = Duty Cycle Multiplier {7}
FUN 15C58 15C63 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input: PRGTMR Units: S UNITLESS 0-1 XY Pairs: 6 {7}
SYM 15C64 "uuyFn602"                                                    #Canister Purge Duty Cycle Multiplier X-input = CPRGTMR Y-output = Duty Cycle Multiplier {7}
FUN 15C64 15C6F :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input: CPRGTMR Units: S UNITLESS 0-1 XY Pairs: 6{7}
SYM 15C70 "suwFn603"                                                    #MAXIMUM LAMBSE ALLOWED BEFORE PURGE DUTY CYCLE IS DECREMENTED {7}
FUN 15C70 15C87 :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    # X Input: ACT Units: DEG F UNITLESS 0-1.99 XY Pairs: 6 {7}
SYM 15C88 "uuwFn605A"                                                   #Canister Purge Duty Cycle vs. AM X-input = AM Y-output = Purge Duty Cycle {7}
FUN 15C88 15C9F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:AM Units: PPM  DUTY CYCLE 0-1 XY Pairs: 6 {7}
SYM 15CA0 "uuwFn627"                                                    #PURGE DUTY CYCLE MODIFIER AS A FUNCTION OF PRGIDLE_TMR {7}
FUN 15CA0 15CB7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: PRGIDLE_TMR X Units: S UNITLESS 0-1 XY Pairs: 6 {7}
SYM 15CB8 "uuwFnPGM_DEC"                                                #Rate at which purge duty cycle is ramped off for the Purge Monitor {7}
FUN 15CB8 15CD7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: AM Units: lbm/min UNITLESS 0-1.99 XY Pairs: 8 {7}
SYM 15CD8 "uuwFnPRG_DEC"                                                #Rate at which purge duty cycle is ramped off {7}
FUN 15CD8 15CF7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: AM Units: lbm/min UNITLESS 0-1.99 XY Pairs: 8  {7}
SYM 15CF8 "uuwFnPRG_INC"                                                #Rate at which purge duty cycle is ramped on {7}
FUN 15CF8 15D17 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: AM Units: lbm/min UNITLESS 0-1.99 XY Pairs: 8  {7}
SYM 15E6A "sswFn690B"                                                   #TOT threshold above which PWM functionality test is enabled, deg F SAME AS RZASA "sswFn.0x16946" L8C278 {7}
FUN 15E6A 15E81 :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #X Input: INIT_TOT Units: DEF F -4096-4095 XY Pairs: 6 {7}
SYM 15FEE "usyFn12P"                                                    #Vehicle speed adjustment for 2-1 downshift in performance mode {7}
FUN 15FEE 16001 :UY :SY #[UY=flo(X/0.25)] [SY=flo(X/2)]                 #X Input:TP_REL_H Units:ADCT Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 16002 "uuyFn21P"                                                    #Vehicle speed adjustment for 2-1 downshift in performance mode {7}
FUN 16002 16015 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_REL_H Units:ADCT Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 16016 "uuyFn23P"                                                    #Vehicle speed adjustment for 2-3 upshift in performance mode {7}
FUN 16016 16029 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_REL_H Units:ADCT Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 1602A "uuyFn43P"                                                    #Vehicle speed adjustment for 4-3 downshift in performance mode {7}
FUN 1602A 1603D :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_REL_H Units:ADCT Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 1603E "uuyFn34P"                                                    #Vehicle speed adjustment for 3-4 upshift in performance mode {7}
FUN 1603E 16051 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_REL_H Units:ADCT Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 16052 "uuyFn32P"                                                    #Vehicle speed adjustment for 3-2 upshift in performance mode {7}
FUN 16052 16065 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_REL_H Units:ADCT Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 16066 "usyFn12COMP"                                                 #Vehicle speed adjustment for 1-2 upshift due to altitude or engine outupt torque loss  {7}
FUN 16066 16079 :UY :SY #[UY=flo(X/0.25)] [SY=flo(X/2)]                 #X Input:TP_REL_H Units:COUNTS Units:MPH -64-63.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 1607A "uuyFn12SS"                                                   #SHIFT SCHEDULE FOR TRANSMISSIONS WITH SYNTHESIZED THROTTLE {7}
FUN 1607A 1608D :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_SS Units:ADct Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 1608E "usyFn23COMP"                                                 #Vehicle speed adjustment for 2-3 upshift due to altitude or engine output torque loss  {7}
FUN 1608E 160A1 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:MPH -64-63.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 160A2 "uuyFn23SS"                                                   #2-3 UPSHIFT CURVE FOR VEHICLES WITH SYNTHESIZED THROTTLE {7}
FUN 160A2 160B5 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_SS Units:ADct Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 160B6 "usyFn34COMP"                                                 #Vehicle speed adjustment for 3-4 upshift due to altitude or engine output torque loss  {7}
FUN 160B6 160C9 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:MPH -64-63.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 160CA "uuyFn34SS"                                                   #3-4 UPSHIFT CURVE FOR VEHICLES WITH SYNTHESIZED THROTTLE {7}
FUN 160CA 160DD :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_SS Units:ADct Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 160DE "usyFn21COMP"                                                 #Vehicle speed adjustment for 2-1 downshift due to altitude or engine output torque loss  {7}
FUN 160DE 160F1 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:MPH -64-63.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 160F2 "uuyFn21SS"                                                   #2-1 DOWNSHIFT CURVE FOR VEHICLES WITH SYNTHESIZED THROTTLE {7}
FUN 160F2 16105 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_SS Units:ADct Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 16106 "usyFn43COMP"                                                 #Vhiecle speed adjustment for 4-3 downshift due to altitude or engine output torque loss  {7}
FUN 16106 16119 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:MPH -64-63.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 1611A "uuyFn43SS"                                                   #4-3 DOWNSHIFT CURVE FOR VEHICLES WITH SYNTHESIZED THROTTLE {7}
FUN 1611A 1612D :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_SS Units:ADct Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 1612E "usyFn32COMP"                                                 #Vehicle speed adjustment for a 3-2 downshift due to altitude or engine output torque loss  {7}
FUN 1612E 16141 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:MPH -64-63.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 16142 "uuyFn32SS"                                                   #3-2 DOWNSHIFT CURVE FOR VEHICLES WITH SYNTHESIZED THROTTLE {7}
FUN 16142 16155 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_SS Units:ADct Units:MPH 0-127.5 Resolution: 0.5 XY Pairs: 10 {7}
SYM 16156 "uuwFn689D"                                                   #Engine speed for downshifts during VSS failure #SAME AS RZASA "uuwFn.0x15f2a" L098D5 {7}
FUN 16156 16169 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #TP_REL> {7}
SYM 1616A "uuwFn689U"                                                   #VSS Fault Upshift RPM FMEM (FN689V) {7}
FUN 1616A 16185 :UW :UW #[UW=flo(X/64)] [UW=flo(X/4)]                   #X Input: TP_REL Units: ADCT Units: RPM 0-16383 XY Pairs: 5 {7}
SYM 1618A "sswFn690"                                                    #TOT Cold Shift Schedule (CS_MAX_TIME) {7}
FUN 1618A 161A1 :SW :SW #[SW=flo(X/8)] [SW=flo(X/8)]                    #INIT_TOT>TOT {7}
SYM 161A2 "uswFn23PPH"                                                  #Minimum VS_RATEPH to allow 2-3 UPSHIFT SAME AS RZASA "uswFn.0x15c4c" L09614 {7}
FUN 161A2 161D1 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #X Input: TP_REL Units: COUNTS Units: MPH/SEC -20-20 XY Pairs: 12 {7}
SYM 161D2 "uswFn34PPH"                                                  #Minimum VS_RATEPH to allow 3-4 UPSHIFT {7}
FUN 161D2 16201 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #X Input: TP_REL Units: COUNTS Units: MPH/SEC -20-20 XY Pairs: 12 {7}
SYM 16208 "uuwFn067D"                                                   #Y Scaling TPREL (FN1619A) {7}
FUN 16208 16233 :UW :UW #[UW=flo(X/64)] [UW=flo(X/16)]                  #TP_REL>Y_Row {7}
SYM 16234 "uuwFn070P"                                                   #X Scaling NEBART (FN1619A) {7}
FUN 16234 1625F :UW :UW #[UW=flo(X/4)] [UW=flo(X/16)]                   #RPM>X_Col {7}
SYM 16260 "usyFn615TQ"                                                  #Engine TQ Cold Shifting {7}
FUN 16260 1626B :UY :SY #[UY=flo(X/128)] [SY=flo(X/64)]                 #TQ_Norm>TQ_INTRP {7}
SYM 162D0 "uuwFnPWFX"                                                   #X Scaling TP_REL (FNPWFP) {7}
FUN 162D0 162EB :UW :UW #[UW=flo(X/64)] [UW=flo(X/256)]                 #TP_REL>Col {7}
SYM 162EC "suwFnPWFY"                                                   #Y Scaling TPRATE_PWF (FNPWFE / FNPWFP) {7}
FUN 162EC 16307 :SW :UW #[SW=flo(X/32)] [UW=flo(X/256)]                 #TPRATE_PWF>Row {7}
SYM 1632A "suwFnTQUPWD"                                                 #WATCHDOG TIME FOR TQ_MOD ON UPSHIFTS (Not_Modifiable) {7}
FUN 1632A 16341 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input: TOT Units: degF Secs 0-64 XY Pairs: 6 {7}
SYM 16342 "suwFnTQDNWD"                                                 #WATCHDOG TIME FOR TQ_MOD ON UPSHIFTS (Not_Modifiable) {7}
FUN 16342 16359 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input: TOT Units: degF Secs 0-64 XY Pairs: 6 {7}
SYM 1635A "uuwFnTQIAN"                                                  #Normalizing NEBART - TQ_MOD {7}
FUN 1635A 16371 :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #NEBART> {7}
SYM 16372 "uuwFnTQNN"                                                   #TQ_NET NORMALIZING FUNCTION FOR TQ_MOD (Not_Modifiable) {7}
FUN 16372 16389 :UW :UW #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input: TQ_NET Units: lbf*ft X 0-6 XY Pairs: 6 {7}

SYM 1638A "uuwFnTQTPN"                                                  #Y Scaling TP_REL TQ Modulation {7}
FUN 1638A 163A1 :UW :UW #[UW=flo(X/64)] [UW=flo(X/256)]                 #TP_REL>Y_Row {7}

SYM 16576 "uuwFn_16576"                                                 # {7}
FUN 16576 1658D  :UW :UW

SYM 1658E "uuwFn_1658E"                                                 # {7}
FUN 1658E 165A5  :UW :UW

SYM 165A6 "uuwFn_165A6"                                                 # {7}
FUN 165A6 165BD  :UW :UW

SYM 165BE "uuwFn_165BE"                                                 # {7}
FUN 165BE 165D5  :UW :UW

SYM 165D6 "uuwFn_165D6"                                                 # {7}
FUN 165D6 165ED  :UW :UW

SYM 165EE "uuwFn_165EE"                                                 # {7}
FUN 165EE 16605  :UW :UW

SYM 16606 "uuyFn615"                                                    #Interpolation factor vs. barometric  pressure. Output is saved as BP_INTR # SAME AS RZASA "uuyFn.0x15959" L097E2 {7}
FUN 16606 16611 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input: BP Units: INHG 0-1.99 XY Pairs: 6 {7}

SYM 16612 "suwFn_16612"                                               # {7}
FUN 16612 16629  :SW :UW

SYM 1664E "suwFnDCHOFF_??"                                               # {7}
FUN 1664E 1666D :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}

SYM 1666E "suwFnDCHSLP_??"                                               # {7}
FUN 1666E 1668D :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}

SYM 1668E "suwFnDCLOFF_??"                                               # {7}
FUN 1668E 166AD :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}


SYM 166AE "suwFnDCLSLP_??"                                               # {7}
FUN 166AE 166CD :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}

SYM 166CE "uuwFn_166CE"                                                  # {7}
FUN 166CE 166E5 : UW X 10 : UW X 10

SYM 166E6 "**wFnUPSSFT23"                                                   # {7}
FUN 166E6 166FD  : UW X 10 : UW X 10

#SYM 166EE "**wFnUPSSFT23"                                               #BCSDC modulation on 2-3 shifts {7}
#FUN 166EE 166FD  : Y : W                                                #X Input:DELTA_RATIO Units:UNITLESS Units:UNITLESS 0-1.99 Resolution: 0.0156 XY Pairs: 6 {7}

SYM 166FE "uuwFn_166FE"                                                    # {7}
FUN 166FE 16715 :UW :UW

SYM 16716 "uuwFn_16716"                                                    # {7}
FUN 16716 1672D :UW :UW

SYM 1672E "usyFn21_HOT"                                                 #2-1 downshift adder when trasmission is overtemperature {7}
FUN 1672E 16741 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:MPH -64-63.5 Resolution: 0.5 XY Pairs: 10 {7}



SYM 16742 "uuwFn_16742"                                                  # {7}
FUN 16742 1675D :UW :UW

SYM 1675E "uuwFn_1675E"                                                  # {7}
FUN 1675E 16779 :UW :UW

SYM 1677A "uuwFn_1677A"                                                  # {7}
FUN 1677A 16795 :UW :UW

SYM 16796 "uuyFn_16796"                                                  # {7}
FUN 16796 167A5 :UY :UY

SYM 167A6 "uuyFn_167A6"                                                  # {7}
FUN 167A6 167B5 :UY :UY

SYM 167B6 "uuyFn_167B6"                                                  # {7}
FUN 167B6 167C5 :UY :UY

SYM 167C6 "uuyFnCPTRS"                                                  #FUNCTION TO DECODE DIGITAL TRS BIT PATTERNS #SAME AS RZASA "uuyFn.0x15a60" L89D04 {7}
FUN 167C6 167E7 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TRS_INPUT Units: Unitless 0-127.5 Resolution: 1.0 XY Pairs: 16 {7}
SYM 167E8 "uuwFn617"                                                    #Torque converter torque ratio {7}
FUN 167E8 16817 :UW :UW #[UW=flo(X/16384)] [UW=flo(X/16384)]            #X Input:SPD_RATIO Units:UNITLESS Units: UNITLESS 0-3.99 Resolution: 0.000061 XY Pairs: 12 {7}
SYM 1681E "suwFnTOTDLY"                                                 #Transmission temperature compensation for the hardware delay times, scalar multiplier.  {7}
FUN 1681E 16839 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEGF Units:UNITLESS 0-10 Resolution: 0.10 XY Pairs: 8 {7}
SYM 1683A "uuyFn620"                                                    #TV VFS transfer function {7}
FUN 1683A 16851 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TV_PRES_BARX Units:PSI Units: DACT 0-255 Resolution: 1.0 XY Pairs: 12 {7}
SYM 16852 "sswFn622"                                                    #NAME: TEMPERATURE DEPENDENT VFS TRANSFER FUNCTION MODIFIER PURPOSE: COMPENSATES TV_PRES FOR TOT {7}
FUN 16852 16881 :SW :SW #[SW=flo(x*1)] [SW=flo(x*1)]                    #X Input:TOT Units:DEGF Units: DACT -128-127 XY Pairs: 12 {7}
SYM 16882 "suwFn622A"                                                   #TV_PRES multiplier for TOT  {7}
FUN 16882 168A1 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEGREES Units: NONE 0-1.99 Resolution: 0.010 XY Pairs: 8 {7}
SYM 168E2 "uuwFn689L"                                                   #Engine speed to lock converter when TP sensor is still available, for FMEM SAME AS RZASA "uuwFn.0x16990" L8C6E7 {7}
FUN 168E2 168F5 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: TP_REL Units: COUNTS RPM 0-16383.75 XY Pairs: 5 {7}
SYM 168F6 "uuwFnFL_NRM_X"                                               #Normalized rpm function for the exhaust temp model {7}
FUN 168F6 16911 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input:N Units:RPM Units: NORMALISED 0-5 Resolution: 0.0039 XY Pairs: 7 {7}
SYM 16912 "uuwFnFL_NRM_Y"                                               #Load normalizing function for the exhaust temp model {7}
FUN 16912 1692D :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input:LOAD Units:X Units: NORMALISED 0-5 Resolution: 0.0039 XY Pairs: 7 {7}
SYM 1692E "uuwFn.0x1692e"                                               # {3}
FUN 1692E 16945 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 16A33 "uuyFn2US"                                                    #TCC Unlock 2nd {7}
FUN 16A33 16A46 :UY :UY #[UY=flo(X/0.25)] [UY=flo(X/2)]  13               #TP_REL>MPH {7}
SYM 16A83 "uuyFn2UH"                                                    #TCC Unlock 2nd Overtemp {7}
FUN 16A83 16A96 :UY :UY #[UY=flo(X*4)] [UY=flo(X/2)]     13               #TP_REL>MPH {7}
SYM 16ABF "uuyFn2LS"                                                    #TCC Lock 2nd {7}
FUN 16ABF 16AD2 :UY :UY #[UY=flo(X/0.25)] [UY=flo(X/2)]  13               #TP_REL>MPH {7}
SYM 16B0F "uuyFn.0x1727B"                                               # SAME AS RZASA "uuyFn.0x1727B" L08FE3 {7}
FUN 16B0F 16B22 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]     13               #> {7}
SYM 16B4B "uuyFn_SRLK"                                                  #SPEED RATIO AS A FUNC OF NET TORQUE OUTPUT {7}
FUN 16B4B 16B5A :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input: TQ_NET Units: FT-LBS Units: NONE 0-2 XY Pairs: 8 {7}
SYM 16B5B "usyFn2UPWF"                                                  #TCC Unlock 2nd Performance {7}
FUN 16B5B 16B6E :UY :SY #[UY=flo(X*4)] [SY=flo(X/2)]     13               #TP_REL>MPH {7}
SYM 16B97 "usyFn2LPWF"                                                  #TCC Lock 2nd Performance {7}
FUN 16B97 16BAA :UY :SY #[UY=flo(X/0.25)] [SY=flo(X/2)]  13               #TP_REL>psi {7}
SYM 16BD3 "usyFn2UCOMP"                                                 #TCC Unlock 2nd Delta MPH TQ Loss {7}
FUN 16BD3 16BE6 :UY :SY #[UY=flo(X*4)] [SY=flo(X/2)]     13               #>MPH {7}
SYM 16C0F "usyFn2LCOMP"                                                 #TCC Lock 2nd TQ Loss (Altitude) {7}
FUN 16C0F 16C22 :UY :SY #[UY=flo(X/0.25)] [SY=flo(X/2)]  13               #TP_REL>MPH {7}
SYM 16CB2 "uuwFn067"                                                    #Y Scaling TP_REL - FN2SSLP/FN3SSLP/FN4SSLP {7}
FUN 16CB2 16CD1 :UW :UW #[UW=flo(X/64)] [UW=flo(X/256)]                 #TP_REL>Row {7}
SYM 16D76 "uswFnCHT1R"                                                  #CHT Thermister Single Transfer Cold (4 Cyl) {7}
FUN 16D76 16DAD :UW :SW #[UW=flo(X/64)] [SW=flo(X/0.5)]                 #ADCnts>F Temp {7}
SYM 16F6C "uuyFn616F"                                                   #STALL EPC FOR FORWARD {7}
FUN 16F6C 16F7B :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:PSI 0-127.5 Resolution: 0.50 8 XY Pairs: 8{7}
SYM 16F7C "uuyFn616R"                                                   #STALL EPC FOR REVERSE {7}
FUN 16F7C 16F8B :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TP_REL_H Units:COUNTS Units:PSI 0-127.5 Resolution: 0.50 8 XY Pairs: 8{7}
SYM 16F8C "uuwFn034A"                                                   #Scaling LOAD (TQ_NET, FNCYL_OFF__A) {7}
FUN 16F8C 16FA7 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #LOAD>Axis {7}
SYM 16FA8 "uuwFn070C"                                                   #X Scaling RPM - (TQ_NET, FNCYL_OFF__A) {7}
FUN 16FA8 16FC3 :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>X_Col {7}
SYM 16FC4 "suwFn46B_T"                                                  # {7}
FUN 16FC4 16FDF :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #TOT> {7}
SYM 16FE0 "suwFn54B_T"                                                  # {7}
FUN 16FE0 16FFB :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #TOT> {7}
SYM 16FFC "suwFn56B_T"                                                  # {7}
FUN 16FFC 17017 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #TOT> {7}
SYM 17018 "suwFn64B_T"                                                  # {7}
FUN 17018 17033 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #TOT> {7}
SYM 17034 "suwFn46S_N"                                                  # {7}
FUN 17034 1704F :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 17050 "suwFn54S_N"                                                  # {7}
FUN 17050 1706B :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 1706C "suwFn56S_N"                                                  # {7}
FUN 1706C 17087 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 17088 "suwFn64S_N"                                                  # {7}
FUN 17088 170A3 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 170A4 "suwFn46F_N"                                                  # {7}
FUN 170A4 170BF :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 170C0 "suwFn54F_N"                                                  # {7}
FUN 170C0 170DB :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 170DC "suwFnFN56F_N"                                                # {7}
FUN 170DC 170F7 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 170F8 "suwFnFN64F_N"                                                # {7}
FUN 170F8 17113 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #NEBART> {7}
SYM 17114 "uuwFn46S_T"                                                  #Engagement EPC at finish of engagement ramp for a forward to reverse engagement; function of TOT, ps {7}
FUN 17114 1712F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 17130 "uuwFn54S_T"                                                  #Engagement EPC at start of engagement ramp for a neutral to forward engagment;function of TOT  {7}
FUN 17130 1714B :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 1714C "uuwFn56S_T"                                                  #Engagment EPC at start of engagment ramp for a neutral to reverse engagment;function of TOT  {7}
FUN 1714C 17167 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 17168 "uuwFn64S_T"                                                  #Engagment EPC at start of engagement ramp for a reverse to forward engagement;function of TOT  {7}
FUN 17168 17183 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 17184 "uuwFn46F_T"                                                  #Engagement EPC at finish of engagement ramp for a forward to reverse engagement;function of TOT {7}
FUN 17184 1719F :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 171A0 "uuwFn54F_T"                                                  #Engagement EPC at finish of engagement ramp for a neutral for formward engagment; function of TOT {7}
FUN 171A0 171BB :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 171BC "uuwFn56F_T"                                                  #Engagement EPC at finish of engagment ramp for a neutral to reverse engagment;function of TOT  {7}
FUN 171BC 171D7 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 171D8 "uuwFn64F_T"                                                  #Engagement EPC at finish of engagement ramp for a reverse to forward engagement;function of TOT  {7}
FUN 171D8 171F3 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:TOT Units:DEG Units: PSI 0-127.5 Resolution: 0.50 XY Pairs: 7 {7}
SYM 171F4 "suwFn_TCSTRT"                                                #CL RunMode Delay (CL Delay) / OPCLT (FNWRMENG) (FNTCSTRT) {2}
FUN 171F4 1720B :SW :UW #[SW=flo(X*2)] [UW=flo(X/8)]                    #ECT>SEC {2}
#SYM171F4 "suwFn.0x171f4"                                               # {3}
#FUN171F4 1720B :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 1720E "suwFn022E"                                                   #Engine Coolant Temperature normalizing function; used for FNCOLD_CUT table lookup {7}
FUN 1720E 17225 :SW :UW #[SW=flo(x*1)] [UW=flo(X/256)]                  #X Input:ECT Units:degF Units:NORMALISED 0-5 Resolution:0.0625 XY Pairs:6 {7}
SYM 17226 "suwFn027B"                                                   #Catalyst Midbed temperature normalizing function (1x6); for FNCOLD_CUT table lookup {7}
FUN 17226 1723D :SW :UW #[SW=flo(x*1)] [UW=flo(X/256)]                  #X Input:EXT_CMD Units:DEGREES, F Units: NORMALISED 0-5 Resolution: 0.0625 XY Pairs: 6 {7}
SYM 17482 "suwFnVMOV_LOAD"                                              #MMinimum load as a function of ECT to infer the vehicle is moving {7}
FUN 17482 1749D :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input: ECT Units: DEGF Units: UNITLESS 0-1.999 XY Pairs: 7 {7}
SYM 17652 "uuyFnPHVL"                                                   #normalizing fn. for vload {7}
FUN 17652 17661 :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #X Input: VLOAD Units: NONE 0-9 XY Pairs: 10{7}
SYM 17662 "uuyFnXPHT"                                                   #normalizing fn. for throttle {7}RZA15E39_??
FUN 17662 17675 :UY :UY #[UY=flo(x*1)] [UY=flo(X/16)]                   #X Input: TP_REL_H Units: COUNTS 0-9 XY Pairs: 10 {7}
SYM 1767A "uswFnULDR"                                                   #expected acceleration for unloaded vehicle (REVISED) {7}
FUN 1767A 176A1 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #X Input: TQ_VACCR Units: FT-LBS Units: MPH/SEC -20-20 XY Pairs: 10 {7}
SYM 176A2 "uswFnLDR"                                                    #expected unloaded acceleration (REVISED) {7}
FUN 176A2 176C9 :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #X Input: TQ_VACCR Units: FT-LBS Units: MPH/SEC -20-20 XY Pairs: 10 {7}
SYM 176CA "uuwFnWR"                                                     #wind resistance torque loss {7}
FUN 176CA 176E9 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input: VSBART Units: MPH Units: FT-LBS 0-1020 XY Pairs: 8 {7}


SYM 17A58 "uswFnMISTQOFF"                                               #Misfire negative torque threshold offset function. Compensates for changes in engine torque calculation due to altitude {7}
FUN 17A58 17A6F :UW :SW #[UW=flo(x*1)] [SW=flo(x*1)]                    #X Input:BP Units:inHg Units:LBF*FT 0-2047.968994 Resolution:0.03125 XY Pairs: 6 {7}
SYM 17A70 "uuyFnMISTR"                                                  #Lookup table used by misfire to selectively enable/disable the misfire monitor as a function of the torque reduction source. {7}
FUN 17A70 17A99 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:TQ_SOURCE Units:unitless Units:UNITLESS 0-1 Resolution:1 XY Pairs: 21 {7}
SYM 17A9A "suwFnMISECT"                                                 #Time delay in seconds for Misfire monitoring based on ECT {7}
FUN 17A9A 17AB9 :SW :UW #[SW=flo(x*1)] [UW=flo(x*1)]                    #X Input:ECT Units:DEGREES F Units: SECOND 0-65535 Resolution: 1 XY Pairs: 6 {7}
SYM 17ABA "suwFnMISACT"                                                 #Time delay in seconds for Misfire monitoring based on ACT {7}
FUN 17ABA 17AD9 :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    #X Input:ACT Units:DEGREES F Units: SECOND 0-65535 Resolution: 1 XY Pairs: 6 {7}
SYM 17ADA "uuwFn034MIS"                                                 #Y Scaling Load (FNMISOK, FNMISID) {7}
FUN 17ADA 17AF9 :UW :UW #[UW=flo(X/32768)] [UW=flo(X/256)]              #Load>Y_Row {7}
SYM 17AFA "uuwFn070MIS"                                                 #X Scaling RPM - Misfire (FNMISOK, FNMISID) {7}
FUN 17AFA 17B21 :UW :UW #[UW=flo(X/4)] [UW=flo(X/256)]                  #RPM>Col {7}
SYM 17CB2 "uuwFnMNORMN"                                               # {7}
FUN 17CB2 17CC5 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {7}
SYM 17CC6 "uuwFnMNORMLOAD"                                               # {7}
FUN 17CC6 17CD9 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {7}
SYM 17CDA "uuwFnRANNUM_??"                                              # rf_rancol_tmp is the high byte (signed) of the low word of RANNUM, and rf_ranrow_tmp {7}
###    CRAI8 9-31, CRAI8 9-163                                            is the low byte (signed) of the low word of RANNUM  {7}
FUN 17CDA 17D01 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 17D02 "uuwFn010A"                                                   #Square root function, high accuracy, domain 0.5 to 1.5  {7}
FUN 17D02 17D21 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:KAMRF Units:UNITLESS Units:UNITLESS 0-1.414215 Resolution:0.000031 XY Pairs:8 {7}
SYM 17D22 "uuwFnAC_A_OFF"                                               #Delay between the system requesting the A/C off and the Air turn off as a function of engine speed {7}
FUN 17D22 17D39 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:Seconds 0-63.999001 Resolution:0.000977 XY Pairs: 6 [7}
SYM 17D3A "uuwFnAC_C_OFF"                                               #Delay between the system requesting the A/C off and the Clutch disengaging as a function of engine speed. {7}
FUN 17D3A 17D51 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:Seconds 0-63.999001 Resolution:0.000977 XY Pairs: 6 {7}
SYM 17D52 "uuwFnACC_DELAY2"                                             #Delay to synchronise A/C ON and ISC compensation - with system cycling {7}
FUN 17D52 17D69 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:Seconds 0-62 Resolution:0.001 XY Pairs: 6 {7}
SYM 17D6A "uuwFnACC_DELAY"                                              #Delay to synchronise A/C ON and ISC compensation - with system not cycling  {7}
FUN 17D6A 17D81 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:Seconds 0-62 Resolution:0.001 XY Pairs: 6 {7}
SYM 17D82 "uuyFn623"                                                    #Gross torque multiplier as a function of air fuel ratio.  {7}
FUN 17D82 17D8F :UY :UY #[UY=flo(X/128)] [UY=flo(X/128)]                #X Input:LAMBSE Units:NONE Units: NONE 0-1.99 Resolution: 0.008 XY Pairs: 7 {7}
SYM 17D90 "uuwFn632"                                                    #Air fuel ratio as a function of desired torque ratio {7}
FUN 17D90 17DAB :UW :UW #[UW=flo(X/128)] [UW=flo(X/32768)]              #X Input:TR_AF Units:TORQUE RATIO Units:A/F RATIO 0-1.999 Resolution: 0.000031 XY Pairs: 7 {7}
SYM 17DAC "suyFnTR_CLP"                                                 #Min. torque ratio that can be achieved via spark retard during cyl.cutout-Intended to prevent poor combustion & backfires {7}
FUN 17DAC 17DB7 :SY :UY #[SY=flo(X/0.5)] [UY=flo(X/128)]                #X Input:ECT Units:DEGRESS F* Units:TORQUE RATIO 0-1 Resolution: 0.008 XY Pairs: 6 {7}
SYM 17DB8 "uuyFnTR_SPK"                                                 #Minimum torque reduction to be done by spark retard alone. {7}
FUN 17DB8 17DCB :UY :UY #[UY=flo(x*1)] [UY=flo(X/128)]                  #X Input:TQ_SOURCE Units:unitless Units:TQ-RATIO 0-1 Resolution: 0.008 XY Pairs: 10 {7}

SYM 17DCC "uuwFnINJON"                                                  #Injector clip of  injon {7}
FUN 17DCC 17E0B :UW :UW #[           ] [             ]                  #X Input:INJON Units:Unitless Units: UNITLESS 0-16 Resolution: 1 XY Pairs: 16 {7}

SYM 17E10 "suwFnTR_CLP1"                                                #Minimum torque ratio to be used with spark retard during cold engine operation  for tqmod. {7}
FUN 17E10 17E27 :SW :UW #[           ] [             ]                  #X Input:ECT Units:DEGRESS F* Units: TORQUE RATIO 0-1 Resolution: 0.008 XY Pairs: 6 {7} 


SYM 17E28 "suwFnNR_TPRATE"                                              #Normalizing function for TP_RATE, used with FNTR_TIP_RMP {7}
FUN 17E28 17E4F :SW :UW #[SW=flo(x*1)] [UW=flo(X/256)]                  #X Input:TP_RATE Units:ADct/s Units: NORMD 0-6 Resolution: 0.0039 XY Pairs: 10 {7}
SYM 17E50 "uuwFnNR_NOVS"                                                #Normalizing function for NOVS, used with FNTR_TIP_RMP {7}
FUN 17E50 17E77 :UW :UW #[UW=flo(x*1)] [UW=flo(X/256)]                  #X Input:NOVS Units:unitless Units:NORMD 0-9 Resolution: 0.0039 XY Pairs: 10 {7}
SYM 17EA9 "uuyFnRATIO_MIN"                                              #Minimum torque reduction to maintain during a TQ_MBT torque tipin change. {7}
FUN 17EA9 17EB6 :UY :UY #[UY=flo(x*1)] [UY=flo(x*1)]                    #X Input:NOVS Units:unitless Units:TQ-RATIO  0-1.0 Resolution:0.0080 XY Pairs:7 {7}
SYM 17EB8 "uuwFn618A"                                                   #engine accessory torque losses {7}
FUN 17EB8 17ED3 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units: FT-LBS 0-511.992187 Resolution: 0.007812 XY Pairs: 7 {7}
SYM 17ED4 "uuwFn619A"                                                   #A/C torque losses {7}
FUN 17ED4 17EEF :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #X Input:N Units:RPM Units:FT-LBS 0-511.992187 Resolution:0.007812 XY Pairs:7 {7}
SYM 17EF0 "uuwFnACTUAL_TQ"                                              #TQ Filter TC {7}
FUN 17EF0 17F0B :UW :UW #[UW=flo(X/4)] [UW=flo(X/1024)]                 #RPM>sec {7}
SYM 17F78 "uuwFnRPM_LIM"                                                #TQ Ratio Desired {2}
FUN 17F78 17F93 :UW :UW #[UW=flo(X/4)] [UW=flo(X/128)]                  #RPM>xTQ {2}
#SYM17F78 "uuwFn.0x17f78"                                               # {3}
#FUN17F78 17F93 :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 17F94 "uuwFnNO_LIM"                                                 #OSS Limiter (FN396C) {2}
FUN 17F94 17FAF :UW :UW #[UW=flo(X/4)] [UW=flo(X/128)]                  #OSS>xTQ {2}
#SYM17F94 "uuwFn.0x17f94"                                               # {3}
#FUN17F94 17FAF :UW :UW #[UW=flo(x*1)] [UW=flo(x*1)]                    #> {3}
SYM 17FB0 "suyFnTOIL_ECT"                                               #TQ Ratio ECT Oil Protection {7}
FUN 17FB0 17FBB :SY :UY #[SY=flo(X*2)] [UY=flo(X/128)]                  #ECT>xTQ {7}
SYM 17FBC "uuwFnTOIL_RPM"                                               #TQ Ratio RPM Oil Protection {7}
FUN 17FBC 17FD7 :UW :UW #[UW=flo(X/4)] [UW=flo(X/128)]                  #RPM>xTQ {7}
SYM 17FD8 "suyFnTOIL_SCP"                                               ##Torque Ratio desired as a function of Eng Oil Temp (as received over SCP link). 
FUN 17FD8 17FE5 :SY :UY #[SY=flo(x*1)] [UY=flo(x*1)]                    #X Input:ENG_OIL_TEMP Units:DEGREES C Units: TORQUE RATIO 0-1 Resolution: 0.008 XY Pairs: 7 {7}
SYM 17FFE "uswFnANTI_STALL"                                             #TQ Reduction Min Clip {7}
FUN 17FFE 18015 :UW :SW #[UW=flo(X/4)] [SW=flo(X/32)]                   #RPM>TQ_CAP_FAC {7}
SYM 18016 "uuwFnCOOL_MAX"                                               #FSC Cylinders Disabled Max {7}
FUN 18016 18031 :UW :UW #[UW=flo(X/4)] [UW=flo(X/2048)]                 #RPM>#Cyls {7}
SYM 18034 "suwFnSOAKACT"                                               #Engine off time must be below this value to apply lean crank fuel {7}
FUN 18034 1804B :SW :UW #[SW=flo(X*2)] [UW=flo(x*1)]                    #X Input:ACT Units:degF Units:MIN 0-1680 Resolution: 0.5 XY Pairs: 6 {7}
SYM 1807E "suwFn654W"                                                   #MAX ALLOWABLE WARM-UP TIME {7}
FUN 1807E 18095 :SW :UW #[SW=flo(X/32)] [UW=flo(x*1)]                   #X Input:INFAMB_KAM Units:DEG F Units:TIME 0-65535 XY Pairs: 6 {7}
SYM 186A8 "usyFn.0x17F34"                                               # SAME AS RZASA "usyFn.0x17F34" L08513 {7}
FUN 186A8 186B3 :UY :SY #[UY=flo(x*1)] [SY=flo(x*1)]                    #> {0}
SYM 186B4 "uuyFnM23A"                                                   #TV Pres Manual Modifier 2-3 {7}
FUN 186B4 186C3 :UY :UY #[UY=flo(X/0.25)] [UY=flo(x*1)]                 #TP_REL>TV_PRES {7}

SYM 169D6 "suyFn_169D6"
FUN 169D6 169E5  :SW :UW

SYM 169E6 "uuyFn_169E6"
FUN 169E6 169F5  :UW :UW

SYM 16A47 "uuyFn_16A47"
FUN 16A47 16A5A  :UY :UY

SYM 16A5B "uuyFn_16A5B"
FUN 16A5B 16A6E  :UY :UY

SYM 16A6F "uuwFn_16A6F"
FUN 16A6F 16A82  :UW :UW

#######    #    ######  #       #######  #####  
   #      # #   #     # #       #       #     # 
   #     #   #  #     # #       #       #       
   #    #     # ######  #       #####    #####  
   #    ####### #     # #       #             # 
   #    #     # #     # #       #       #     # 
   #    #     # ######  ####### #######  #####  

#SYM0FF00 "Tb.0x0FF00"                                                  # {2}
#TAB0FF00 0FEFF #:O ? UW #[O ? UW=flo(x*1)]                             #/> {2}
SYM 1243A "syTb.0x1243a"                                                # {3}
TAB 1243A 12479 :O 8 SY #[O 8 SY=flo(x*1)]                              #/> {3}
SYM 12534 "uyTb1036A"                                                   #Load at Sealevel (LWFM) {2}
TAB 12534 12597 :O10 UY #[O10 UY=flo(X/128)]                            #FN070E/FN044>LOAD {2}
#SYM12534 "syTb.0x12534"                                                # {3}
#TAB12534 12597 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 12598 "uyTb1037"                                                    #Inferred BP Load {2}
TAB 12598 125FB :O10 UY #[O10 UY=flo(X/128)]                            #FN070E/FN044> {2}
#SYM12598 "syTb.0x12598"                                                # {3}
#TAB12598 125FB :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 125FC "uyTb1039"                                                    #Sealevel ISC Flow Inferred BP (TOTLDST Adder) {2}
TAB 125FC 1265E :O11 UY #[O11 UY=flo(X/64)]                             #FN078/FN077> {2}
#SYM125FC "syTb.0x125fc"                                                # {3}
#TAB125FC 1265E :O11 SY #[O11 SY=flo(x*1)]                              #/> {3}

#SYM 12712 "uyTb2x1327A_??"                                                 #Injector Output Port (Register Map)  (NUMCYL) {7}
#TAB 12712 1271F :O14    #[O14 UY=flo(X/2)]                              #/Bank>Port# {7}


#SYM 12996 "uyTb1327A"                                                   #Injector Output Port (Register Map)  (NUMCYL) (Misfire) {2}
#TAB 12996 1299E :O 9 UY #[O 9 UY=flo(X/2)]                              #/Bank>Port# {2}
#SYM 1299F "uyTb1329"                                                    #Injector Firing Order (NUMCYL) {2}
#TAB 1299F 129A6 :O 8 UY #[O 8 UY=flo(x*1)]                              #Inj/>Order {2}
SYM 12A22 "syTb.0x12a22"                                                # {3}
TAB 12A22 12A4E :O 9 SY #[O 9 SY=flo(x*1)]                              #/> {3}
SYM 12A4F "uyTbSP**_RF_SSFF"                                            #Pump Voltage Table {2}
TAB 12A4F 12A7B :O 9 UY #[O 9 UY=flo(X/16)]                             #FNRFNRM_FLOW/FNRFNRM_RAP>RF_DC {2}
#SYM12A4F "syTb.0x12a4f"                                                # {3}
#TAB12A4F 12A7B :O 9 SY #[O 9 SY=flo(x*1)]                              #/> {3}
SYM 12B50 "WuyTbTMSEQ32P4"                                              #Table of delay times before completing a 3-2 shift Table Size: 10X6 {7}
TAB 12B50 12B8B :O10 UY #[O10 UY=flo(x*1)]                              #X Input:VSBART_RT Norm Fcn:FNXVSBART_RT Y Input:TM_IN_GR4 Norm Fcn:FNXTMINGR4 Units: Seconds 0-7.99 Resolution: 0.03125 {7}
SYM 12C9C "syTb_IDLE_BLD2"                                              #Tank Pres Bleed Up Min Allowed {7}
TAB 12C9C 12CB4 :O5 SY #[O5 SY=flo(X/8)]                                #FN157B/FN158>Pres {7}
SYM 12CFE "WuyTb1353A"                                                  #(N,LOAD)/2 BIAS TABLE ???{7}
TAB 12CFE 12D01 :O 2 UY #[O 2 UY=flo(x*1)]                              #X Input: N Norm Fcn: FN039A Y Input: LOAD Norm Fcn: FN021A  {7}
SYM 12D3A "WuyTbVEGOSP"                                                 #VEGO SETPOINT FOR FAOSC Table Size: 10X8 {7}
TAB 12D3A 12D89 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN039E Y Input:LOAD Norm Fcn:FN021 Units: VOLTS 0-0.99 Resolution: 0.003900 {7}
SYM 12D8A "syTb1353E"                                                   #Amount of bias from stoichiometry Table Size: 10X8 {2}
TAB 12D8A 12DD9 :O10 SY #[O10 SY=flo(X/8192)]                           #X Input:N Norm Fcn:FN039E Y Input:LOAD Norm Fcn:FN021 Units:UNITLESS -0.0156-0.0155 Resolution: 0.000122 {2}
#SYM12D8A "syTb.0x12d8a"                                                # {3}
#TAB12D8A 12DD9 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 12E0E "uyTb1352"                                                    #Hego Amplitude (FN1354) {2}
TAB 12E0E 12E2D :O 4 UY #[O 4 UY=flo(X/512)]                            #FN039/FN021>Lambda {2}
#SYM12E0E "syTb.0x12e0e"                                                # {3}
#TAB12E0E 12E2D :O 4 SY #[O 4 SY=flo(x*1)]                              #/> {3}
SYM 12E6E "wuyTb1351ETD"                                                #Hego Delay Revs {7}
TAB 12E6E 12E71 :O2    #[O2 UY=flo(X/128)]                              #FN039F/FN021E>sec {7}
SYM 12E72 "uyTbTDSEC8X10"                                               #o2 Hego Delay (FN1351) (FN1343) {2}
TAB 12E72 12EC1 :O10 UY #[O10 UY=flo(X/128)]                            #FN039E / FN039/FN021 / FN025>sec {2}
#SYM12E72 "syTb.0x12e72"                                                # {3}
#TAB12E72 12EC1 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 12EC2 "WsyTb1325A"                                                  #LTMTB1 AND LTMTB2 LEARNING/USE CONTROL TABLE Table Size: 10X9 {2} CALLED AT L_851D3 AS WUYTB _????
TAB 12EC2 12F1B :O10 SY #[O10 SY=flo(x*1)]                              #X Input:RPM Norm Fcn: FN070D Y Input:LOAD Norm Fcn:FN021A Units:UNITLESS -128-127 Resolution: 1 {2}
SYM 12F1C "Y16uyTb1315"                                                 #An 10x8 table which gives injector delay as a function of engine speed and load Table Size: 10X8 {2}
TAB 12F1C 12F6B :O10 UY #[O10 UY=flo(X/0.25)]                           #X Input:RPM - FN070 Norm Fcn: FN070 Y Input:LOAD - FN085 Norm Fcn:FN085 Units: Degrees 0-720 Resolution: 4 {2}
#SYM12F1C "syTb.0x12f1c"                                                # {3}
#TAB12F1C 12F6B :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 12F94 "uyTb1329A"                                                   #A one-row table that maps an injector's 'firing sequence number' to its 'injector number'.Table Size: 14X1 {2}
TAB 12F94 12FA1 :O14 UY #[O14 UY=flo(x*1)]                              #X Input:INJ_BANK Norm Fcn:INJ_B Y Input:NULL Norm Fcn:NULL Units: NUMERIC 1-8 Resolution: 1 {2}
SYM 12FA2 "uyTb2x1327A"                                                 #Injector Output Port (Register Map)  (NUMCYL) {2}
TAB 12FA2 12FAF :O14 UY #[O14 UY=flo(X/2)]                              #/Bank>Port# {2}
SYM 13048 "wuyTb1338"                                                   #SOAK TEMPERATURE MULTIPLIER Table Size: 5X5 {7}
TAB 13048 13060 :O 5 SY #[O 5 SY=flo(x*1)]                              #X Input:DELTA_TEMP Norm Fcn: FN001 Y Input:ABS_TEMP Norm Fcn:FN001A Units: UNITLESS 0-3.98 Resolution: 0.0156 {7}
SYM 13061 "uyTb1347"                                                    #Hot Fuel Comp Engine Off Time Multiplier HICOMP {7}
TAB 13061 13079 :O5    #[O5 UY=flo(X/64)]                               #FN008B/FN001B>X {7}
SYM 1307A "uyTb1348"                                                    #Hot Fuel Compensation Time Multiplier (FN1349) {7}
TAB 1307A 13092 :O5 SY #[O5 UY=flo(X/64)]                               #FN008/FN007>X {7}
SYM 131DC "uyTbSP**_1321"                                               #Equilibrium Intake Surface Fuel (TSEIF) {2}
TAB 131DC 1322B :O10 UY #[O10 UY=flo(X/4096*Z)]                         #FN022C/FN071L>lb/min {2}
#SYM131DC "syTb.0x131dc"                                                # {3}
#TAB131DC 1322B :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 1322C "?Tb1323A"                                                   # Accel valve temperature compensator for transient fuel {7}
TAB 1322C 1327B :O10 #[O10 UY=flo(X/64)]                                #FN022C[ECT]/FN018[ATMR1]>multiplier SIZE=10x8 {7}
SYM 1327C "?yTb1323D"                                                   # Decel valve temperature compensator for transient fuel{7}
TAB 1327C 132CB :O10 #??[O10 UY=flo(X/64)]                                #FN022C[ECT]/FN018[ATMR1]>xMul SIZE=10x8 {7}

SYM 132CC "?yTb1322AL"                                                  # Time constant for accelerations used in transient fuel compensation {7}
TAB 132CC 1331B :O10 #??[O10 UY=flo(X/32)]                                #FN022C[ECT]/FN071L[LOAD]>sec SIZE=10x8 {7}

SYM 1331C "?yTb1322DL"                                                  # Decel Time Constant for transient fuel {7}
TAB 1331C 1336B :O10 #??[O10 UY=flo(X/32)]                                #FN022C[ECT]/FN071L[LOAD]>sec SIZE=10x8 {7}


SYM 1336C "uyTb1380F"                                                   #TFC Stoich Modifier {2}
TAB 1336C 1339B :O 8 UY #[O 8 UY=flo(X/128)]                            #FN018/FN079F>X {2}
#SYM1336C "syTb.0x1336c"                                                # {3}
#TAB1336C 1339B :O 8 SY #[O 8 SY=flo(x*1)]                              #/> {3}
SYM 1343C "uyTb1052"                                                    #Manifold Fill VE Correction (Manifold Volume) (Cold Tip-In Enrichment) {2}
TAB 1343C 1347B :O 8 UY #[O 8 UY=flo(X/128)]                            #FN022V/FN022V>VE {2}
#SYM1343C "syTb.0x1343c"                                                # {3}
#TAB1343C 1347B :O 8 SY #[O 8 SY=flo(x*1)]                              #/> {3}
SYM 13638 "uyTb1362_ALT"                                                  #Alternative FN1362 Table Size: 10X8 {7}
TAB 13638 13687 :O10 UY #[O10 UY=flo(X/128)]                            #X Input:FRCBFT*ACT Norm Fcn:FN022B Y Input:PERLOAD Norm Fcn:FN072A Units:UNITLESS 0-1.99 Resolution:0.0078 {7}
#SYM13638 "syTb.0x13638"                                                # {3}
#TAB13638 13687 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 13688 "uyTb1362"                                                    #Base Open Loop Fuel table = a 10 x 8 table of lambda values as a function of temperature. {7}
TAB 13688 136D7 :O10 UY #[O10 UY=flo(X/128)]                            #X Input:temp_b_tmp Norm Fcn:FN022B Y Input:perload Norm Fcn:FN072A Units:UNITLESS 0-1.992188 Resolution: 0.0078 {7}
#SYM13688 "syTb.0x13688"                                                # {3}
#TAB13688 136D7 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 13725 "WuyTb1350B"                                                  #CRANKING FUEL ENRICHMENT MULTIPLIER FOR THE SEQUENTIAL INJECTORS Table Size: 8X6 {7}
TAB 13725 13754 :O 8 UY #[O 8 UY=flo(X/64)]                             #X Input:CRKPIPCTR_BW Norm Fcn:FN023A Y Input:CRKTMP Norm Fcn:FN024D Units: UNITLESS 0-3.98 Resolution: 0.0156 {7}
#SYM13725 "syTb.0x13725"                                                # {3}
#TAB13725 1374C :O 8 SY #[O 8 SY=flo(x*1)]                              #/> {3}
SYM 13844 "uyTb1360B"                                                   #Base Fuel Table  (WOT Multiplier, FN303, FN1362, FN1360) {2}
TAB 13844 13893 :O10 UY #[O10 UY=flo(X/128)]                            #FN070B/FN072T>LAMBSE {2}
#SYM13844 "syTb.0x13844"                                                # {3}
#TAB13844 13893 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 13894 "uyTb1361L"                                                   #Startup Enrichment Lambse Subtractor (Active in OL Only) (FN1361_H_RES) {2}
TAB 13894 138E3 :O10 UY #[O10 UY=flo(X/128)]                            #FN022BX/FN018C>-LAMBSE {2}
#SYM13894 "syTb.0x13894"                                                # {3}
#TAB13894 138E3 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 138E4 "syTb.0x138e4"                                                # {3}
TAB 138E4 13933 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 13DA2 "uyTb8000"                                                    #ISC Transfer {2}
TAB 13DA2 13DDD :O10 UY #[O10 UY=flo(X/256)]                            #FN061/FN060>ISCDTY {2}
#SYM13DA2 "syTb.0x13da2"                                                # {3}
#TAB13DA2 13DDD :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 13E80 "uyTb1862D"                                                   #ISC Multiplier Drive (FN1862AD) {7}
TAB 13E80 13EA9 :O7    #[O7 UY=flo(X/64)]                               #FN020C/FN018B>xDSDISC {7}
SYM 13EAA "uyTb1862N"                                                   #ISC Multiplier Neutral (FN1861) {7}
TAB 13EAA 13ED3 :O 7 UY #[O 7 UY=flo(X/64)]                             #FN020C/FN018B>xDESMAF {7}
SYM 14274 "WuyTbFL_EXT"                                                 #Base steady-state flange temperature Table Size: 6X6 {7}
TAB 14274 14297 :O 6 UY #[O 6 UY=flo(x*1)]                              #X Input:normalized Norm Fcn:FNFL_NRM_X Y Input:normalized Norm Fcn:FNFL_NRM_Y  Units:DEGF 0-2040 Resolution:8 {7}
SYM 14432 "WuyTbCYL_OFF"                                                #Air fuel table to used when cylinders are turned off Table Size: 7X6{7}
TAB 14432 1445B :O6    #[O6 UY=flo(X/128)]                              #X Input:N Norm Fcn:FN070C Y Input:LOAD Norm Fcn:FN034A Units:UNITLESS 0-1.99 Resolution:0.007812 {7}
SYM 1445C "WuyTbCOLD_CUT"                                               #Cold cylinder cutout min lambse value to make up for lost fuel. Phased out with increasing CAT temps. Table Size: 6X6 {7}
TAB 1445C 1447F :O 6 UY #[O 6 UY=flo(x*1)]                              #X Input:Unitless Norm Fcn:FN022E Y Input:Unitless Norm Fcn:FN027B Units: UNITLESS 0.007812-1.99 Resolution: 0.007812{3}
SYM 144EB "uyTbTA_STP_??"                                                  #Inferred TP during Traction Assist {7}
TAB 144EB 1454E :O10    #[O10 UY=flo(X*4)]                              #FNTAX/FNTAY>TP {7}
SYM 145FA "Y16uyTb1000"                                                 #Minimum A/D level at which knock signal is valid (sensor is okay)  {7}
TAB 145FA 14617 :O 6 UY #[O 6 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN017Y Input:LOAD Norm Fcn:FN013 Units: UNITLESS 0-255 Resolution: 1.0 Table Size: 6X5 {7}
SYM 146AA "Y16syTb1132A"                                                #Knock retard limit based on air charge temperature (dependent on engine load) {7}
TAB 146AA 146C7 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:ACT NormFcn:FN033A Y Input:LOAD NormFcn:FN013 Units: DEG -32-31.75 Table Size: 6X5 {7}
SYM 146C8 "Y16syTb1134A"                                                #Knock retard limit based on engine speed and load {7}
TAB 146C8 146E5 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:RPM NormFcn:FN017 Y Input:LOAD NormFcn:FN013 Units: DEG -32-0 Table Size: 6X5 {7}
SYM 146E6 "WuyTb1144E"                                                   #Knock threshold window open time relative to rising PIP edge Table Size: 10X8 {7}
TAB 146E6 14735 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:RPM Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS Resolution: 0.000244 {7}
SYM 14736 "WuyTb1147B"                                                  #KTS WINDOW MODIFIER BASED ON RETARD FROM MBT Table Size: 6X4 {7}
TAB 14736 1474D :O 6 UY #[O 6 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070O Y Input:SPK_MBT_DELT Norm Fcn:FN097B Units:X 0-0.49 Resolution: 0.001953 {7}
SYM 14766 "syTb.0x14766_uyTb1140A_?"                                                # {7}
TAB 14766 147B5 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 147B6 "syTb.0x147b6_uyTb1141_?"                                                # {7}
TAB 147B6 14805 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 14806 "WuyTb1143A"                                                  #Retard increment versus Engine speed and load Table Size: 10X8 {7}
TAB 14806 14855 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: DEG 0-31.75 Resolution: 0.250 {7}
SYM 14856 "WsyTb1148"                                                   #Knock Control Retard Limit as a function of engine speed and load {7}
TAB 14856 148A5 :O10 SY #[O10 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: DEG -31.75-0 Resolution: 0.250 {7}
SYM 148A6 "WuyTb2900A"                                                  #KNOCK SENSOR GAINS FOR KNOCK SENSOR 1 Table Size: 10X8 {7}
TAB 148A6 148F5 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-7 Resolution: 1 {7}
SYM 148F6 "WuyTb2901A"                                                  #KNOCK SENSOR GAINS FOR KNOCK SENSOR 2 Table Size: 10X8 {7}
TAB 148F6 14945 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-7 Resolution: 1 {7}
SYM 14946 "WuyTb2910A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 1 Table Size: 10X8 {7}
TAB 14946 14995 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14996 "WuyTb2911A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 2 Table Size: 10X8 {7}
TAB 14996 149E5 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 149E6 "WuyTb2912A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 3 Table Size: 10X8 {7}
TAB 149E6 14A35 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14A36 "WuyTb2913A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 4 Table Size: 10X8 {7}
TAB 14A36 14A85 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14A86 "WuyTb2914A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 5 Table Size: 10X8 {7}
TAB 14A86 14AD5 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14AD6 "WuyTb2915A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 6 Table Size: 10X8 {7}
TAB 14AD6 14B25 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14B26 "WuyTb2916A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 7 Table Size: 10X8 {7}
TAB 14B26 14B75 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14B76 "WuyTb2917A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 8 Table Size: 10X8 {7}
TAB 14B76 14BC5 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14BC6 "WuyTb2918A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 9 Table Size: 10X8 {7}
TAB 14BC6 14C15 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}
SYM 14C16 "WuyTb2919A"                                                  #KNOCK DETECTION SIGNAL THRESHOLD FACTOR FOR CYLINDER 10 Table Size: 10X8 {7}
TAB 14C16 14C65 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: UNITLESS 0-255 Resolution: 1 {7}

SYM 14C8E "WuyTb1135A_?"                                                #KNOCK ADVANCE LIMIT TABLE AS A FUNCTION OF RPM AND LOAD Table Size: 10X8 {7}
TAB 14C8E 14CDD :O10 UY #[O10 UY=flo(x*1)]                              ##X Input:N Norm Fcn:FN070U Y Input:LOAD Norm Fcn:FN071U Units: DEG ADVANCE 0-31.75 Resolution: 0.25 {7}



SYM 14D90 "WsyTb2100"                                                   #Base spark table at sea level Table Size: 11X9 {7}
TAB 14D90 14DF2 :O11 SY #[O11 SY=flo(x*1)]                              #X Input:N Norm Fcn: FN016 Y Input:LOAD Norm Fcn:FN012 Units: Degrees -64-63.5 Resolution: 0.5{7}
SYM 14DF3 "WsyTb2110"                                                   #Base spark table at altitude Table Size: 11X9 {7}
TAB 14DF3 14E55 :O11 SY #[O11 SY=flo(x*1)]                              #X Input:N Norm Fcn: FN016 Y Input:LOAD Norm Fcn:FN012 Units: Degrees -64-63.5 Resolution: 0.5{7}
SYM 14E56 "Y16syTb2115"                                                 #ENGINE COMBUSTION NOISE SPARK MODIFIER Table Size: 11X9 {7}
TAB 14E56 14EB8 :O11 SY #[O11 SY=flo(x*1)]                              #X Input:N (RPM) Norm Fcn:FN016 Y Input:LOAD Norm Fcn:FN012 Units:Degrees -32-31.75 Resolution: 0.25 {7}
SYM 14EB9 "Y16syTb2120"                                                 #The change in desired spark as a function of engine coolant temperature. Table Size: 6X5 {7}
TAB 14EB9 14ED6 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:ECT Norm Fcn: FN014 Y Input:LOAD Norm Fcn:FN013 Units: Degrees -32-31.75 Resolution: 0.25 {7}
SYM 14ED7 "Y16syTb2120_ALT"                                             #Change in base spark as a function of ECT during anti-plug fouling Table Size: 6X5 {7}
TAB 14ED7 14EF4 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:ECT Norm Fcn: FN014_ALT Y Input:LOAD Norm Fcn:FN013 Units: Degrees -32-31.75 Resolution: 0.25 {7}
SYM 14EF5 "Y16uyTb2135"                                                 #Increase in base spark for each % EGR Table Size: 6X5 {7}
TAB 14EF5 14F12 :O 6 UY #[O 6 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN017 Y Input:LOAD Norm Fcn:FN013 Units:Degrees 0-8 Resolution: 0.03125 {7}
SYM 14F13 "Y16syTb2140"                                                 #This table is intended to adjust spark for whatever calibration adjustments which may be necessary Table Size: 6X5 {7}
TAB 14F13 14F30 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN017 Y Input:SPK_LAMBSE Norm Fcn:FN015 Units:Degrees -32-31.75 Resolution: 0.25 {7}
SYM 14F55 "WsyTb2200"                                                   #Base borderline detonation table Table Size: 11X9 {2}
TAB 14F55 14FB7 :O11 SY #[O11 SY=flo(X/2)]                              #X Input:N Norm Fcn:FN016 Y Input:LOAD Norm Fcn:FN012 Units:DEGREES CA -64-63.5 Resolution: 0.50 {2}
#SYM14F55 "syTb.0x14f55"                                                # {3}
#TAB14F55 14FB7 :O11 SY #[O11 SY=flo(x*1)]                              #/> {3}
SYM 14FB8 "Y16uyTb.0x14fb8_???"                                                # {3}
TAB 14FB8 14FD5 :O 6 UY #[O 6 UY=flo(x*1)]                              #/> {3}
SYM 14FD6 "syTb2225"                                                    #BDL Retard Octane Bar (FN1122) {2}
TAB 14FD6 14FF3 :O 6 SY #[O 6 SY=flo(X/4)]                              #FN017/fn071/FN013/fn070>SpkAdv {2}
#SYM14FD6 "syTb.0x14fd6"                                                # {3}
#TAB14FD6 14FF3 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 14FF4 "Y16uyTb2230"                                                 #Borderline detonation adjustment for air charge temperature Table Size: 6X5 {2}
TAB 14FF4 15011 :O 6 UY #[O 6 UY=flo(X/512)]                            #X Input:N Norm Fcn:FN017 Y Input:LOAD Norm Fcn:FN013 Units:DEG CA/DEG F 0-0.498 Resolution: 0.001953 {2}
#SYM14FF4 "syTb.0x14ff4"                                                # {3}
#TAB14FF4 15011 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 15012 "Y16syTb2231"                                                 #Air charge temperature modifier for borderline detonation spark limit Table Size: 6X7 {2}
TAB 15012 1503B :O 6 SY #[O 6 SY=flo(X/0.5)]                            #X Input:N Norm Fcn:FN017 Y Input:ACT Norm Fcn:FN024G Units:DEG -254-254 Resolution: 2.0 {2}
#SYM15012 "syTb.0x15012"                                                # {3}
#TAB15012 1503B :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 1503C "uyTb2235"                                                    #BDL Modifier EGR {2}
TAB 1503C 15059 :O 6 UY #[O 6 UY=flo(X/4)]                              #FN017/FN013>Spk Adv {2}
#SYM1503C "syTb.0x1503c"                                                # {3}
#TAB1503C 15059 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 1505A "Y16syTb2240B"                                                #Borderline Detonation adjustment for a change in Air/Fuel ratio.Table Size: 10X8 {2}
TAB 1505A 150A9 :O10 SY #[O10 SY=flo(X/4)]                              #X Input:N Norm Fcn:FN070X Y Input: SPK_LAMBSE Norm Fcn:FN015W Units:DEG -32-31.75 Resolution: 0.25 {2}
#SYM1505A "syTb.0x1505a"                                                # {3}
#TAB1505A 150A9 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 150AA "Y16syTb2241A"                                                #Multiplier on lambse borderline table for use with MFA mode.Table Size: 10X8 {7}
TAB 150AA 150F9 :O10 SY #[O10 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN070X  Y Input:LOAD Norm Fcn:FN071W Units:UNITLESS -1.5-1.5 Resolution: 0.02 {7}
SYM 150FA "Y16uyTb2220"                                                 #Borderline detonation adjustment for coolant temperature Table Size: 6X5 {7}
TAB 150FA 15117 :O 6 UY #[O 6 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN017 Y Input:LOAD Norm Fcn:FN013 Units: DEG CA/DEG F 0-0.498 Resolution: 0.001953 {7}
SYM 15118 "Y16syTb2215"                                                 #BORDERLINE SPARK ADDER WHEN KNOCK SENSOR IS NOT FUNCTIONING PROPERLY Table Size: 6X5 {2}
TAB 15118 15135 :O 5 SY #[O 5 SY=flo(X/4)]                              ##X Input:N Norm Fcn:FN017 Y Input:LOAD Norm Fcn:FN013 Units:DEGREES ADV -32-31.75 Resolution: 0.250 {2}
#SYM15118 "syTb.0x15118"                                                # {3}
#TAB15118 15135 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 15152 "Y16syTb2000B"                                                #Low load spark adder based on engine warming up (ECT and ATMR3) Table Size: 7X6 {2}
TAB 15152 1517B :O 7 SY #[O 7 SY=flo(X/2)]                              #X Input:ECT Norm Fcn: FN020D Y Input:ATMR3 Norm Fcn:FN018F Units:DEG -60-60 Resolution: 0.5 {2}
#SYM15152 "syTb.0x15152"                                                # {3}
#TAB15152 1517B :O 7 SY #[O 7 SY=flo(x*1)]                              #/> {3}
SYM 1517C "Y16syTb2001B"                                                #Low load spark adder based on engine speed and load Table Size: 6X5 {2}
TAB 1517C 15199 :O 6 SY #[O 6 SY=flo(X/2)]                              #X Input:N Norm Fcn:FN017D Y Input:LOAD Norm Fcn:FN013B* Units:DEG -60-60 Resolution: 0.5 {2}
#SYM1517C "syTb.0x1517c"                                                # {3}
#TAB1517C 15199 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 1519A "Y16syTb2002"                                                 #ADJUSTS THE COLD START SPARK VALUE FOR THROTTLE POSITION AND CAT MIDBED TEMPERATURE Table Size: 6X6 {2}
TAB 1519A 151BD :O 6 SY #[O 6 SY=flo(X/2)]                              # X Input:TP_REL Norm Fcn:FN028 Y Input: EXT_CMD Norm Fcn:FN029 Units: DEGREES ADV -63.5-64 Resolution: 0.5 {2}
#SYM1519A "syTb.0x1519a"                                                # {3}
#TAB1519A 151BD :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 15318 "syTb2020"                                                    #Spark Decel Subtractor OSC Mod (FN2600) {2}
TAB 15318 15335 :O 6 SY #[O 6 SY=flo(X/4)]                              #FN017/FN013C>SpkAdv {2}
#SYM15318 "syTb.0x15318"                                                # {3}
#TAB15318 15335 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 15356 "Y16uyTb1142"                                                 #Spark retard per change in cylinder air charge for detonation prevention Table Size: 6X6 {2}
TAB 15356 15379 :O 6 UY #[O 6 UY=flo(X*512)]                            #X Input:N Norm Fcn:FN017 Y Input:ACT Norm Fcn:FN024F Units:DEG/LBM 0-130560 Resolution: 512.0 {2}
#SYM15356 "syTb.0x15356"                                                # {3}
#TAB15356 15379 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 153A0 "uyTb2300A"                                                   #MBT Spark (FN1120 / FN1617) {2}
TAB 153A0 15402 :O11 UY #[O11 UY=flo(X/4)]                              #FN016/FN012>SpkAdv {2}
#SYM153A0 "syTb.0x153a0"                                                # {3}
#TAB153A0 15402 :O11 SY #[O11 SY=flo(x*1)]                              #/> {3}
SYM 15403 "syTb2320"                                                    #MBT ECT Compensation {2}
TAB 15403 15420 :O 6 SY #[O 6 SY=flo(X/8)]                              #FN014/FN013>SpkAdv {2}
#SYM15403 "syTb.0x15403"                                                # {3}
#TAB15403 15420 :O 6 SY #[O 6 SY=flo(x*1)]                              #/> {3}
SYM 154AE "Y16syTb2205"                                                 #SPARK RETARD WHEN ENGINE IS IN FAILSAFE COOLING MODE Table Size: 6X5 {7}
TAB 154AE 154CB :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:RPM Norm Fcn:FN017 Y Input:LOAD Norm Fcn:FN013 Units: Degrees-31-31 Resolution: 0.250 {7}
SYM 154F2 "Y16syTb2270"                                                 #Borderline Detonation adjustment for 100% Methanol.Table Size: 6X5 {7}
TAB 154F2 1550F :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN017 Y Input:LOAD Norm Fcn:FN013 Units:Degrees -32-31.75 Resolution: 0.25 {7}
SYM 15510 "Y16syTb2400"                                                #Pre-ignition spark advance based on engine speed and load Table Size: 6X5 {7}
TAB 15510 1552D :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN017 Y Input:LOAD Norm Fcn:FN013 Units:Degrees -30-63.5 Resolution: 0.5 {7}
SYM 1553C "Y16uyTb2160A"                                                #SPARK ADDER FOR BASE CALCULATION WITH IMRC Table Size: 6X5 {7}
TAB 1553C 15559 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN011 Y Input:LOAD Norm Fcn:FN013 Units:Degrees 0-63.75 Resolution: 0.25 {7}
SYM 1555A "Y16uyTb2260A"                                                #SPARK ADDER FOR BORDERLINE CALCULATION WITH IMRC Table Size: 6X5 {7}
TAB 1555A 15577 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN011 Y Input:LOAD Norm Fcn:FN013 Units:Degrees 0-63.75 Resolution: 0.25 {7}
SYM 15578 "Y16uyTb2360A"                                                #SPARK ADDER FOR MBT CALCULATION WITH IMRC Table Size: 6X5 {7}
TAB 15578 15595 :O 6 SY #[O 6 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN011 Y Input:LOAD Norm Fcn:FN013 Units:Degrees 0-63.75 Resolution: 0.25 {7}
SYM 15596 "WsyTb2162A"                                                  #Base spark modification table for VCT Table Size: 11X9 {7}
TAB 15596 155F8 :O11 SY #[O11 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN016 Y Input:LOAD Norm Fcn: FN012 Units:Degrees -1-0.992 Resolution: 0.0078 {7}
SYM 155F9 "WsyTb2262A"                                                  #Borderline spark modifier for VCT Table Size: 11X9 {7}
TAB 155F9 1565B :O11 SY #[O11 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN016 Y Input:LOAD Norm Fcn: FN012 Units:Degrees -1-0.992 Resolution: 0.0078 {7}
SYM 1565C "WsyTb2362A"                                                  #MBT spark modifier for VCT Table Size: 11X9 {7}
TAB 1565C 156BE :O11 SY #[O11 SY=flo(x*1)]                              #X Input:N Norm Fcn:FN016 Y Input:LOAD Norm Fcn: FN012 Units:Degrees -1-0.992 Resolution: 0.0078 {7}
SYM 156C2 "uyTb1036B"                                                   #TPLDST (LWFM) Inferred Load - IMRC Active {2}
TAB 156C2 15725 :O10 UY #[O10 UY=flo(X/128)]                            #FN070E/FN044>LOAD {2}
#SYM156C2 "syTb.0x156c2"                                                # {3}
#TAB156C2 15725 :O10 SY #[O10 SY=flo(x*1)]                              #/> {3}
SYM 15896 "WuyTb908G"                                                   #SEA LEVEL DESIRED EGR RATE Units: % EGR 0-31.875 Table Size: 10X8 {7}
TAB 15896 158E5 :O10 UY #[O10 UY=flo(x*1)]                              #X Input: ENGINE SPEED Norm Fcn: FN070 Y Input: LOAD Norm Fcn: FN071 {7}
SYM 158E6 "WuyTb908H"                                                   #ALT SEA LEVEL DESIRED EGR RATE Units: % EGR 0-31.875 Table Size: 10X8 {7}
TAB 158E6 15935 :O10 UY #[O10 UY=flo(x*1)]                              #X Input: ENGINE SPEED Norm Fcn: FN070 Y Input: LOAD Norm Fcn: FN071 {7}
SYM 15936 "WsyTb1223B"                                                  #SIGNED (MANAGED FUEL AIR EGR TABLE) 8 X 10 TABLE OF EGR MULTIPLIERS {7}
TAB 15936 15985 :O10 SY #[O10 SY=flo(x*1)]                              #X Input: N (RPM)Norm Fcn: FN070K Y Input: LOAD Norm Fcn: FN071C Units: UNITLESS -5-1 Table Size: 10X8 {7}
SYM 15C18 "WuyTb6000A"                                                  #PCOMP_PPM MULTLIPLIER TO SIMULATE REDUCED FLOWS AT LOWER MANIFOLD VACUUMS.  Table Size: 8X8 {7}
TAB 15C18 15C57 :O 8 UY #[O 8 UY=flo(x*1)]                              #X Input:N Norm Fcn:FN068 Y Input:PCT_LOAD Norm Fcn: FN069B Units:UNITLESS 0-1.99 Resolution: 0.007812 {7}
SYM 1626C "uyTb1619A_??"                                                   #Expected Torque (PWF) {2}
TAB 1626C 162CF :O10 UY #[O10 UY=flo(X*2)]                              #FN070P/FN067D> {7}
SYM 1662A "uyTbSSCTL2"                                                  #Shift Solenoid Truth Table {7}
TAB 1662A 1664C :O 5 UY #[O 5 UY=flo(x*1)]                              #GEAR/PDL> {7}
SYM 16946 "WuwTbINDICATED"                                              #INDICATED ENGINE TORQUE (Shift Pressure / Rev Limiter) Table Size: 6X6 {2}
TAB 16946 1698D :O 6 UW #[O 6 UW=flo(X/32)]                             #X Input:RPM Norm Fcn:FN070C Y Input:LOAD Norm Fcn:FN034A Units: FT-LBS 0-2040 Resolution: 0.03125{2}
#SYM16946 "uwTb.0x16946"                                                # {3}
#TAB16946 1698D :O 6 UW #[O 6 UW=flo(x*1)]                              #/> {3}
SYM 1698E "WuwTbFRIC_MOTOR"                                             #ENGINE FRICTION TORQUE Table Size: 6X6 {7}
TAB 1698E 169D5 :O 6 UW #[O 6 UW=flo(x*1)]                              #X Input:RPM Norm Fcn:FN070C Y Input:LOAD Norm Fcn:FN034A Units:FT-LBS 0-2040 Resolution: 0.03125 {7}
SYM 16CD2 "uyTb2SSLP"                                                   #2nd Gear Target Slip (TCC Slip 2nd) {7}
TAB 16CD2 16D02 :O7    #[O7 UY=flo(X*4)]                                #FN114A/FN067>BCSDC {7}
SYM 17526 "Y16uyTb2PH"                                                  #2ND GEAR PPH TABLE Units: MPH 0-127.5 Size: 10X10 {7}
TAB 17526 17589 :O10 UY #[O10 UY=flo(x*1)]                              #X Input: TP_REL_H Norm Fcn: FNXPHT Y Input: VLOAD Norm Fcn: FNPHVL{7}
SYM 1758A "Y16uyTb3PH"                                                  #THIRD GEAR PPH TABLE Units: MPH 0-127.5 Size: 10X10 {7}
TAB 1758A 175ED :O10 UY #[O10 UY=flo(x*1)]                              #X Input: TP_REL_H Norm Fcn: FNXPHT Y Input: VLOAD Norm Fcn: FNPHVL{7}
SYM 175EE "Y16uyTb4PH"                                                  #4TH GEAR PPH TABLE Units: MPH 0-127.5 Size: 10X10 {7}
TAB 175EE 17651 :O10 UY #[O10 UY=flo(x*1)]                              #X Input: TP_REL_H Norm Fcn: FNXPHT Y Input: VLOAD Norm Fcn: FNPHVL{7}
SYM 17820 "swTb.0x17820"                                                # {3}
TAB 17820 17867 :O 6 SW #[O 6 SW=flo(x*1)]                              #/> {3}
SYM 17B22 "WuyTbMISID_97"                                               #Table to enable/disable cylinder identification for HDR misfire, with 10x8 N and Load breakpoints for 97MY. Table Size: 10X8 {7}
TAB 17B22 17B71 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:NORM RPM Norm Fcn:FN070MIS Y Input:NORM LOAD Norm Fcn:FN034MIS Units: UNITLESS 0-1 Resolution: 1 {7}
SYM 17B72 "WuyTbMISOK_97"                                               #Disable table for misfire detection, with 10x8 normalized N and Load breakpoints for 97MY Table Size: 10X8 {7}
TAB 17B72 17BC1 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:NORM RPM Norm Fcn:FN070MIS Y Input:NORM LOAD Norm Fcn:FN034MIS Units:UNITLESS 0-1.992188 Resolution: 0.007812 {7}
SYM 17BC2 "WuyTbMISPCT_97"                                              #Maximum allowable misfire rate before malf, supports 10x8 N and Load normalizing functions for 97MY. Table Size: 10X8 {7}
TAB 17BC2 17C11 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:NORM RPM Norm Fcn:FN070MIS Y Input:NORM LOAD Norm Fcn:FN034MIS UNITS:-- 0-0.996094 Resolution: 0.003906 {7}
SYM 17C12 "wuyTb1615MIS"                                                #Torque table used by the misfire monitor, with 10x8 breakpoints for 97MY Table Size: 10X8 {7}
TAB 17C12 17C61 :O10 UY #[O10 UY=flo(x*1)]                              #X Input:NORM RPM Norm Fcn:FN070MIS Y Input:NORM LOAD Norm Fcn:FN034MIS Units: LBF*FT 0-510 Resolution: 2 {7}
SYM 17C62 "WuyTbMISNMULT"                                                #Multiplier table, used for setting misfire thresholds for HDR hard accel channel. Table Size: 10X8 {7}
TAB 17C62 17CB1 :O10    #[O10 UY=flo(X/64)]                             #X Input:NORM RPM Norm Fcn:FN070MIS Y Input:NORM LOAD Norm Fcn:FN034MIS Units:UNITLESS 0-3.984375 Resolution: 0.015625 {7}
SYM 17E78 "wuyTbTR_TIP_RMP"                                              #Tipin torque ramp rate in torque ratios per second Table Size: 7X7 {7}
TAB 17E78 17EA8 :O 7 UY #[O 7 UY=flo(x*1)]                              #X Input:Unitless Norm Fcn:FNNR_TPRATE Y Input:Unitless Norm Fcn:FNNR_NOVS Units:[UNITLESS]/S 0-32 Resolution: 0.25{7}
SYM 17F0C "uyTbFRIC_TQ"                                                 #Friction TQ Loss Cold Modifier {7}
TAB 17F0C 17F2F :O6    #[O6 UY=flo(X/2)]                                #FNTQ_NORM_N/FN014> {7}



SYM 19584 "uyTbClock_Index"                                             #1.0 {2} SAME AS RZASA "S.0x1AC66" #[UW=flo(X*1)]  #TICKS  # {7}
#TAB 19584 19583 #:O ? UY #[O ? UY=flo(x*1)]                             #/> {2}


SYM 195EA "uyTbClock_Index"                                             #2.0 {2} SAME AS RZASA "S.0x1AD1E" {7}
#TAB 195EA 195E9 #:O ? UY #[O ? UY=flo(x*1)]                             #/> {2}
SYM 19650 "uyTbClock_Index"                                             #3.0 {2}
#TAB 19650 1964F #:O ? UY #[O ? UY=flo(x*1)]                             #/> {2}





################### COMMANDS ###########################

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args    0B786 0B78C: UW N : UW N : O 2 UY : UY                                        # COMPARES TO RZASA OBF6C
args    0B792 0B798: UW N : UW N : O 2 UY : UY                                        # COMPARES TO RZASA OBF78
args    0B79E 0B7A4: UW N : UW N : O 2 UY : UY                                        # COMPARES TO RZASA OBF84
args    0B7AA 0B7B0: UW N : UW N : O 2 UY : UY                                        # COMPARES TO RZASA OBF90

#SYN0ec43 "ER_DONE"         # 0x5f {7??}   L_0EC45 


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WOR 120C0 120C1                                                          # {7}
BYT 12430 12430                                                          # {7}
#WOR 12D00 12D01                                                          # {7}
BYT 134FE 13502                                                          # {7}
WOR 1351A 1352F
WOR 13530 13541
WOR 139DE 139E5
BYT 139E6 139EC
WOR 139FC 139FD





WOR 14362 1436B                                                          # {7}
BYT 144A5 144A9                                                          # {7}
BYT 144AD 144B5     #??                                                  # {7}
BYT 144B7 144BF                                                          # {7}
BYT 15E08 15E10                                                          # {7}
BYT 15EC4 15ED1                                                          # {7}
BYT 15F5A 15F5F                                                          # {7}
BYT 169F8 169F8                                                          # {7}
BYT 169FA 169FE                                                          # {7}
WOR 16A2E 16A2F                                                          # {7}
BYT 16A32 16A32                                                          # {7}

WOR 178BE 178D5 #:N                  #                                   # {7}

WOR 18710 188BD #:N                  #   DTC CODE MAP                    # {7}

BYT 188BE 188DA                                                          # {7}

STR 18908 18944 $Q1 :Y :WN                                              # L832BD ATOD Conversion Structure {0} {7}
STR 18945 1895A $Q1 :Y :WN                                              # L832BD ATOD Conversion Structure {0} {7}
STR 1895B 18961 $Q1 :Y :WN                                              # L832BD ATOD Conversion Structure {0} {7} 
STR 18962 18965 $Q1 :Y :WN                                              # L832BD ATOD Conversion Structure {0} {7}






VEC 19162 1919B :K0                                               # L0B333 {0}
VEC 193B2 1956B :K8                                               # L824E5 {0}
VEC 19570 19575 :K8
#VEC 193B2 19575 :K8                                               # L824E5 {0}
#WOR 194F8 19585 :N                  #                                   # {7}
WOR 19576 19577                                                   # {0}
VEC 19578 19583 :K8                                               # L087B9 {0}

VEC 197A4 197C1 :K0                                               # L0562B {0}


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args   855F8 855FE: UW N : UW N : O 2 UY : UY   # COMAPRES TO RZASA ARGS 8716e 87174
args   8ad62 8ad68: UW N : UW N : O 2 UY : UY 
args   8ad79 8ad7f: UW N : UW N : O 2 UY : UY 

WOR 8F6FC 8F70B                                                   # {0}

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############################# Subroutines ##############################


################################# BANK 0 SUBROUTINES #################################

Sub 02000 "Sub02000_Fail_Loop"                                             # {0}
SUB 02102 "Sxx02102_RZA02103"                                           # SAME AS RZASA Sub_02103     # {7}
SUB 0211C "Sxx0211C_RZA0211E"                                           # SAME AS RZASA Sub_0211E     # {7}
SUB 02136 "Sxx02136_RZA02139"                                           # SAME AS RZASA Sub_02139     # {7}
SUB 02150 "Sxx02150_RZA0216F"                                           # SAME AS RZASA Sub_0216F     # {7}
SUB 02195 "Sfg02195_RZA87C27_??_12.4.1.1_IGNDI_FG_EXEC"                 # SAME AS RZASA Sub_87C27     #12.4.1.1  Igndi_fg_exec CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-281 {7}
SUB 021A4 "Sxx021A4_RZAxxxxx_12.4.1.2_DOC_IDM_UP_EVENT"                 # SAME AS RZASA Sub_87C27     #12.4.1.2  Doc_idm_up_event CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-282 {7}
SUB 021C1 "Sxx021C1_RZA024B7"                                           # SAME AS RZASA Sub_024B7     # {7}
SUB 021CC "Sxx021CC_RZA024C2"                                           # SAME AS RZASA Sub_024C2     # {7}
SUB 021D3 "Sxx021D3_RZA024CA"                                           # SAME AS RZASA Sub_024CA     # {7}
SUB 022AC "Sxx022AC_RZA0252B_"                                          # SAME AS RZASA Sub_0252B     # {7}
SUB 022CD "Sxx022CD_RZAxxxxx_34.1.12.1_CCC_UPSHIFT_REPEAT_??"           # SAME AS RZASA Sub_0252B     #34.1.12.1  Ccc_upshift_repeat CONVERTER CLUTCH CONTROL, SHIFTING TORQUE CAPACITY CALCULATION - CRAI8 34-60 (END L_022F8) {7}
SUB 02384 "Sfg02384_RZAxxxxx_12.3.2.1_SPKIO_EXEC_1MS"                   # SAME AS RZASA Sub_xxxxx     #12.3.2.1  Spkio_exec_1ms IGNITION TIMING STRATEGY, FOREGROUND EXECUTIVE - CRAI8 12-201 {7}
SUB 023A6 "Sfg023A6_RZA0260D_12.3.2.7_SPKIO_EXEC_PIP"                   # SAME AS RZASA Sub_0260D     #12.3.2.7  Spkio_exec_pip IGNITION TIMING STRATEGY, FOREGROUND EXECUTIVE - CRAI8 12-203 {7}
SUB 023DF "Sxx023DF_RZAxxxxx_27.1.1.2_RIDE_CONTROL_OUTPUT_???"              # SAME AS RZASA Sub_xxxxx     #27.1.1.2  Ride_control_output RIDE CONTROL STRATEGY, RIDE CONTROL STRATEGY - CRAI8 27-7 {7}
SUB 024A8 "Sxx024A8_RZAxxxxx_26.1.4.1_DOL_REPEAT"                       # SAME AS RZASA Sub_xxxxx     #26.1.4.1  Dol_repeat DATA OUTPUT LINK, REPEAT DOL COMMAND - CRAI8 {7}
SUB 024BF "Sxx024BF_RZAxxxxx_9.7.16.1_RF_MAIN"                          # SAME AS RZASA Sub_xxxxx     #9.7.16.1  Rf_main  FUEL PUMP, RETURNLESS FUEL PUMP - CRAI8 9-140 {7} 
SUB 024CA "Sxx024CA_RZAxxxxx_9.7.16.2_RF_TIME_CONTROL"                  # SAME AS RZASA Sub_xxxxx     #9.7.16.2  Rf_time_control FUEL PUMP, RETURNLESS FUEL PUMP - CRAI8 9-140 {7}
SUB 024E5 "Sxx024E5_RZAxxxxx_9.7.16.3_RF_CONTROL_MAIN"                  # SAME AS RZASA Sub_xxxxx     #9.7.16.3  Rf_control_main FUEL PUMP, RETURNLESS FUEL PUMP - CRAI8 9-141 {7}
SUB 02543 "Sxx02543_RZAxxxxx_9.7.16.4_RF_PREP_FOR_NEXT_PASS"            # SAME AS RZASA Sub_xxxxx     #9.7.16.4  Rf_prep_for_next_pass FUEL PUMP, RETURNLESS FUEL PUMP - CRAI8 9-143 {7}
SUB 02563 "Sxx02563_RZA0D4BC_9.7.16.5_RF_CLOSED_LOOP_MODE"              # SAME AS RZASA Sub_0D4BC     #9.7.16.5  Rf_closed_loop_mode FUEL PUMP, RETURNLESS FUEL PUMP - CRAI8 9-143 {7}
SUB 0273A "Sxx0273A_RZA92128_WAIT_HERE_FOR_IRF_DP_ACTUAL_A-TO-D_TO_COMPUTE"# SAME AS RZASA Sub_92128   #/* SOFTWARE NOTE: Wait here for irf_dpactual A-to-D to complete. */ USDE IN FUEL PUMP CONTROL 9-143, 9-141 {7}
SUB 0276B "Sxx0276B_RZAxxxxx_9.7.15.1_FP_OUTPUT_MAIN"                   # SAME AS RZASA Sub_xxxxx     #9.7.15.1  Fp_output_main FUEL PUMP, FUEL PUMP DRIVER PROTOCOL - CRAI8 9-129 {7}
SUB 02866 "Sxx02866_RZA02739"                                           # SAME AS RZASA Sub_02739     # {7}
SUB 028DB "Sxx028DB_RZA027E4"                                            # SAME AS RZASA Sub_027E4     # {7}
SUB 02949 "Sxx02AEB_RZAxxxxx_29.2.2.1_TQMOD_FG_??"                         # SAME AS RZASA Sub_xxxxx     #29.2.2.1  Tqmod_fg TORQUE MODULATION, TORQUE MODULATION FOREGROUND CONTROL - CRAI8 29-111 {7}
SUB 02AD3 "Sxx02AD3_RZAxxxxx"                                           # SAME AS RZASA Sub_xxxxx     # {7}
SUB 02AEB "Sxx02AEB_RZAxxxxx"                                           # SAME AS RZASA Sub_xxxxx     # {7}
SUB 02AEE "Sfg02AEE_RZA02858_26.1.1.5_DOL_EXEC_16ms_??" #MAYBE 16ms_REPEATER??                  # SAME AS RZASA Sub_02858     #26.1.1.5  Dol_exec_16ms DATA OUTPUT LINK,  FOREGROUND EXECUTION LOGIC- CRAI8 26-3 {7}
SUB 02AF0 "Sfg02AF0_RZA02860_26.1.1.4_DOL_EXEC_8ms_??"                  # SAME AS RZASA Sub_02860     #26.1.1.4  Dol_exec_8ms DATA OUTPUT LINK,  FOREGROUND EXECUTION LOGIC- CRAI8 26-3 {7}
SUB 02BA6 "Sfg02BA6_RZAxxxxx_12.3.2.7_SPKIO_EXEC_PIP"                   # SAME AS RZASA Sub_xxxxx     #12.3.2.7  Spkio_exec_pip IGNITION TIMING STRATEGY, FOREGROUND EXECUTIVE - CRAI8 12-203 {7}
SUB 02BE4 "Sxx02BE4_RZA02C07"                                           # SAME AS RZASA Sub_02C07     # {7}
SUB 02C08 "Sxx02C08_RZA02C70"                                           # SAME AS RZASA Sub_02C70     # {7}
Sub 02C17 "Sub02C17"                                                       # {0}

SUB 02C72 "Sfg02C72_RZA02CDE_26.1.1.3_DOL_EXEC_4ms_??"                  # SAME AS RZASA Sub_02CDE     #26.1.1.3  Dol_exec_4ms DATA OUTPUT LINK,  FOREGROUND EXECUTION LOGIC- CRAI8 26-2 {7}
SUB 02CDF "Sxx02CDF_RZA02C60"                                           # SAME AS RZASA Sub_02C60     # {7}
SUB 02D24 "Sfg02D24_RZA02D5B_26.1.1.2_DOL_EXEC_2ms_??"                   # SAME AS RZASA Sub_02D5B     #26.1.1.2  Dol_exec_2ms DATA OUTPUT LINK,  FOREGROUND EXECUTION LOGIC- CRAI8 26-2 {7}
SUB 02D41 "Sxx02D41_RZA02D78"                                           # SAME AS RZASA Sub_02D78     # {7}

SUB 02D58 "Sxx02D58_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 02D6A "Sxx02D6A_RZAxxxxx_12.4.1.11_DETERMINE_PRIMARY_COIL"          # SAME AS RZASA Sub_xxxxx    #12.4.1.11  Determine_primary_coil CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-287 {7} 

SUB 02D8C "Sxx02D8C_RZA02D8F_??"                                          # SAME AS RZASA Sub_02D8F OR 92CAC_??     # {7}
SUB 02D96 "Sxx02D96_RZA02D99_??_ROLAV_TC_??"                            # SAME AS RZASA Sub_02D99 OR 92CB6_??    # {7}
SUB 02D9A "Sxx02D9A_RZA92CBA_??"                                        # SAME AS RZASA Sub_92CBA_??     # {7}
SUB 02DC5 "Sxx02DC5_RZA92CE5_??"                                        # SAME AS RZASA Sub_02DC8 OR 92CE5_??     # {7}
SUB 02DDB "Sxx02DDB_RZA02DDE_15.1.3.2_PIP_EXEC_PIP"                     # SAME AS RZASA Sub_02DDE     #15.1.3.2  Pip_exec_pip RPM PROCESSING, PIP FOREGROUND INPUT ROUTINE - CRAI8 15-5 {7}

SUB 02E31 "Sxx02E31_RZAxxxxx_15.1.3.3_VALID_LOW_PIP_PROC"               # SAME AS RZASA Sub_xxxxx     #15.1.3.3  Valid_low_pip_proc RPM PROCESSING, PIP FOREGROUND INPUT ROUTINE - CRAI8 15-6 {7}
SUB 02EDB "Sxx02EDB_RZAxxxxx_12.2.7.4_SPKKC_KNK_SEND_KNOCK_WINDOW"      # SAME AS RZASA Sub_xxxxx     #12.2.7.4  Spkkc_knk_send_knock_window KNOCK CONTROL, KNOCK CONTROL STRATEGY - CRAI8 12-153 {7}
SUB 0313F "Sxx0313F_RZAxxxxx"                                           # SAME AS RZASA Sub_xxxxx     # {7}
SUB 0315A "Sxx0315A_RZA87AF0_12.4.1.8_CALC_IDM_TO_PIP_TIME"             # SAME AS RZASA Sub_87AF0     #12.4.1.8  Calc_idm_to_pip_time CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-285 {7}
SUB 0318C "Sxx0318C_RZAxxxxx_12.4.1.6_FGPIPTST"                         # SAME AS RZASA Sub_xxxxx     #12.4.1.6  Fgpiptst CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-284 {7}

SUB 031BA "Sxx031BA_RZAxxxxx_12.4.1.7_IDM_RLBLTY_CHK"                   # SAME AS RZASA Sub_xxxxx     #12.4.1.7  Idm_rlblty_chk CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-284 {7}
SUB 031D5 "Sxx031D5_RZAxxxxx_12.4.1.10_COIL_OK_CTR_CHK"                 # SAME AS RZASA Sub_xxxxx     #12.4.1.10  Coil_ok_ctr_chk CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-286 {7}
SUB 0320F "Sxx0320F_RZAxxxxx_12.4.1.9_FGCOILIDM"                        # SAME AS RZASA Sub_xxxxx     #12.4.1.9  Fgcoilidm CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-285 {7}
SUB 0325C "Sxx0325C_RZAxxxxx_12.2.7.7_SPKKC_KNK_RETARD_LOGIC"           # SAME AS RZASA Sub_xxxxx     #12.2.7.7  Spkkc_knk_retard_logic KNOCK CONTROL, KNOCK CONTROL STRATEGY - CRAI8 12-156 {7}

SUB 03345 "Sxx03345_RZAxxxxx_12.2.13.3_SPKKC_WINDOW_OUT"                # SAME AS RZASA Sub_xxxxx     #12.2.13.3  Spkkc_window_out KNOCK CONTROL, KNOCK CONTROL STRATEGY - FOREGROUND - CRAI8 12-180 {7} 
SUB 03366 "Sxx03366_RZAxxxxx"                                           # SAME AS RZASA Sub_xxxxx     # {7}
SUB 033D4 "Sxx033D4_RZAxxxxx"                                           # SAME AS RZASA Sub_xxxxx     # {7}
SUB 03437 "Sxx03437_RZAxxxxx"                                           # SAME AS RZASA Sub_xxxxx     # {7}
SUB 03445 "Sxx03445_RZA034B1_subr_aice_fg_mwr"                          # SAME AS RZASA Sub_034B1     # {7} (subr_aice_fg_mwr_???)
SUB 03464 "Sxx03464_RZA034ED_9.10.2.1_ISYNC_CID_SYNC"                   # SAME AS RZASA Sub_034ED     #9.10.2.1  Isync_cid_sync FUEL STRATEGY, DIS INJECTOR SYNCHRONIZATION - CRAI8 9-386 {7}
SUB 034C7 "Sxx034C7_RZA04D6For03604_??_9.10.1.2_ISYNC_PIP_HIGH_INT_SYNC"# SAME AS RZASA Sub_04D6F OR 03604_??    #9.10.1.2  Isync_pip_high_int_sync FUEL STRATEGY, PIP INTERRUPT LOGIC FOR FUEL SYNCHRONIZATIO - CRAI8 9-382 {7}
SUB 03502 "Sfg03502_RZAxxxxx_15.1.3.3_VALID_LOW_PIP_PROC"               # SAME AS RZASA Sub_xxxxx     #15.1.3.3  Valid_low_pip_proc RPM PROCESSING, PIP FOREGROUND INPUT ROUTINE - CRAI8 15-6 {7}
SUB 0350D "Sfg0350D_RZAxxxxx_12.1.21.7_SPKTM_EXEC_PIP"                  # SAME AS RZASA Sub_xxxxx     #12.1.21.7  Spktm_exec_pip IGNITION TIMING, FOREGROUND EXEC - CRAI8 12.90 {7}
SUB 03526 "Sxx03526_RZAxxxxx_12.1.22.1_SPKTM_SYNC_CTR_MAIN"             # SAME AS RZASA Sub_xxxxx     #12.1.22.1  Spktm_sync_ctr_main IGNITION TIMING, SPARK SYNC_CTR LOGIC - CRAI8 12-93 {7}
SUB 0353C "Sfg0353C_RZAxxxxx_12.1.24.1_SPKTM_TP_TIPIN_FG_MAIN"          # SAME AS RZASA Sub_xxxxx     #12.1.24.1  Spktm_tp_tipin_fg_main IGNITION TIMING, TIP IN RETARD LOGIC - FOREGROUND - CRAI8 12.101 {7}
SUB 035A0 "Sfg035A0_RZAxxxxx_12.1.23.1_SPKTM_AIR_CHG_TIPIN_FG_MAIN"     # SAME AS RZASA Sub_xxxxx     #12.1.23.1  Spktm_air_chg_tipin_fg_main IGNITION TIMING, TRANSIENT SPARK FOR DETONATION PREVENTIO - CRAI8 12-96 {7}
SUB 0369B "Sxx0369B_RZAxxxxx_12.1.25.1_SPKTM_SAFTOT_MAIN"               # SAME AS RZASA Sub_xxxxx     #12.1.25.1  Spktm_saftot_main IGNITION TIMING, SAFTOT CALCULATION - CRAI8 12-105 {7}
SUB 03757 "Sxx03757_RZA039B2_12.3.5.1_SPKIO_SPI_EXEC_MAIN"              # SAME AS RZASA Sub_039B2     #12.3.5.1  Spkio_spi_exec_main IGNITION TIMING STRATEGY, EDIS SPI INTERFACE EXECUTIVE - CRAI8 12-226 {7}
SUB 037F2 "Sxx037F2_RZAxxxxx_12.3.6.1_SPKIO_EDIS_COMMAND_MAIN"          # SAME AS RZASA Sub_xxxxx     #12.3.6.1  Spkio_edis_command_main IGNITION TIMING STRATEGY, SPI COMMANDING- CRAI8 12-232 {7}
SUB 0393A "Sxx0393A_RZA03B72_12.3.7.1_SPKIO_SPI_TRANSFER_MAIN"          # SAME AS RZASA Sub_03B72     #12.3.7.1  Spkio_spi_transfer_main IGNITION TIMING STRATEGY, EDIS SPI TRANSFER - CRAI8 12-249 {7}
SUB 03988 "Sxx03988_RZA03BC1_12.3.8.1_SPKIO_EDIS_DECODE_MAIN"           # SAME AS RZASA Sub_03BC1     #12.3.8.1  Spkio_edis_decode_main IGNITION TIMING STRATEGY, SPI DECODING- CRAI8 12-255 {7}

SUB 03A23 "Sxx03A23_RZAxxxxx_12.3.8.2_SPKIO_DECODE_STATUS"              # SAME AS RZASA Sub_xxxxx     #12.3.8.2  Spkio_decode_status IGNITION TIMING STRATEGY, SPI DECODING- CRAI8 12-258 {7}

SUB 03AEF "Sxx03AEF_RZAxxxxx_12.3.3.1_SPKIO_HIGH_DATA_RATE_MAIN_1"      # SAME AS RZASA Sub_xxxxx     #12.3.3.1  Spkio_high_data_rate_main_1 IGNITION TIMING STRATEGY, HIGH DATA RATE ELECTRONIC SPARK - CRAI8 12-211 {7}
SUB 03B34 "Sxx03B34_RZAxxxxx_12.3.3.2_SPKIO_STD_SAPW_TRANS_FUNCTION"    # SAME AS RZASA Sub_xxxxx     #12.3.3.2  Spkio_std_sapw_trans_function IGNITION TIMING STRATEGY, HIGH DATA RATE ELECTRONIC SPARK - CRAI8 12-216 {7}
SUB 03B61 "Sxx03B61_RZAxxxxx_12.3.3.3_SPKIO_V10_SAPW_TRANS_FUNCTION"    # SAME AS RZASA Sub_xxxxx     #12.3.3.3  Spkio_v10_sapw_trans_function IGNITION TIMING STRATEGY, HIGH DATA RATE ELECTRONIC SPARK - CRAI8 12-217 {7}
SUB 03D3F "Sxx03D3F_RZAxxxxx_12.3.4.1_SPKIO_HIGH_DATA_RATE_MAIN_2"      # SAME AS RZASA Sub_xxxxx     #12.3.4.1  Spkio_high_data_rate_main_2 IGNITION TIMING STRATEGY, HIGH DATA RATE ELECTRONIC SPARK- CRAI8 12-222 {7}
SUB 03D7F "Sxx03D7F_RZA04E24_"                                          # SAME AS RZASA Sub_04E24     # {7}
SUB 03DFD "Sfg03DFD_RZAxxxxx_21.1.3.1_AIR_MAFS_DIAG_FOREGROUND"         # SAME AS RZASA Sub_xxxxx     #21.1.3.1  Air_mafs_diag_foreground AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - FOREGROUND - CRAI8 21-6 {7}
SUB 03E1E "Sxx03E1E_RZAxxxxx_21.1.4.1_AIR_MASS_INTEGRATION"             # SAME AS RZASA Sub_xxxxx     #21.1.4.1  Air_mass_integration AIR CHARGE CALCULATION, AIR MASS INTEGRATION - CRAI8 21-11 {7}

SUB 04035 "Sxx04035_RZA054D3"                                           # SAME AS RZASA Sub_054D3     # {7}

SUB 0405A "Sxx0405A_RZAxxxxx_9.6.2.1_FUEL_TRANSIENT_FG_CALCULATIONS"    # SAME AS RZASA Sub_xxxxx     #9.6.2.1  Fuel_transient_fg_calculations FUEL STRATEGY, FOREGROUND TRANSIENT FUEL LOGIC - CRAI8 9-76 {7}
SUB 0415D "Sfg0415D_RZAxxxxx_9.11.6.1_FUEL_FG_CALC"                     # SAME AS RZASA Sub_xxxxx     #9.11.6.1  Fuel_fg_calc FUEL CONTROL STRATEGY, FUEL PULSEWIDTH , FOREGROUND FUEL - CRAI8 9-419 {7}
SUB 044BD "Sfg044BD_RZAxxxxx_9.11.7.1_FGFPW_TOTAL_DELAY_CALC"           # SAME AS RZASA Sub_xxxxx     #9.11.7.1  Fgfpw_total_delay_calc FUEL STRATEGY, FOREGROUND INJECTOR TIMING - TOTAL DELAY - CRAI8 9-426 {7}
SUB 0455A "Sxx0455A_RZA056E9"                                           # SAME AS RZASA Sub_056E9     # {7}
SUB 0462C "Sxx0462C_RZAxxxxx"                   # SAME AS RZASA Sub_xxxxx     #
SUB 04669 "Sxx04669_RZA054F8"                                           # SAME AS RZASA Sub_054F8     # {7}
SUB 04682 "Sxx04682_RZA05AFF_??"                                            # SAME AS RZASA Sub_05AFF     # {7}
SUB 0474F "Sfg0474F_RZA05BAC_9.11.9.1_FUEL_MAIN_OFF"                    # SAME AS RZASA Sub_05BAC     #9.11.9.1  Fuel_main_off FOREGROUND FUEL, FUEL PULSEWIDTH , MAIN FUEL OFF - CRAI8 9-438 {7}
SUB 04833 "Sxx04833_RZA05EB7_9.11.10.1_FUEL_INJ_UPDATE_REQUEST"         # SAME AS RZASA Sub_05EB7     #9.11.10.1  Fuel_inj_update_request FUEL STRATEGY, FUEL PULSEWIDTH, INJECTOR UPDATE REQUEST - CRAI8 9-443 {7}
SUB 048DA "Sxx048DA_RZA05F4A"                                           # SAME AS RZASA Sub_05F4A     # {7}
SUB 048DF "Sxx048DF_RZA05F50"                                           # SAME AS RZASA Sub_05F50     # {7}
SUB 048E5 "Sxx048E5_RZA05F57"                                           # SAME AS RZASA Sub_05F57     # {7}
SUB 048EB "Sxx048EB_RZA05F5E"                                           # SAME AS RZASA Sub_05F5E     # {7}
SUB 048F1 "Sxx048F1_RZA05F65"                                           # SAME AS RZASA Sub_05F65     # {7}
SUB 048F7 "Sxx048F7_RZA05F6C"                                           # SAME AS RZASA Sub_05F6C     # {7}
SUB 048FD "Sxx048FD_RZA05F73"                                           # SAME AS RZASA Sub_05F73     # {7}
SUB 04903 "Sxx04903_RZA05F7A"                                           # SAME AS RZASA Sub_05F7A     # {7}
SUB 04909 "Sxx04909_RZA05F81"                                           # SAME AS RZASA Sub_05F81     # {7}
#SUB 0490F "Sxx0490F_RZA05F88"                                           # SAME AS RZASA Sub_05F88     # {7}
SUB 04917 "Sbg04917_RZA05F91_9.11.11.1_FGFUL_BG_LONG_PULSE"             # SAME AS RZASA Sub_05F91     #9.11.11.1  Fgful_bg_long_pulse FUEL STRATEGY, OSC FUEL CONTROL LOGIC - CRAI8 9-446 {7}
SUB 04921 "Sxx04921_RZAxxxxx_9.12.1.1_DYNPW_CALC"                       # SAME AS RZASA Sub_xxxxx     #9.12.1.1  Dynpw_calc FUEL STRATEGY, CALCULATE DYNAMIC FUEL CORRECTION - CRAI8 9-450 {7}
#SUB 04934 "Sxx04934_RZA05FD3_PART_OF_9.12.1.1_DYNPW_CALC"                                           # SAME AS RZASA Sub_05FD3     # {7}
SUB 04A76 "Sxx04A76_RZAxxxxx_9.12.3.1_DYNPW_OFF"                        # SAME AS RZASA Sub_xxxxx     #9.12.3.1  Dynpw_off FUEL CONTROL STRATEGY, SCHEDULE FUELPULSE OFF_EDGE - CRAI8 9-458 {7}
SUB 04AFC "Sxx04AFC_RZA1DB02_6.1.1.1_ANTI_THEFT_INIT"                   # SAME AS RZASA Sub_1DB02     #6.1.1.1  Anti_theft_init ANTI-THEFT, PASSIVE ANTI THEFT - CRAI8 6-13 {7}
SUB 04BC4 "Sxx04BC4_RZAxxxxx_6.1.1.2_ANTI_THEFT_CONTROLLER"             # SAME AS RZASA Sub_xxxxx     #6.1.1.2  Anti_theft_controller ANTI-THEFT, PASSIVE ANTI THEFT - CRAI8 6-14 {7}

SUB 04DB0 "Sxx04DB0_RZAxxxxx_6.1.2.3_ANTI_TX_PCM_ID"                    # SAME AS RZASA Sub_xxxxx     #6.1.2.3  Anti_tx_pcm_id ANTI-THEFT, PCM ID TRANSFER - CRAI8 6-28 {7}


SUB 04E2A "Sxx04E2A_RZAxxxxx_6.1.2.4_ANTI_VERIFY_PCM_ID"                # SAME AS RZASA Sub_xxxxx     #6.1.2.4  Anti_verify_pcm_id ANTI-THEFT, PCM ID TRANSFER - CRAI8 6-29 {7}
SUB 04E67 "Sxx04E57_RZAxxxxx_6.1.2.6_ANTI_CALC_VERIF_RESP"              # SAME AS RZASA Sub_xxxxx     #6.1.2.6  Anti_calc_verif_resp ANTI-THEFT, PCM ID TRANSFER - CRAI8 6-30 {7}
SUB 04EB8 "Sxx04EB8_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0509F "Sxx0509F_RZAxxxxx_"#6.1.1.8_ANTI_THEFT_RANDOM"                 # SAME AS RZASA Sub_xxxxx     #6.1.1.8  Anti_theft_random ANTI-THEFT, PASSIVE ANTI THEFT - CRAI8 6-20 {7}
SUB 050DE "Sxx050DE_RZAxxxxx_6.1.1.9_ANTI_ALGO_2"                       # SAME AS RZASA Sub_xxxxx     #6.1.1.9  Anti_algo_2 ANTI-THEFT, PASSIVE ANTI THEFT - CRAI8 6-21 {7}
SUB 0512C "Sxx0512C_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0513F "Sxx0513F_RZA1B497_6.1.1.8_ANTI_THEFT_RANDOM"                 # SAME AS RZASA Sub_1B497     #6.1.1.8  Anti_theft_random ANTI-THEFT, PASSIVE ANTI THEFT - CRAI8 6-20 {7}

SUB 05189 "Sxx05189_RZA061AA"                                           # SAME AS RZASA Sub_061AA     # {7}
SUB 051A4 "Sxx051A4_RZA061C5"                                           # SAME AS RZASA Sub_061C5     # {7}

SUB 05255 "Sxx05255_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
#SUB 05255 "Sxx05255_RZA06277"                                           # SAME AS RZASA Sub_06277     # {7}

SUB 052D3 "Sxx052D3_RZA062F5_5.1.4.1_INITIALIZE_EBC"                    # SAME AS RZASA Sub_062F5     #5.1.4.1  Initialize_ebc SCP INTERFACES, EBC INITIALIZATION - CRAI8 5-18 {7}
SUB 0532E "Sxx0532E_RZAxxxxx_CONFIGURE_EBC_???"                         # SAME AS RZASA Sub_xxxxx     #CALLED FOR UNDER 5.1.4  EBC INITIALIZATION SCP INTERFACES, EBC INITIALIZATION - CRAI8 5-19 {7}
SUB 05392 "Sbg05392_RZAxxxxx_5.1.2.1_SCP_BKGND"                         # SAME AS RZASA Sub_xxxxx     #5.1.2.1  Scp_bkgnd SCP INTERFACES, SCP BACKGROUND - CRAI8 5-8 {7}
SUB 054CE "Sbg054CE_RZAxxxxx_ODU_LOADED_CODE_STUB"                      # SAME AS RZASA Sub_xxxxx     #The odu_loaded_code_stub function represents the link from the EEC to any downloaded program CRAI8 5-10 {7}

SUB 054E1 "Sxx054E1_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 05500 "Sxx05500_RZA06605_5.1.5_LOAD_TRANSMIT_BUFFER"                # SAME AS RZASA Sub_06605     #5.1.5  LOAD TRANSMIT BUFFER SCP INTERFACES, LOAD TRANSMIT BUFFER - CRAI8 5-20 {7}

SUB 055E6 "Sxx055E6_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 055EC "Sxx055EC_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0563A "Sxx0563A_RZA0673F"                                           # SAME AS RZASA Sub_0673F     # {7}
SUB 0572A "Sxx0572A_RZA06881"                                           # SAME AS RZASA Sub_06881     # {7}
SUB 057E9 "Sxx057E9_RZAxxxxx_5.1.6.20_REQUEST_MIL_CODES"                #                             #5.1.6.20  Request_mil_codes SCP INTERFACES, OBDII DIAGNOSTIC MESSAGE LOGIC - CRAI8 5-72 {7}
SUB 0592F "Sxx0592F_RZA069ED_5.1.6.19_REQUEST_DMR_ACCESS"               # SAME AS RZASA L_069ED       #5.1.6.19  Request_dmr_access SCP INTERFACES, OBDII DIAGNOSTIC MESSAGE LOGIC - CRAI8 5-69 {7}
SUB 05CCA "Sxx05CCA_RZAxxxxx_5.1.6.4_DIAGNOSTIC_ROUTINE_ENTRY"          # SAME AS RZASA Sub_xxxxx     #5.1.6.4  Diagnostic_routine_entry SCP INTERFACES, OBDII DIAGNOSTIC MESSAGE LOGIC - CRAI8 5-50 {7}
SUB 05D17 "Sxx05D17_RZAxxxxx_5.1.6.5_DIAGNOSTIC_ROUTINE_EXIT"           # SAME AS RZASA Sub_xxxxx     #5.1.6.5  Diagnostic_routine_exit SCP INTERFACES, OBDII DIAGNOSTIC MESSAGE LOGIC - CRAI8 5-51 {7}



SUB 05EE9 "Sxx05EE9_RZAxxxxx_5.1.6.21_REQUEST_NO_CODES_LOGGING"         # SAME AS RZASA Sub_xxxxx     #5.1.6.21  Request_no_codes_logging SCP INTERFACES, OBDII DIAGNOSTIC MESSAGE LOGIC - CRAI8 5-72 {7}
SUB 05FF0 "Sxx05FF0_RZA0711B_5.1.8.1_SCP_REPORT_MODE8_CONTROL"          # SAME AS RZASA Sub_0711B     #5.1.8.1  Scp_report_mode8_control SCP INTERFACES, REPORT MODE 08 CONTROL - CRAI8 5-118 {7}
SUB 05FF8 "Sxx05FF8_RZA07123_??"                                           # SAME AS RZASA Sub_07123     # {7}
SUB 0605B "Sxx0605B_RZA07186_??_COMPILE_GENERAL_SCP_RESPONSE_??"        # SAME AS RZASA Sub_07186     #SEEMS TO COMPILE THE SCP RESPONSE MESSAGE BEFORE SENDING {7}
SUB 06099 "Sxx06099_RZA071C4"                                           # SAME AS RZASA Sub_071C4     # {7}
SUB 06149 "Sxx06149_RZA07295"                                           # SAME AS RZASA Sub_07295     # {7}
SUB 0618F "Sxx0618F_RZA07317"                                           # SAME AS RZASA Sub_07317     # {7}
SUB 061A9 "Sxx061A9_RZA07331_SCP_SEND"                                  # SAME AS RZASA Sub_07331     # SCP_SEND COMMAND {7}
SUB 061EE "Sxx061EE_RZA07376_READ_IR1_IR2_???"                          # SAME AS RZASA Sub_07389     #CRAI8 5-14 {7}
SUB 06201 "Sxx06201_RZA07389_CLEAR_IR1_IR2_???"                         # SAME AS RZASA Sub_07389     #CRAI8 5-14 {7}
SUB 06208 "Sxx06208_RZA07390_OSC_RESPONSE_??"                           # SAME AS RZASA Sub_07390     # {7}
SUB 0625C "Sxx0625C_RZA073E4_5.1.10.1_SCP_STUB_PARAMETERS"              # SAME AS RZASA Sub_073E4     #5.1.10.1  Scp_stub_parameters STANDARD CORPORATE PROTOCOL, STUBS FOR COMMON INTERFACING - CRAI8 5-122 {7}
SUB 0629C "Sxx0629C_RZAxxxxx_5.3.1.1_SCP_PID_PID_DEFS_                  # SAME AS RZASA Sub_xxxxx     #5.3.1.1  Scp_pid_pid_defs SCP PIDS, SCP PID LIST - CRAI8 5-249 {7}
SUB 06341 "Sxx06341_RZAxxxxx_5.2.20.1_SCP_TX_COUNTRY_CODE_CTL"          # SAME AS RZASA Sub_xxxxx     #5.2.20.1  Scp_tx_country_code_ctrl SCP INTERFACES, CONTROL COUNTRY CODE STATUS MESSAGE - CRAI8 5-174 {7}
SUB 066C5 "Sxx066C5_RZA07434_5.1.6.25_TRANSFORM_SEED"                   # SAME AS RZASA Sub_07434     #5.1.6.25  Transform_seed SCP INTERFACES, OBDII DIAGNOSTIC MESSAGE LOGIC - CRAI8 5-80 {7}

SUB 066E7 "Sxx066E7_RZA07456_5.2.1.1_SCP_FR_VEH_SPEED"                  # SAME AS RZASA Sub_07456     #5.2.1.1  Scp_fr_veh_speed SCP INTERFACES, FUNCTION READ VEHICLE SPEED MESSAGE - CRAI8 5-124 {7}
SUB 06714 "Sxx06714_RZA07482_5.2.2_FUNCTION_READ_VEHICLE_SPEED_MESSAGE" # SAME AS RZASA Sub_07482     #5.2.2  FUNCTION READ VEHICLE SPEED MESSAGE (CRAE0) SCP INTERFACES, FUNCTION READ VEHICLE SPEED MESSAGE - CRAI8 5-125 {7}
SUB 0673C "Sxx0673C_RZA074E5_5.2.3_RECEIVE_A/C_CLUTCH_REQUIRED_COMMAND_MESSAGE"# SAME AS RZASA Sub_074E5     #5.2.3  RECEIVE A/C CLUTCH REQUIRED COMMAND MESSAGE (CRAH0) SCP INTERFACES, RECEIVE A/C CLUTCH REQUIRED COMMAND MESSAGE - CRAI8 5-128 {7}
SUB 0676C "Sxx0676C_RZA07524_5.2.4_RECEIVE_BRAKE_SYSTEM_DATA_MESSAGE"  # SAME AS RZASA Sub_07524     #5.2.4  RECEIVE BRAKE SYSTEM DATA MESSAGE (CRAI4) STANDARD CORPORATE PROTOCOL, RECEIVE BRAKE SYSTEM DATA MESSAGE - CRAI8 5-131 {7}
SUB 067E1 "Sxx067E1_RZA0758D_5.2.5_RECEIVE_COUNTRY_CODE_REQUEST_MESSAGE"# SAME AS RZASA Sub_0758D    #5.2.5  RECEIVE COUNTRY CODE REQUEST MESSAGE (CRAEA) SCP INTERFACES, RECEIVE COUNTRY CODE REQUEST MESSAGE - CRAI8 5-133 {7}
SUB 067F3 "Sxx067F3_RZA07524_5.2.6_RECEIVE_DESIRED_TORQUE_COMMAND_MESSAGE"# SAME AS RZASA Sub_07524     #5.2.6  RECEIVE DESIRED TORQUE COMMAND MESSAGE (CRAEA) SCP INTERFACES, RECEIVE DESIRED TORQUE COMMAND MESSAGE - CRAI8 5-135 {7}
SUB 0685B "Sxx0685B_RZAxxxxx_5.2.7.1_SCP_RX_ECT_RQST"                  # SAME AS RZASA Sub_xxxxx     #5.2.7.1  Scp_rx_ect_rqst  SCP INTERFACES, RECEIVE ECT REQUEST MESSAGE - CRAI8 5-140 {7}
SUB 06881 "Sxx06881_RZAxxxxx_5.2.8.1_SCP_RX_ENGINE_CONFIG_RQST"        # SAME AS RZASA Sub_xxxxx     #5.2.8.1  Scp_rx_engine_config_rqst SCP INTERFACES, RECEIVE ENGINE CONFIGURATION STATUS REQUEST - CRAI8 5-142 {7}
SUB 06893 "Sbg06893_RZA07615_5.2.9.1_SCP_RX_FUEL_LEVEL_STAT_BKGND"     # SAME AS RZASA Sub_07615     #5.2.9.1  Scp_rx_fuel_level_stat_bkgnd SCP, BKGND PROCESS FOR BOO STATUS MESSAGE - CRAI8 5-144 {7}
SUB 068CF "Sxx068CF_RZA07650_5.2.10.1_SCP_RX_FUEL_LEVEL_STATUS"        # SAME AS RZASA Sub_07650     #5.2.10.1  Scp_rx_fuel_level_status SCP INTERFACES, FUEL LEVEL PERCENT STATUS MESSAGE - CRAI8 5-146 {7}
SUB 0692E "Sxx0692E_RZA076A4_5.2.11.1_SCP_RX_IGN_SWITCH_POS"           # SAME AS RZASA Sub_076A4     #5.2.11.1  Scp_rx_ign_switch_pos SCP INTERFACES, RECEIVE IGNITION SWITCH POSITION - CRAI8 5-150 {7}
SUB 06957 "Sxx06957_RZAxxxxx_5.2.12.1_SCP_RX_MIL_OR_OD_RQST"           # SAME AS RZASA Sub_xxxxx     #5.2.12.1  Scp_rx_mil_or_od_rqst STANDARD CORPORATE PROTOCOL, RECEIVE MIL TELLTALE REQUEST MESSAGE - CRAI8 5-152 {7}
SUB 0697D "Sxx0697D_RZAxxxxx_5.2.13.1_SCP_RX_TRANSM_STATUS_RQST"       # SAME AS RZASA Sub_xxxxx     #5.2.13.1  Scp_rx_transm_status_rqst STANDARD CORPORATE PROTOCOL, RECEIVE TRANSM STATUS REQUEST MESSAGE - CRAI8 5-154 {7}
SUB 069A7 "Sxx069A7_RZAxxxxx_5.2.14.1_SCP_RX_VEH_SPEED_CTRL_DATA"      # SAME AS RZASA Sub_xxxxx     #5.2.14.1  Scp_rx_veh_speed_ctrl_data  SCP INTERFACES, RECEIVE VEHICLE SPEED CTRL DATA - CRAI8 5-157 {7}
SUB 069E9 "Sxx069E9_RZAxxxxx_5.2.15.1_SCP_RX_VEH_SPD_WHLS_HI_RES"      # SAME AS RZASA Sub_xxxxx     #5.2.15.1  Scp_rx_veh_spd_whls_hi_res  SCP INTERFACES, RECEIVE VEHICLE SPEED - DRIVEN & UNDRIVEN - CRAI8 5-160 {7}
SUB 06A60 "Sbg06A60_RZA077AF_5.2.16.1_SCP_RX_VEH_SPD_HI_RES_BKGND"     # SAME AS RZASA Sub_077AF     #5.2.16.1  Scp_rx_veh_spd_hi_res_bkgnd STANDARD CORPORATE PROTOCOL, DIAGNOSTICS FOR VEHICLE SPEED MESSAGE - CRAI8 5-163 {7}
SUB 06ABA "Sxx06ABA_RZA077E3_5.2.17.1_SCP_TX_AC_CLUTCH_CMD"            # SAME AS RZASA Sub_077E3     #5.2.17.1  Scp_tx_ac_clutch_cmd SCP INTERFACES, TRANSMIT A/C CLUTCH COMMAND MESSAGE - CRAI8 5-165 {7}
SUB 06B02 "Sxx06B02_RZA0782B_5.2.18.1_SCP_TX_ACTUAL_AXLE_TQ"           # SAME AS RZASA Sub_0782B     #5.2.18.1  Scp_tx_actual_axle_tq  SCP INTERFACES, TRANSMIT ACTUAL AXLE TORQUE STATUS MESSAGE - CRAI8 5-169 {7}
SUB 06B19 "Sxx06B19_RZAxxxxx_5.2.19.1_SCP_TX_ACTUAL_ENGINE_TQ"         # SAME AS RZASA Sub_xxxxx     #5.2.19.1  Scp_tx_actual_engine_tq SCP INTERFACES, TRANSMIT ACTUAL ENGINE TORQUE STATUS MSG - CRAI8 5-172 {7}
SUB 06B30 "Sxx06B30_RZAxxxxx_5.2.20.1_SCP_TX_COUNTRY_CODE_CTRL"        # SAME AS RZASA Sub_xxxxx     #5.2.20.1  Scp_tx_country_code_ctrl SCP INTERFACES, CONTROL COUNTRY CODE STATUS MESSAGE - CRAI8 5-174 {7}
SUB 06B38 "Sxx06B38_RZAxxxxx_5.2.21.1_SCP_TX_COUNTRY_CODE"             # SAME AS RZASA Sub_xxxxx     #5.2.21.1  Scp_tx_country_code SCP INTERFACES, TRANSMIT COUNTRY CODE STATUS MESSAGE - CRAI8 5-176 {7}
SUB 06B41 "Sxx06B41_RZAxxxxx_5.2.22.1_SCP_TX_ECT_CTL"                  # SAME AS RZASA Sub_xxxxx     #5.2.22.1  Scp_tx_ect_ctrl SCP INTERFACES, CONTROL ECT MESSAGE TRANSMITTAL - CRAI8 5-178 {7}
SUB 06B5F "Sxx06B5F_RZAxxxxx_5.2.23.1_SCP_TX_ECT"                      # SAME AS RZASA Sub_xxxxx     #5.2.23.1  Scp_tx_ect SCP INTERFACES, TRANSMIT ECT MESSAGE - CRAI8 5-180 {7}
SUB 06B88 "Sxx06B88_RZAxxxxx_5.2.24.1_SCP_TX_ENGINE_CONFIG_CTRL"       # SAME AS RZASA Sub_xxxxx     #5.2.24.1  Scp_tx_engine_config_ctrl SCP INTERFACES, CONTROL ENGINE CONFIGURATION STATUS MESSAGE - CRAI8 5-183 {7}
SUB 06B90 "Sxx06B90_RZAxxxxx_5.2.25.1_SCP_TX_ENGINE_CONFIG"            # SAME AS RZASA Sub_xxxxx     #5.2.25.1  Scp_tx_engine_config SCP INTERFACES, TRANSMIT ENGINE CONFIGURATION STATUS MESSAGE - CRAI8 5-185 {7}
SUB 06B99 "Sxx06B99_RZAxxxxx_5.2.27.1_SCP_TX_FAILSAFE_COOL_STAT"       # SAME AS RZASA Sub_xxxxx     #5.2.27.1  Scp_tx_failsafe_cool_stat SCP INTERFACES, TRANSMIT FAILSAFE COOLING MODE STATUS MSG - CRAI8 5-190 {7}
SUB 06BAA "Sxx06BAA_RZAxxxxx_5.2.26.1_SCP_TX_FAILSAFE_COOL_CTL"        # SAME AS RZASA Sub_xxxxx     #5.2.26.1  Scp_tx_failsafe_cool_ctrl  STANDARD CORPORATE PROTOCOL, CTRL FAILSAFE COOLING STATUS MSG TRANSMIT - CRAI8 5-188 {7}
SUB 06BCE "Sxx06BCE_RZAxxxxx_5.2.29.1_SCP_TX_MIL_TELLTALE_CMD"         # SAME AS RZASA Sub_xxxxx     #5.2.29.1  Scp_tx_mil_telltale_cmd SCP INTERFACES, TRANSMIT MIL TELLTALE COMMAND MESSAGE - CRAI8 5-194 {7}
SUB 06BE3 "Sxx06BE3_RZA07978_5.2.28.1_SCP_TX_MIL_TELLTALE_CMD_CTRL"    # SAME AS RZASA Sub_07978     #5.2.28.1  Scp_tx_mil_telltale_cmd_ctrl STANDARD CORPORATE PROTOCOL, CONTROL MIL TELLTALE COMMAND MESSAGE TRANS - CRAI8 5-192 {7}
SUB 06C16 "Sxx06C16_RZAxxxxx_5.2.30.1_SCP_TX_OD_TELLTALE_CTL"          # SAME AS RZASA Sub_xxxxx     #5.2.30.1  Scp_tx_od_telltale_ctrl SCP INTERFACES, CONTROL O/D TELLTALE COMMAND MSG TRANSMITTAL - CRAI8 5-196 {7}
SUB 06C52 "Sxx06C52_RZA079e7_5.2.31.1_SCP_TX_OD_TELLTALE"              # SAME AS RZASA Sub_079e7     #5.2.31.1  Scp_tx_od_telltale SCP INTERFACES, TRANSMIT O/D TELLTALE COMMAND MESSAGE - CRAI8 5-198 {7}
SUB 06C68 "Sxx06C68_RZAxxxxx_5.2.32.1_SCP_TX_PRNDL_SELECTED"           # SAME AS RZASA Sub_xxxxx     #5.2.32.1  Scp_tx_prndl_selected STANDARD CORPORATE PROTOCOL, TRANSMIT PRNDL RANGE SELECTED MESSAGE - CRAI8 5-201 {7}
SUB 06CCC "Sxx06CCC_RZAxxxxx_5.2.34.1_SCP_TX_ROLLING_ODOMETER"         # SAME AS RZASA Sub_xxxxx     #5.2.34.1  Scp_tx_rolling_odometer SCP INTERFACES, TRANSMIT ROLLING ODOMETER MESSAGE - CRAI8 5-206 {7}
SUB 06CE3 "Sxx06CE3_RZAxxxxx_5.2.33.1_SCP_TX_ROLLING_ODOMETER_CNTRL"   # SAME AS RZASA Sub_xxxxx     #5.2.33.1  Scp_tx_rolling_odometer_ctrl  SCP INTERFACES, CONTROL ROLLING ODOMETER MESSAGE TRANSMITTAL - CRAI8 5-204 {7}
SUB 06CF1 "Sxx06CF1_RZA07A78_5.2.35.1_SCP_TX_RPM_ROC_TP"               # SAME AS RZASA Sub_07A78     #5.2.35.1  Scp_tx_rpm_roc_tp SCP INTERFACES, TRANSMIT RPM / RATE OF CHANGE / TP MESSAGE - CRAI8 5-210 {7}
SUB 06D1F "Sxx06D1F_RZA07AA6_5.2.36.1_SCP_TX_TC_MESSAGES_CTRL"         # SAME AS RZASA Sub_07AA6     #5.2.36.1  Scp_tx_tc_messages_ctrl SCP INTERFACES, CONTROL TRANSMIT OF TRACTION CTRL MESSAGES - CRAI8 5-212 {7}
SUB 06D40 "Sxx06D40_RZA07ABB_5.2.37.1_SCP_TX_TRANSM_CONFIG_CTRL"       # SAME AS RZASA Sub_xxxxx     #5.2.37.1  Scp_tx_transm_config_ctrl SCP INTERFACES, CONTROL TRANSMISSION CONFIGURATION STATUS - CRAI8 5-214 {7}
SUB 06D48 "Sxx06D48_RZA07ABB_5.2.38.1_SCP_TX_TRANSM_CONFIG"            # SAME AS RZASA Sub_07ABB     #5.2.38.1  Scp_tx_transm_config SCP INTERFACES, TRANSMIT TRANSMISSION CONFIGURATION STATUS  - CRAI8 5-217 {7}
SUB 06D51 "Sxx06D51_RZA07AC4_5.2.39.1_SCP_TX_TRANSM_GEAR_POS_CTRL"     # SAME AS RZASA Sub_07AC4     #5.2.39.1  Scp_tx_transm_gear_pos_ctrl SCP INTERFACES, CONTROL GEAR POSITION - CRAI8 5-219 {7}
SUB 06D72 "Sxx06D72_RZA07AE5_5.2.40.1_SCP_TX_TRANSM_GEAR_POS"          # SAME AS RZASA Sub_07AE5     #5.2.40.1  Scp_tx_transm_gear_pos SCP INTERFACES, TRANSMIT TRANSM GEAR POSITION - CRAI8 5-221 {7}
SUB 06D7D "Sxx06D7D_RZA07AF0_5.2.40.2_GET_GEAR_POS"                    # SAME AS RZASA Sub_07AF0     #5.2.40.2  Get_gear_pos  SCP INTERFACES, TRANSMIT TRANSM GEAR POSITION - CRAI8 5-222 {7}
SUB 06DA9 "Sub06DA9_RZAxxxxx_5.2.42.1_SCP_TX_VEHICLE_SPEED_HI"         # SAME AS RZASA Sub_xxxxx     #5.2.42.1  Scp_tx_vehicle_speed_hi SCP INTERFACES, TRANSMIT VEHICLE SPEED - HIGH RESOLUTION MSG - CRAI8 5-226 {7}
SUB 06DC4 "Sub06DC4_RZAxxxxx_5.2.41.1_SCP_TX_VEHICLE_SPEED_HI_CTRL"    # SAME AS RZASA Sub_xxxxx     #5.2.41.1  Scp_tx_vehicle_speed_hi_ctrl STANDARD CORPORATE PROTOCOL, CONTROL ROLLING ODOMETER MESSAGE TRANSMIT - CRAI8 5-224 {7} 
SUB 06DD2 "Sxx06DD2_RZAxxxxx_5.2.43.1_SCP_TX_VEH_SPD_RQST"             # SAME AS RZASA Sub_xxxxx     #5.2.43.1  Scp_tx_veh_spd_rqst STANDARD CORPORATE PROTOCOL, REQUEST_VEHICLE_SPEED MESSAGE - CRAI8 5-228 {7}
SUB 06DDB "Sxx06DDB_RZA07B79_6.5.3.1_ATMSG_DIAG_COMMAND_PATS"          # SAME AS RZASA Sub_07B79     #6.5.3.1  Atmsg_diag_command_pats ANTI-THEFT MESSAGES, DIAGNOSTIC COMMAND CONTROL FOR PATS - CRAI8 6-58 {7}
SUB 06E46 "Sbg06E46_RZAxxxxx_6.5.4.1_ATMSG_DIAG_COMMAND_PATS_BKGND"    # SAME AS RZASA Sub_xxxxx     #6.5.4.1  Atmsg_diag_command_pats_bkgnd ANTI-THEFT MESSAGES, BG PROCESS FOR DIAGNOSTIC COMMANDS - CRAI8 6-60 {7}
SUB 06E67 "Sbg06E67_RZAxxxxx_6.5.5.1_ATMSG_RX_PATS_KEY_STATUS_BKGND"   # SAME AS RZASA Sub_xxxxx     #6.5.5.1  Atmsg_rx_pats_key_status_bkgnd ANTI-THEFT MESSAGES, BG PROCESS FOR PATS KEY STATUS MESSAGE - CRAI8 6-62 {7}
SUB 06E83 "Sxx06E83_RZAxxxxx_6.5.6.1_ATMSG_RX_PATS_DATA"               # SAME AS RZASA Sub_xxxxx     #6.5.6.1  Atmsg_rx_pats_data ANTI-THEFT MESSAGES, RECEIVE PATS DATA MESSAGE - CRAI8 6-66 {7}
SUB 06F0C "Sxx06F0C_RZAxxxxx_6.5.7.1_ATMSG_TX_PATS_CHALLENGE_QUERY"    # SAME AS RZASA Sub_xxxxx     #6.5.7.1  Atmsg_tx_pats_challenge_query  ANTI-THEFT MESSAGES, TRANSMIT PATS CHALLENGE QUERY STATUS - CRAI8 6-69 {7}
SUB 06F15 "Sxx06F15_RZAxxxxx_6.5.8.1_ATMSG_TX_PATS_CHALLENGE_RESPONSE" # SAME AS RZASA Sub_xxxxx     #6.5.8.1  Atmsg_tx_pats_challenge_response ANTI-THEFT MESSAGES, TRANSMIT PATS CHALLENGE RESPONSE STATUS - CRAI8 6-72 {7}
SUB 06F25 "Sxx06F25_RZAxxxxx_6.5.9.1_ATMSG_TX_PATS_MESSAGES_CTRL"      # SAME AS RZASA Sub_xxxxx     #6.5.9.1  Atmsg_tx_pats_messages_ctrl  ANTI-THEFT MESSAGES, CONTROL TRANSMIT OF PATS MESSAGE - CRAI8 6-75 {7}
SUB 06FC0 "Sxx06FC0_RZA07963_??_6.5.10.1_ATMSG_TX_PATS_KEY_STATUS_RQST"# SAME AS RZASA Sub_07963     #6.5.10.1  Atmsg_tx_pats_key_status_rqst ANTI-THEFT MESSAGES, TRANSMIT PATS KEY STATUS REQUEST - CRAI8 6-77 {7}
SUB 06FC9 "Sxx06FC9_RZAxxxxx_6.5.11.1_ATMSG_TX_PATS_PCM_ID_STATUS"     # SAME AS RZASA Sub_xxxxx     #6.5.11.1  Atmsg_tx_pats_pcm_id_status ANTI-THEFT MESSAGES, TRANSMIT PATS PCM ID STATUS MESSAGE - CRAI8 6-80 {7}
SUB 06FD2 "Sxx06FD2_RZAxxxxx_6.5.12.1_ATMSG_TX_PATS_STATUS"            # SAME AS RZASA Sub_xxxxx     #6.5.12.1  Atmsg_tx_pats_status ANTI-THEFT MESSAGES, TRANSMIT PATS STATUS MESSAGE - CRAI8 6-83 {7}
SUB 06FEE "Sxx06FEE_RZA87EA0_38.1.1.1_KAM_ERROR_FLAG"                  # SAME AS RZASA Sub_87EA0     #38.1.1.1  Kam_error_flag 38.1.1  KAM QUALIFICATION TEST  KEEP ALIVE MEMORY 38-1 {7}
SUB 0702F "Sxx0702F_RZAxxxxx_14.4.3.1_ISCKAM_QUALIFICATION"            # SAME AS RZASA Sub_xxxxx     #14.4.3.1  Isckam_qualification IDLE SPEED CONTROL, KAM UPDATE (ISCKAM_UPDATE) - CRAI8 14-126 {7}
SUB 07050 "Sxx07050_RZA89760_14.4.3.3_ISCKAM_CLEAR()"                  # SAME AS RZASA Sub_89760     #14.4.3.3  Isckam_clear IDLE SPEED CONTROL, KAM UPDATE (ISCKAM_UPDATE) - CRAI8 14-127 {7}
SUB 07065 "Sbg07065_RZAxxxxx_34.3.1.1_CCSCH_EXEC_BG"                   # SAME AS RZASA Sub_xxxxx     #34.3.1.1  Ccsch_exec_bg CONVERTER CLUTCH SCHEDULING, BACKGROUND MANAGER - CRAI8 34-63 {7}
SUB 07080 "Sxx07080_RZA08F6D_34.3.4.1_CCSCH_SCHLD_LCK_UNLCK"           # SAME AS RZASA Sub_08F6D     #34.3.4.1  Ccsch_schld_lck_unlck CONVERTER CLUTCH SCHEDULING, SCHEDULED LOCK/UNLOCK LOGIC - CRAI8 34-84 {7}
SUB 07180 "Sxx07180_RZA090D1_FUNC_EXECUTION_FOR_34.3.4.1"              # SAME AS RZASA Sub_090D1     #SEEMS TO EXECUTE THE FUNCTIONS USED IN SUB 34.3.4.1 {7}
SUB 071F2 "Sxx071F2_RZA921DD_34.3.3.1_CCSCH_UNCOND_UNLK"               # SAME AS RZASA Sub_921DD     #34.3.3.1  Ccsch_uncond_unlk CONVERTER CLUTCH SCHEDULING, UNCONDITIONAL UNLOCK LOGIC - CRAI8 34-72 {7}
SUB 0747D "Sxx0747D_RZA9255B_COMPARISON_SUB_??"                        # SAME AS RZASA Sub_9255B     # {7}
SUB 07486 "Sxx07486_RZA92564_34.3.6.1_CCSCH_SCHLD_BYP_SLIP"            # SAME AS RZASA Sub_92564     #34.3.6.1  Ccsch_schld_byp_slip CONVERTER CLUTCH SCHEDULING, SCHEDULED BYPASS CLUTCH SLIP - CRAI8 34-97 {7}
SUB 075FC "Sxx075FC_RZA926D9_34.3.2.1_CCSCH_HOT_LCK"                   # SAME AS RZASA Sub_926D9     #34.3.2.1  Ccsch_hot_lck CONVERTER CLUTCH SCHEDULING, HOT LOCKUP LOGIC - CRAI8 34-65 {7}
SUB 07634 "Sxx07634_RZA92715_34.3.5.1_CCSCH_ACC_COMP"                  # SAME AS RZASA Sub_92715     #34.3.5.1  Ccsch_acc_comp CONVERTER CLUTCH SCHEDULING, A/C COMPENSATION - CRAI8 34-90 {7}
SYM 077D4 "Sbg077D4_RZA9B543_21.1.8_AIR_EXEC_BG"                       # SAME AS RZASA Sub_9B543     #21.1.8  AIR CHARGE BACKGROUND EXECUTIVE (CRAC0) AIR CHARGE CALCULATION, BACKGROUND EXECUTIVE - CRAI8 21-27 {7}#SUB cmd causes err in dissasembly?
SUB 07801 "Sbg07801_RZA9B57E_21.1.9_AIR_BACKGROUND_MAIN"               # SAME AS RZASA Sub_9B57E     #21.1.9  AIR CHARGE BACKGROUND CALCULATIONS (CRAC0) AIR CHARGE CALCULATION, AIR CHARGE BACKGROUND CALCULATIONS - CRAI8 21-30 {7}
SUB 079BB "Sxx079BB_RZA9B79B_21.1.10_AIR_COMPENSATION_DRIFT"           # SAME AS RZASA Sub_9B79B     #21.1.10  AIR METER DRIFT COMPENSATION (CRAC0) AIR CHARGE CALCULATION, AIR METER DRIFT COMPENSATION - CRAI8 21-36 {7}
SUB 079E6 "Sxx079E6_RZA9B7D0_21.1.11.1_AIR_COMPENSATION_BRAKE"         # SAME AS RZASA Sub_9B7D0     #21.1.11.1  Air_compensation_brake AIR CHARGE CALCULATION, BRAKE COMPENSATION - CRAI8 21-41 {7}
SUB 07AD1 "Sxx07AD1_RZA9B8C8_21.1.12_AIR_COMPENSATION_PURGE"           # SAME AS RZASA Sub_9B8C8     #21.1.12  PURGE COMPENSATION (CRAC0) AIR CHARGE CALCULATION, PURGE COMPENSATION - CRAI8 21-43 {7}
SUB 07AF9 "Sxx07AF9_RZA9B8F0_21.1.13_AIR_COMPENSATION_SUM"             # SAME AS RZASA Sub_9B8F0     #21.1.13  AIR CHARGE COMPENSATION SUMMATION (CRAC0) AIR CHARGE CALCULATION, AIR CHARGE COMPENSATION SUMMATION - CRAI8 21-45 {7}
SUB 07B2B "Sxx07B2B_RZA9B92C_21.1.14_AIR_LOAD"                         # SAME AS RZASA Sub_9B92C     #21.1.14  CALCULATION OF LOAD (CRAC0) AIR CHARGE CALCULATION, LOAD CALCULATION - CRAI8 21-47 {7}
SUB 07B5C "Sxx07B5C_RZA9B987_21.1.15_AIR_LOAD_INFERRED"                # SAME AS RZASA Sub_9B987     #21.1.15  CALCULATION OF INFERRED LOADS (CRAC0) AIR CHARGE CALCULATION, INFERRED LOAD - CRAI8 21-51 {7}
SUB 07C85 "Sxx07C85_RZA9BAD1_21.1.16_AIR_LOAD_PERCENT"                 # SAME AS RZASA Sub_9BAD1     #21.1.16  CALCULATION OF PERCENT LOADS (CRAC0) AIR CHARGE CALCULATION, PERCENT LOAD CALCULATION - CRAI8 21-53 {7}
SUB 07CDA "Sxx07CDA_RZA9BE94_21.1.19.1_AIR_FMEM"                       # SAME AS RZASA Sub_9BE94     #21.1.19.1  Air_fmem AIR CHARGE CALCULATION, AIR CHARGE FMEM - CRAI8 21-78 {7}
SUB 07DAD "Sxx07DAD_RZA9BF7E_21.1.20.1_AIR_PID_DEFINITION_MAF"         # SAME AS RZASA Sub_9BF7E     #21.1.20.1  Air_pid_definition_maf AIR CHARGE CALCULATION, SAE J1979 MAF PARAMETER - CRAI8 21-82 {7}
SUB 07DCB "Sxx07DCB_RZA9BF9B_21.1.21_AIR_PID_DEFINITION_LOAD"          # SAME AS RZASA Sub_9BF9B     #21.1.21  DEFINITION OF SAE J1979 LOAD PARAMETER (CRAC0) AIR CHARGE CALCULATION, SAE J1979 LOAD PARAMETER - CRAI8 21-83 {7}
sym 07DF0 "Sxx07DF0_RZA9BB2E_21.1.17.1_AIR_MAFS_DIAG_SELECT"           # SAME AS RZASA Sub_9BB2E     #21.1.17.1  Air_mafs_diag_select AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TEST SELECTION - CRAI8 21-56 {7}#SUB cmd causes err in dissasembly?
SUB 07E1C "Sbg07E1C_RZA9BB5A_21.1.18.1_AIR_DIAG_RESET"                 # SAME AS RZASA Sub_9BB5A     #21.1.18.1  Air_diag_reset AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-64 {7}
SUB 07E3F "Sbg07E3F_RZA9BB7D_21.1.18.2_AIR_OVER_VOLTAGE_ENTRY"         # SAME AS RZASA Sub_9BB7D     #21.1.18.2  Air_over_voltage_entry AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-64 {7}
SUB 07E49 "Sbg07E49_RZAxxxxx_21.1.18.7_AIR_OVER_VOLTAGE_TEST"          # SAME AS RZASA Sub_xxxxx     #21.1.18.7  Air_over_voltage_test AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-69 {7}
SUB 07E80 "Sbg07E80_RZA9BBBF_21.1.18.3_AIR_UNDER_VOLTAGE_CONT_ENTRY"   # SAME AS RZASA Sub_9BBBF     #21.1.18.3  Air_under_voltage_cont_entry AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-65 {7}
SUB 07E8C "Sbg07E8C_RZA9BBCC_21.1.18.4_AIR_UNDER_VOLTAGE_ER_ENTRY"     # SAME AS RZASA Sub_9BBCC     #21.1.18.4  Air_under_voltage_er_entry AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-66 {7}
SUB 07EB0 "Sbg07EB0_RZAxxxxx_21.1.18.8_AIR_UNDER_VOLTAGE_TEST"         # SAME AS RZASA Sub_xxxxx     #21.1.18.8  Air_under_voltage_test AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-70 {7}
SYM 07EF0 "Sbg07EF0_RZA9BC2F_21.1.18.5_AIR_SELF_TEST_ER_ENTRY"         # SAME AS RZASA Sub_9BC2F     #21.1.18.5  Air_self_test_er_entry AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-67 {7}#SUB cmd causes err in dissasembly?
SUB 07F03 "Sbg07F03_RZAxxxxx_21.1.18.9_AIR_SELF_TEST_ER"               # SAME AS RZASA Sub_xxxxx     #21.1.18.9  Air_self_test_er AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-71 {7}
SYM 07F11 "Sbg07F11_RZA9BC52_12.1.18.6_AIR_SELF_TEST_EO_ENTRY"         # SAME AS RZASA Sub_9BC52     #21.1.18.6  Air_self_test_eo_entry AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-68 {7}#SUB cmd causes err in dissasembly?
SUB 07F12 "Sbg07F12_RZAxxxxx_21.1.18.10_AIR_SELF_TEST_EO"              # SAME AS RZASA Sub_xxxxx     #21.1.18.10  Air_self_test_eo AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-72 {7}
SUB 07F30 "Sbg07F30_RZA9BC74_21.1.18.11_AIR_UPDATE_FAULT_CODES"        # SAME AS RZASA Sub_9BC74     #21.1.18.11  Air_update_fault_codes AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-73 {7}
SUB 07F56 "Sbg07F56_RZA9BCBB_??_21.1.18.12_AIR_UPDATE_FAILURE_FLAGS"   # SAME AS RZASA Sub_9BCBB     #21.1.18.12  Air_update_failure_flags AIR CHARGE CALCULATION, MAF SENSOR DIAGNOSTIC TESTS - BACKGROUND - CRAI8 21-74 {7}
SUB 07F95 "Sxx07F95_RZA9BFEE_21.1.2_AIR_SAMPLE_METER"                  # SAME AS RZASA Sub_9BFEE     #21.1.2  AIR METER SAMPLING (CRAC0) AIR CHARGE, AIR METER SAMPLING - CRAI8 21-3 {7}

SUB 07FEC "Sxx07FEC_RZAxxxxx_23.1.1.1_VCT_STUB_1"                      # SAME AS RZASA Sub_xxxxx     #23.1.1.1  Vct_stub_1 VARIABLE CAM TIMING, VCT STUB NON VCT APPLICATIONS - CRAI8 23-2 {7}

SUB 07FFE "Sxx07FFE_RZA86133_9.8.5.1_FAOSC_INIT"                       # SAME AS RZASA Sub_86133     #9.8.5.1  Faosc_init FUEL STRATEGY, REAR EGO TRIM - CRAI8 9-226 {7}
SUB 08013 "Sxx08013_RZA86148_TURN_OFF_FOASC(9.8.5.2)"                           # SAME AS RZASA Sub_86148     #9.8.5.2  Faosc2_main FUEL STRATEGY, REAR EGO TRIM - CRAI8 9-227 {7}
SUB 08028 "Sxx08028_RZA8615D_9.8.5.2_FAOSC2_MAIN"                      # SAME AS RZASA Sub_8615D     #9.8.5.2  Faosc2_main FUEL STRATEGY, REAR EGO TRIM - CRAI8 9-227 {7}
SUB 0803C "Sxx0803C_RZAxxxxx_9.8.5.3_VEGO_FILTER"                      #                             #9.8.5.3  Vego_filter FUEL STRATEGY, REAR EGO TRIM - CRAI8 9-227 {7}
SUB 08090 "Sxx08090_RZAxxxxx_9.8.5.7_CLOSED_LOOP_TIMER"                #                             #9.8.5.7  Closed_loop_timer FUEL STRATEGY, REAR EGO TRIM - CRAI8 9-229 {7}
SUB 08097 "Sxx08097_RZAxxxxx_9.8.5.5_FAULT_LOCKOUT"                    #                             #9.8.5.5  Fault_lockout FUEL STRATEGY, REAR EGO TRIM - CRAI8 9-228 {7}
SUB 0811F "Sxx0811F_RZAxxxxx_9.8.5.8_FAOSC_P_CONTROL"                  #                             #9.8.5.8  Faosc_p_control FUEL STRATEGY, REAR EGO TRIM - CRAI8 9-230 {7}
SUB 08518 "Sxx08518_RZA95C60_30.1.6.1_TRAC_MANUAL"                     # SAME AS RZASA Sub_95C60     #30.1.6.1  Trac_manual TRACTION CONTROL, TRACTION CONTROL TORQUE CONTROL POINT - CRAI8 30-26 {7}
SUB 085F7 "Sxx085F7_RZA95D49_30.1.6.3_TRAC_AUTO"                       # SAME AS RZASA Sub_95D49     #30.1.6.3  Trac_auto TRACTION CONTROL, TRACTION CONTROL TORQUE CONTROL POINT - CRAI8 30-28 {7}

SUB 086B4 "Sxx086B4"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0870A "Sxx0870A"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0872B "Sxx0872B"                  # SAME AS RZASA Sub_xxxxx     #
SUB 087A1 "Sxx087A1"                  # SAME AS RZASA Sub_xxxxx     #
SUB 087D9 "Sxx087D9"                  # SAME AS RZASA Sub_xxxxx     #
SUB 08825 "Sxx08825"                  # SAME AS RZASA Sub_xxxxx     #
SUB 08882 "Sxx08882"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0891B "Sxx0891B"                  # SAME AS RZASA Sub_xxxxx     #
SUB 089D3 "Sxx089D3"                  # SAME AS RZASA Sub_xxxxx     #

SUB 089ED "Sbg089ED_RZAxxxxx_11.1.18.1_UPDATE_FIXED_SWITCHPOINT"       # SAME AS RZASA Sub_xxxxx     #11.1.18.1  Update_fixed_switchpoint EGO MONITOR CONTROL STRATEGY, UPSTREAM SENSOR SWITCHPOINT CALCULATION - CRAI8 11-225 {7}
SUB 089F3 "Sbg089F3_92FDD_Tmr_Upd"                                     # SAME AS RZASA "Sbg92FDD_Tmr_Upd" {7}
SUB 08AB5 "Sxx08AB5_RZA8FAED"                                          # SAME AS RZASA Sub_8FAED     # {7}
SUB 08AE6 "Sxx08AE6_RZA93E9D_CALCULATES_TR_SPK_DELTA(FN766)"           # SAME AS RZASA Sub_93E9D     #CALCULATES TR_SPK_DELTA tr_spk_delta = fox(&FN766, (spk_m_b_t - saftot)); {7}

SUB 08B04 "Sxx08B04_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 08CD8 "Sxx08CD8_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 08D48 "Sxx08D48_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 08DD6 "Sxx08DD6_RZA9F5A1"                                          # SAME AS RZASA Sub_9F5A1     # {7}
SUB 08E09 "Sxx08E09_RZA9F5D5"                                          # SAME AS RZASA Sub_9F5D5     # {7}
SUB 08F11 "Sxx08F11_RZA9F7E0"                                          # SAME AS RZASA Sub_9F7E0     # {7}
SUB 09005 "Sxx09005_RZA9F8BE"                                          # SAME AS RZASA Sub_9F8BE     # {7}
SUB 09018 "Sxx09018_RZA9F8DB"                                          # SAME AS RZASA Sub_9F8DB     # {7}

SUB 09032 "Sxx09032_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 090DF "Sxx090DF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 090ED "Sxx090ED_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 09174 "Sxx09174_RZAxxxxx_35.10.4.4_CHT_FAILURE_CHECK"              # SAME AS RZASA Sub_xxxxx     #35.10.4.4  Cht_failure_check ENGINE TEMPERATURE, CHT SENSOR INPUT AND SELFTEST - CRAI8 35-63 {7}
SUB 09274 "Sxx09274_RZAxxxxx_35.10.6.1_ECT_CHT_FMEM"                   # SAME AS RZASA Sub_xxxxx     #35.10.6.1  Ect_cht_fmem ENGINE TEMPERATURE, ECT AND/OR CHT SENSOR FMEM - CRAI8 35-80 {7}
SUB 09284 "Sxx09284_RZAxxxxx_35.10.6.2_ECT_COMMON_FMEM"                # SAME AS RZASA Sub_xxxxx     #35.10.6.2  Ect_common_fmem ENGINE TEMPERATURE, ECT AND/OR CHT SENSOR FMEM - CRAI8 35-81 {7}
SUB 092CE "Sxx092CE_RZAxxxxx_35.10.6.3_ECT_RAMP"                       # SAME AS RZASA Sub_xxxxx     #35.10.6.3  Ect_ramp ENGINE TEMPERATURE, ECT AND/OR CHT SENSOR FMEM - CRAI8 35-82 {7}
SUB 092F2 "Sxx092F2_CONTINUE_35.10.6.1_ECT_CHT_FMEM"                   #                             #35.10.6.1  Ect_cht_fmem ENGINE TEMPERATURE, ECT AND/OR CHT SENSOR FMEM - CRAI8 35-80 {7}


SUB 09333 "Sxx09333_RZA04B0E_FCLIP_TEMP(-127,254)"                     # SAME AS RZASA Sub_04B0E     #USED IN 35.10.6.2 FOR TOT, 35.10.6.1 FOR CHT_ENG {7}
SUB 0934D "Sxx0934D_RZA04B28_CLIP_TEMP(-127,320)"                      # SAME AS RZASA Sub_04B28     # {7}
SUB 09366 "Sxx09366_35.10.5_ENGT_ECT_OBDII(ECT_SENSOR_INPUT_AND_SELF_TEST)" #                        #35.10.5  ECT SENSOR INPUT AND SELF TEST (CRAE0) ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-66 {7}
SUB 09367 "Sxx09367_RZA048FC_35.10.5.1_ENGT_ECT_PID_DEFS"              # SAME AS RZASA Sub_048FC     #35.10.5.1  Engt_ect_pid_defs ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-71 {7}
SUB 09372 "Sxx09372_RZAxxxxx_35.10.5.3_SENSOR_CHECK"                   # SAME AS RZASA Sub_xxxxx     #35.10.5.3  Sensor_check ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-72 {7}
SUB 09391 "Sxx09391_RZAxxxxx_35.10.5.4_ECT_START_UP"                   # SAME AS RZASA Sub_xxxxx     #35.10.5.4  Ect_start_up ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-73 {7}
SUB 0939F "Sxx0939F_RZAxxxxx_35.10.5.5_ECT_FAILURE_CHECK"              # SAME AS RZASA Sub_xxxxx     #35.10.5.5  Ect_failure_check ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-74 {7}
SUB 0947E "Sxx0947E_RZAxxxxx_35.10.5.6_ECT_KOER_CHECK"                 # SAME AS RZASA Sub_xxxxx     #35.10.5.6  Ect_koer_check ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-75 {7}
SUB 09496 "Sxx09496_RZAxxxxx_35.10.5.7_ECT_KOEO_CHECK"                 # SAME AS RZASA Sub_xxxxx     #35.10.5.7  Ect_koeo_check ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-76 {7}
SUB 094B8 "Sxx094B8_CONTINUE_35.10.5.3_SENSOR_CHECK"                   #                             #35.10.5.3  Sensor_check ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-72 {7}
SUB 0952E "Sxx0952E_RZAxxxxx_35.10.5.8_ECT_WARM_UP_TEST"               # SAME AS RZASA Sub_xxxxx     #35.10.5.8  Ect_warm_up_test ENGINE TEMPERATURE, ECT SENSOR INPUT AND SELF TEST - CRAI8 35-76 {7}
SUB 095D9 "Sxx095D9_RZAL_04A9C_MIN(CHT_COOL_CHT,254)"                  # SAME AS RZASA L_04A9C       # {7}

SUB 095E6 "Sxx095E6_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 095F0 "Sxx095F0_RZAxxxxx_35.10.3.2_ENGT_INFER_START_UP"            # SAME AS RZASA Sub_xxxxx     #35.10.3.2  Engt_infer_start_up ENGINE TEMPERATURE,  INFERRED ENGINE TEMPERATURE  - CRAI8 35-55 {7}
SUB 0967D "Sxx0967D_RZA04BCC_35.10.3.1_ENGT_INFER_RAM_INIT"            # SAME AS RZASA Sub_04BCC     #35.10.3.1  Engt_infer_ram_init ENGINE TEMPERATURE,  INFERRED ENGINE TEMPERATURE  - CRAI8 35-54 {7}
SUB 09698 "Sxx09698_RZA04AA7_??_35.10.3.3_STORE_ENGT_KAM"              # SAME AS RZASA Sub_04AA7     #35.10.3.3  Store_engt_kam ENGINE TEMPERATURE,  INFERRED ENGINE TEMPERATURE  - CRAI8 35-55 {7}
SUB 096B6 "Sxx096B6_RZA0B2AE"                                          # SAME AS RZASA Sub_0B2AE     # {7}
SUB 09829 "Sxx09829_RZA0A046"                                          # SAME AS RZASA Sub_0A046     # {7}
SUB 0989B "Sxx0989B_RZA0A0AD"                                          # SAME AS RZASA Sub_0A0AD     # {7}
SUB 0997C "Sxx0997C_RZA0A189"                                          # SAME AS RZASA Sub_0A189     # {7}
SUB 09A6D "Sxx09A6D_RZA0A276"                                          # SAME AS RZASA Sub_0A276     # {7}
SUB 09AB1 "Sxx09AB1_RZA0A2B8"                                          # SAME AS RZASA Sub_0A2B8     # {7}
SUB 09AEE "Sxx09AEE_RZA0A2F3"                                          # SAME AS RZASA Sub_0A2F3     # {7}
SUB 09BB9 "Sxx09BB9_RZA0A3C6"                                          # SAME AS RZASA Sub_0A3C6     # {7}
SUB 09BD7 "Sxx09BD7_RZA0A3E4_CALCULATE_ER_LAM_DSD[BANK1]"              # SAME AS RZASA Sub_0A3E4     # {7}
SUB 09BFB "Sxx09BFB_RZA0A407_CALCULATE_ER_LAM_DSD[BANK2]"              # SAME AS RZASA Sub_0A407     # {7}
SUB 09C1F "Sxx09C1F_RZA0A42A_SWTP_BAR[BANK1&2]=US_SWTPOINT"            # SAME AS RZASA Sub_0A42A     # {7}
SUB 09C2F "Sxx09C2F_RZA0A439??_11.1.13.3_EGO_INPUT_PID_DEFS"           # SAME AS RZASA Sub_0A439_??     #11.1.13.3  Ego_input_pid_defs EGO MONITOR CONTROL STRATEGY, HEGO SENSOR INPUT PROCESSING - CRAI8 11-191 {7}
SUB 09E21 "Sxx09E21_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 09E2C "Sxx09E2C_RZA0A6E3_PID_DEF(min((U32)(vego[BANK][STREAM]*200),255))" # SAME AS RZASA Sub_0A6E3     #CLIPS VEGO PID TO MAX OF 255 ???? {7}

SUB 09E3C "Sxx09E3C_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 09E9E "Sxx09E9E_RZA0A6F3_11.1.4.1_EGO_MONITOR_CONTROLLER"          # SAME AS RZASA Sub_0A6F3     #11.1.4.1  Ego_monitor_controller EGO MONITOR CONTROL STRATEGY, EGO MONITOR CONTROL - CRAI8 11-19 {7}
SUB 0A1B0 "Sxx0A1B0_RZA0AAA0"                                          # SAME AS RZASA Sub_0AAA0     # {7}
SUB 0A1D2 "Sxx0A1D2_RZA0AAC2"                                          # SAME AS RZASA Sub_0AAC2     # {7}
SUB 0A205 "Sxx0A205_RZA0AAF5_11.1.7.7_KOEO_TEST_??"                       # SAME AS RZASA Sub_0AAF5     #11.1.7.7  Koeo_test EGO MONITOR CONTROL STRATEGY, EGO HEATER CONTROL - CRAI8 11-91 {7}
SUB 0A20E "Sxx0A20E_RZA0AAFE"                                          # SAME AS RZASA Sub_0AAFE     # {7}
SUB 0A27D "Sxx0A27D_RZA8F715_11.1.5.6_UPSTREAM_EGO_MONITOR"            # SAME AS RZASA Sub_8F715     #11.1.5.6  Upstream_ego_monitor EGO MONITOR CONTROL STRATEGY, UPSTREAM EGO MONITOR - CRAI8 11-40 {7}
#SUB 0A2F2 "Sxx0A2F2_RZAxxxxx_11.1.5.7_EGO_FREQUENCY_CALCULATION"      # SAME AS RZASA Sub_xxxxx     #11.1.5.7  Ego_frequency_calculation EGO MONITOR CONTROL STRATEGY, UPSTREAM EGO MONITOR - CRAI8 11-41 {7}
SUB 0A2F2 "Sxx0A2F2_RZAxxxxx_11.1.5.8_EGO_VOLTAGE_CALCULATION_??"         # SAME AS RZASA Sub_xxxxx     #11.1.5.8  Ego_voltage_calculation EGO MONITOR CONTROL STRATEGY, UPSTREAM EGO MONITOR - CRAI8 11-42 {7}
SUB 0A3BF "Sxx0A3BF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0A418 "Sxx0A418_RZA0AB72"                                          # SAME AS RZASA Sub_0AB72     # {7}
SUB 0A428 "Sxx0A428_RZA0AB86"                                          # SAME AS RZASA Sub_0AB86     # {7}
SUB 0A44B "Sxx0A44B_RZA0ADE3"                                          # SAME AS RZASA Sub_0ADE3     # {7}
SUB 0A457 "Sxx0A457_RZA0ADEF"                                          # SAME AS RZASA Sub_0ADEF     # {7}
SUB 0A48D "Sxx0A48D_RZA0ABEA"                                          # SAME AS RZASA Sub_0ABEA     # {7}
SUB 0A5C9 "Sxx0A5C9_RZA0AD23"                                          # SAME AS RZASA Sub_0AD23     # {7}
SUB 0A5E7 "Sxx0A5E7_RZA0AD40"                                          # SAME AS RZASA Sub_0AD40     # {7}
SUB 0A5F6 "Sxx0A5F6_RZA0AD4F"                                          # SAME AS RZASA Sub_0AD4F     # {7}
SUB 0A672 "Sxx0A672_RZA0ADC8"                                          # SAME AS RZASA Sub_0ADC8     # {7}
SUB 0A68E "Sxx0A68E_RZA0AE24"                                          # SAME AS RZASA Sub_0AE24     # {7}
SUB 0A6E9 "Sxx0A6E9_RZA0AE7D"                                          # SAME AS RZASA Sub_0AE7D     # {7}
SUB 0A6FF "Sxx0A6FF_RZA0AE91"                                          # SAME AS RZASA Sub_0AE91     # {7}

SUB 0A72F "Sxx0A72F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0A74A "Sxx0A74A_RZA0AEBE"                                          # SAME AS RZASA Sub_0AEBE     # {7}
SUB 0A773 "Sxx0A773_RZA0AEE7"                                          # SAME AS RZASA Sub_0AEE7     # {7}
SUB 0A7CF "Sxx0A7CF_RZA0AF3F"                                          # SAME AS RZASA Sub_0AF3F     # {7}
SUB 0A7DC "Sxx0A7DC_RZA0AF4C"                                          # SAME AS RZASA Sub_0AF4C     # {7}
SUB 0A7ED "Sxx0A7ED_RZA0AF5D"                                          # SAME AS RZASA Sub_0AF5D     # {7} 
SUB 0A7F9 "Sxx0A7F9_RZA0AF69"                                          # SAME AS RZASA Sub_0AF69     # {7}
SUB 0A81B "Sxx0A81B_RZA0AF89"                                          # SAME AS RZASA Sub_0AF89     # {7}
SUB 0A85B "Sxx0A85B_RZA0AFD5"                                          # SAME AS RZASA Sub_0AFD5     # {7}
SUB 0AA52 "Sxx0AA52_RZA0B1C9"                                          # SAME AS RZASA Sub_0B1C9     # {7}
SUB 0AA7B "Sxx0AA7B_RZA0B1EE"                                          # SAME AS RZASA Sub_0B1EE     # {7}
SUB 0AA98 "Sxx0AA98_RZA0B209"                                          # SAME AS RZASA Sub_0B209     # {7}
SUB 0AAAB "Sxx0AAAB_RZA0B21C"                                          # SAME AS RZASA Sub_0B21C     # {7}
SUB 0AACF "Sxx0AACF_RZA0B240"                                          # SAME AS RZASA Sub_0B240     # {7}
SUB 0AAD8 "Sxx0AAD8_RZA0B249"                                          # SAME AS RZASA Sub_0B249     # {7}
SUB 0AB3F "Sxx0AB3F_RZA09EAC_11.1.10.9_VEGOFIL_ZERO_??"                # SAME AS RZASA Sub_09EAC     #11.1.10.9  Vegofil_zero CONTINUOUS SELF TEST, EGO SWITCHING TEST - CRAI8 11-140 {7}
SUB 0AB5D "Sxx0AB5D_RZAxxxxx_11.1.10.6_EGO_TEST_TMR_CLEAR"             # SAME AS RZASA Sub_xxxxx     #11.1.10.6  Ego_test_tmr_clear CONTINUOUS SELF TEST, EGO SWITCHING TEST - CRAI8 11-137 {7}



SUB 0AB78 "Sxx0AB78_RZAxxxxx_11.1.10.12_EGR_TRANSITION_DELAY_FLAG_CTL" # SAME AS RZASA Sub_xxxxx     #11.1.10.12  Egr_transition_delay_flag_ctl CONTINUOUS SELF TEST, EGO SWITCHING TEST - CRAI8 11-147 {7}
SUB 0AC42 "Sxx0AC42_RZAxxxxx_11.1.10.3_EGOTST_TMR_CONTROL"             # SAME AS RZASA Sub_xxxxx     #11.1.10.3  Egotst_tmr_control CONTINUOUS SELF TEST, EGO SWITCHING TEST - CRAI8 11-135 {7}
SUB 0AC74 "Sxx0AC74_RZAxxxxx_11.1.10.4_EGOTST_TMR_CHK"                 # SAME AS RZASA Sub_xxxxx     #11.1.10.4  Egotst_tmr_chk CONTINUOUS SELF TEST, EGO SWITCHING TEST - CRAI8 11-136 {7}

SUB 0ACA2 "Sxx0ACA2_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0AE78 "Sxx0AE78_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0AEBB "Sxx0AEBB_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0AED8 "Sxx0AED8_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0AF05 "Sxx0AF05_RZA0B5B4_11.1.12.2_EGO11_FFG_CONTROL"              # SAME AS RZASA Sub_0B5B4     #11.1.12.2  Ego11_ffg_control EGO MONITOR CONTROL STRATEGY, EGO FAULT FLAG CONTROL - CRAI8 11-179 {7}
SUB 0AFDC "Sxx0AFDC_RZA0B688"                                          # SAME AS RZASA Sub_0B688     # {7}
SUB 0AFF1 "Sxx0AFF1_RZA0B69B"                                          # SAME AS RZASA Sub_0B69B     # {7}
SUB 0B009 "Sxx0B009_RZA0B6B3_11.1.7.2_EGO_HEATER_CONTROL_INIT"         # SAME AS RZASA Sub_0B6B3     #11.1.7.2  Ego_heater_control_init EGO MONITOR CONTROL STRATEGY, EGO HEATER CONTROL - CRAI8 11-86 {7}
SUB 0B057 "Sxx0B057_RZA0B6F9"                                          # SAME AS RZASA Sub_0B6F9     # {7}
SUB 0B075 "Sxx0B075_RZA0B732_11.1.7.10_EGO_HEATER_STATE_CONTROL"       # SAME AS RZASA Sub_0B732     #11.1.7.10  Ego_heater_state_control EGO MONITOR CONTROL STRATEGY, EGO HEATER CONTROL - CRAI8 11-95 {7}
SYM 0B090 "L__0B090_RZA0B78B"                                          # SAME AS RZASA Sub_0B78B     # {7}
SYM 0B20D "L__0B20D_RZA0B919"                                          # SAME AS RZASA Sub_0B919     # {7}
SYM 0B278 "L__0B278_RZA0B98C"                                          # SAME AS RZASA Sub_0B98C     # {7}
SUB 0B33A "Sxx0B33A_RZAxxxxx_"
SUB 0B358 "Sxx0B358_RZA0BA7B"                                          # SAME AS RZASA Sub_0BA7B     # {7}
SUB 0B3C4 "Sxx0B3C4_RZA0BAE7"                                          # SAME AS RZASA Sub_0BAE7     # {7}
SUB 0B438 "Sxx0B438_RZA0BB5B"                                          # SAME AS RZASA Sub_0BB5B     # {7}
SUB 0B45D "Sxx0B45D_RZA0BB80"                                          # SAME AS RZASA Sub_0BB80     # {7}
SUB 0B482 "Sxx0B482_RZAxxxxx_"
SUB 0B492 "Sxx0B492_RZA0BBB5"                                          # SAME AS RZASA Sub_0BBB5     # {7}
SUB 0B4C3 "Sxx0B4C3_RZA0BBEB_11.1.7.19_EGO_HEATER_TIMER_CONTROL"       # SAME AS RZASA Sub_0BBEB     #11.1.7.19  Ego_heater_timer_control EGO MONITOR CONTROL STRATEGY, EGO HEATER CONTROL - CRAI8 11-107 {7}
SYM 0B4DF "L__0B4DF_RZA0BC0C"                                          # SAME AS RZASA Sub_0BC0C     # {7}
SUB 0B546 "Sxx0B546_RZA0BCC6_11.1.7.9_CURRENT_MONITOR_STATE_CONTROL"   # SAME AS RZASA Sub_0BCC6     #11.1.7.9  Current_monitor_state_control EGO MONITOR CONTROL STRATEGY, EGO HEATER CONTROL - CRAI8 11-93 {7}
SYM 0B5DD "L__0B5DD_RZA0BD92"                                          # SAME AS RZASA Sub_0BD92     # {7}
SYM 0B648 "L__0B648_RZA0BE53"                                          # SAME AS RZASA Sub_0BE53     # {7}
SUB 0B685 "Sxx0B685_RZA0BE83_11.1.8.1_EGO_HEATER_IO_INIT"              # SAME AS RZASA Sub_0BE83     #11.1.8.1  Ego_heater_io_init EGO MONITOR CONTROL STRATEGY, EGO HEATER IO - CRAI8 11-111 {7}
SUB 0B696 "Sxx0B696_RZA0BE94_11.1.8.2_EGO_HEATER_OUTPUT"               # SAME AS RZASA Sub_0BE94     #11.1.8.2  Ego_heater_output EGO MONITOR CONTROL STRATEGY, EGO HEATER IO - CRAI8 11-112 {7}
SUB 0B6D8 "Sxx0B6D8_RZAxxxxx_"
SYM 0B717 "L__0B717_RZA0BF00_SEE_CRAI8_11-115_OSC_OVERRIDE_LOGIC"      # SAME AS RZASA Sub_0BF00     #EGO MONITOR CONTROL STRATEGY, EGO HEATER IO - CRAI8 11-115 {7}
SUB 0B7F6 "Sxx0B7F6_RZA0C003"                                            # SAME AS RZASA Sub_0C003     # {7}
SUB 0B87A "Sxx0B87A_RZA0C078_11.1.9.1_HEATER_FLO_INIT"                 # SAME AS RZASA Sub_0C078     #11.1.9.1  Heater_flo_init EGO MONITOR, EGO HEATER DUTY CYCLE CONTROL - CRAI8 11-121 {7}
SUB 0B8AA "Sxx0B8AA_RZA0C0A7_11.1.9.2_HEATER_FLO_CONTROL"              # SAME AS RZASA Sub_0C0A7     #11.1.9.2  Heater_flo_control EGO MONITOR, EGO HEATER DUTY CYCLE CONTROL - CRAI8 11-122 {7}
SUB 0B958 "Sxx0B958_RZA02CBC"                                            # SAME AS RZASA L___02CBC     # {7}
SUB 0B9ED "Sxx0B9ED_RZA0C175"                                            # SAME AS RZASA Sub_0C175     # {7}
SUB 0BA07 "Sxx0BA07_RZA0C18A"                                            # SAME AS RZASA Sub_0C18A     # {7}
SUB 0BA6C "Sxx0BA6C_RZA0C1EF"                                            # SAME AS RZASA Sub_0C1EF     # {7}
SYM 0BD07 "Sxx0BD07_RZA0C4A3"                                            # SAME AS RZASA Sub_0C4A3     # {7}
SUB 0BD13 "Sxx0BD13_RZA0C4AE"                                            # SAME AS RZASA Sub_0C4AE     # {7}
SUB 0BD5F "Sxx0BD5F_RZA0C4F8"                                            # SAME AS RZASA Sub_0C4F8     # {7}

SUB 0BD71 "Sxx0BD71_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0BD74 "Sxx0BD74_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0BD77 "Sxx0BD77_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0BD80 "Sxx0BD80_RZAxxxxx_11.1.17.1_EGO_LAMBSE_CLIPS"                 # SAME AS RZASA Sub_xxxxx     #11.1.17.1  Ego_lambse_clips EGO MONITOR CONTROL STRATEGY, HEGO LAMBSE CLIP STUB - CRAI8 11-223 {7}

SUB 0BD89 "Sxx0BD89_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0BDAA "Sxx0BDAA_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0BDCE "Sxx0BDCE_RZA0C50A_11.1.19.2_UPSTREAM_INITIALIZATION_ENH_HYS"  # SAME AS RZASA Sub_0C50A     #11.1.19.2  Upstream_initialization_enh_hys  EGO MONITOR CONTROL STRATEGY, ENHANCED HYSTERISIS INPUT PROC - CRAI8 11-231 {7}

SUB 0BDE7 "Sbg0BDE7_RZAxxxxx_11.1.19.3_BACKGROUND_EGO_SAMPLING"          # SAME AS RZASA Sub_xxxxx     #11.1.19.3  Background_ego_sampling EGO MONITOR CONTROL STRATEGY, ENHANCED HYSTERISIS INPUT PROC - CRAI8 11-232 {7}

SUB 0BDEF "Sxx0BDEF_RZA0C51E_11.1.19.4_FIXED_RATE_EGO_INPUT_PROCESSING"  # SAME AS RZASA Sub_0C51E     #11.1.19.4  Fixed_rate_ego_input_processing EGO MONITOR CONTROL STRATEGY, ENHANCED HYSTERISIS INPUT PROC - CRAI8 11-233 {7}
SUB 0BF40 "Sxx0BF40_RZA0C661_DETERMINE_VEGO_RHBAR[BANK1][UPS]_&_VEGO_LNBAR[BANK1][UPS]"      # SAME AS RZASA Sub_0C661#SEEMS TO DETERMINE VEGO_RHBAR[BANK1][UPS] & VEGO_LNBAR[BANK1][UPS] USING us_swtpoint_tmp + VEGO_DEL_INI FOR 11.1.19.2 & 11.1.19.4 {7}
SUB 0BF60 "Sxx0BF60_RZAxxxxx_9.7.3.1_FPUMP_SELECT"                       # SAME AS RZASA Sub_xxxxx     #9.7.3.1  Fpump_select FUEL PUMP, FUEL PUMP SELECTION LOGIC - CRAI8 9-84 {7} 
SUB 0BF9E "Sxx0BF9E_RZA0C7E4_9.7.4.1_FP_ON_OFF_CONTROL"                  # SAME AS RZASA Sub_0C7E4     #9.7.4.1  Fp_on_off_control FUEL PUMP, FUEL PUMP CONTROL LOGIC - CRAI8 9-86 {7}
SUB 0BFE8 "Sxx0BFE8_RZAxxxxx_9.7.12.1_FP_HI_LO_TEST"                     # SAME AS RZASA Sub_xxxxx     #9.7.12.1  Fp_hi_lo_test  FUEL STRATEGY, FUEL PUMP PRIMARY CIRCUIT TEST - CRAI8 9-123 {7}
SUB 0C04B "Sxx0C04B_RZAxxxxx_9.7.5.1_FP_HI_LO_CONTROL"                   # SAME AS RZASA Sub_xxxxx     #9.7.5.1  Fp_hi_lo_control FUEL PUMP, TWO-SPEED FUEL PUMP CONTROL LOGIC - CRAI8 9-89 {7}
SUB 0C0BA "Sxx0C0BA_RZA0CB0B_??_9.7.6.1_FP_FLOW_MARGIN_CONTROL"          # SAME AS RZASA Sub_0CB0B     #9.7.6.1  Fp_flow_margin_control FUEL PUMP, FLOW MARGIN FUEL PUMP - CRAI8 9-95 {7}
SUB 0C0ED "Sxx0C0ED_RZAxxxxx_9.7.6.2_FP_CALC_FLOW_RATE"                  # SAME AS RZASA Sub_xxxxx     #9.7.6.2  Fp_calc_flow_rate FUEL PUMP, FLOW MARGIN FUEL PUMP - CRAI8 9-95 {7}
SUB 0C1A6 "Sxx0C1A6_RZAxxxxx_9.7.6.3_FP_CALC_DUTY_CYCLE"                 # SAME AS RZASA Sub_xxxxx     #9.7.6.3  Fp_calc_duty_cycle FUEL PUMP, FLOW MARGIN FUEL PUMP - CRAI8 9-97 {7}
SUB 0C24F "Sxx0C24F_RZA0D0B6_9.7.7.1_FF_PWM_OUTPUT"                      # SAME AS RZASA Sub_0D0B6     #9.7.7.1  Fp_pwm_output FUEL PUMP, FUEL PUMP OUTPUT CONTROL - CRAI8 9-99 {7}
SUB 0C29F "Sxx0C29F_RZAxxxxx_9.7.8.1_FP-HI_LO_OUTPUT"                    # SAME AS RZASA Sub_xxxxx     #9.7.8.1  Fp_hi_lo_output FUEL STRATEGY, FUEL DELIVERY SYSTEM, FUEL PUMP SPEED OUTPUT - CRAI8 9-101 {7}
SUB 0C2A6 "Sxx0C2A6_RZAxxxxx_9.7.8.2_FPL_OUTPUT"     #L_0C2A6-L_0Cxxx    # SAME AS RZASA Sub_xxxxx     #9.7.8.2  Fpl_output FUEL STRATEGY, FUEL DELIVERY SYSTEM, FUEL PUMP SPEED OUTPUT - CRAI8 9-101 {7}
SUB 0C2C3 "Sxx0C2C3_RZA0D105_9.7.9.1_FP_DRIVER_TEST"                     # SAME AS RZASA Sub_0D105     #9.7.9.1  Fp_driver_test FUEL PUMP, FUEL PUMP PRIMARY CIRCUIT TEST - CRAI8 9-104 {7}
SUB 0C30E "Sxx0C30E_RZAxxxxx_9.7.9.2_FP_TEST_DRIVER_CIRCUIT" #L_0C30E-L_0C329 # SAME AS RZASA Sub_xxxxx     #9.7.9.2  Fp_test_driver_circuit FUEL PUMP, FUEL PUMP PRIMARY CIRCUIT TEST - CRAI8 9-105 {7}
SUB 0C32D "Sxx0C32D_RZA0D16F_9.7.10.1_FP_SECONDARY_TEST"                 # SAME AS RZASA Sub_0D16F     #9.7.10.1  Fp_secondary_test FUEL PUMP, FUEL PUMP SECONDARY CIRCUIT TEST - CRAI8 9-110 {7}
SUB 0C389 "Sxx0C389_RZAxxxxx_9.7.10.2_FP_TEST_SECONDARY_CIRCUIT"#L_0C389-L_0C3E5 # SAME AS RZASA Sub_xxxxx     #9.7.10.2  Fp_test_secondary_circuit FUEL PUMP, FUEL PUMP SECONDARY CIRCUIT TEST - CRAI8 9-112 {7}
SUB 0C3FB "Sxx0C3FB_RZA0D230_9.7.11.1_FP_FPDM_TST"                       # SAME AS RZASA Sub_0D230     #9.7.11.1  Fp_fpdm_tst FUEL PUMP, FUEL PUMP DRIVER MODULE TEST - CRAI8 9-117 {7}
SUB 0C5BA "Sxx0C5BA_RZAxxxxx_9.7.11.2_FP_FPDM_DIAGNOSTICS"#L_0C468-L_0C5BA# SAME AS RZASA Sub_xxxxx     #9.7.11.2  Fp_fpdm_diagnostics FUEL PUMP, FUEL PUMP DRIVER MODULE TEST - CRAI8 9-118 {7}
SYM 0C5BC "CLEAR_FPDM_COUNTERS_AND_TIMERS"                               # FUEL PUMP, FUEL PUMP DRIVER MODULE TEST - CRAI8 9-118 part of 9.7.11.1  Fp_fpdm_tst
SYM 0C5CC "CLEAR_FPDM_ERROR_CODES"                                       # FUEL PUMP, FUEL PUMP DRIVER MODULE TEST - CRAI8 9-118 part of 9.7.11.1  Fp_fpdm_tst 
SUB 0C5EC "Sbg0C5EC_RZA0C840_9.7.17.1_RF_BKGD_MAIN"                      # SAME AS RZASA Sub_0C840     #9.7.17.1  Rf_bkgd_main FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-154 {7}
SUB 0C63B "Sxx0363B_RZAxxxxx_9.7.17.2_FP_INFER_RAILTEMP"#L_0C63B-L_0C7C6 # SAME AS RZASA Sub_xxxxx     #9.7.17.2  Fp_infer_railtemp FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-155 {7}
SUB 0C7E5 "Sbg0C7E5_RZA0CA56_9.7.17.5_RF_BKGD_CALC_DELTA_P_REF"          # SAME AS RZASA Sub_0CA56     #9.7.17.5  Rf_bkgd_calc_delta_p_ref FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-158 {7}
SUB 0C86A "Sxx0C86A_RZA0CB0B_9.7.17.6_RF_BKGD_CALC_FLOW_RATE"            # SAME AS RZASA Sub_0CB0B     #9.7.17.6  Rf_bkgd_calc_flow_rate FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-159 {7}
SUB 0C8F9 "Sxx0C8F9_RZA0CB96_9.7.17.7_RF_BKGD_FEEDFORWARD"               # SAME AS RZASA Sub_0CB96     #9.7.17.7  Rf_bkgd_feedforward  FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-160 {7}

SUB 0C991 "Sxx0C991_RZAxxxxx_9.7.17.8_RF_ADAPTIVE_FF"                    # SAME AS RZASA Sub_xxxxx     #9.7.17.8  Rf_adaptive_ff FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-162 {7}

SUB 0CBE5 "Sxx0CBE5_RZA0CEA6_9.7.17.4_FP_ADAPT_COLUMNS_??"               # SAME AS RZASA Sub_0CEA6     #9.7.17.4  Fp_adapt_columns FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-158 {7}
SUB 0CBF9 "Sxx0CBF9_RZA0CEBA_9.7.18.1_FP_FRDPS_TEST"                     # SAME AS RZASA Sub_0CEBA     #9.7.18.1  Fp_frdps_tst FUEL PUMP, FUEL RAIL DELTA - P SENSOR DIAGNOSTICS - CRAI8 9-171 {7}
SUB 0CCBC "Sxx0CCBC_RZA0CF7D_9.7.18.2_FRDPS_DIAGNOSTICS"                 # SAME AS RZASA Sub_0CF7D     #9.7.18.2  Fp_frdps_diagnostics FUEL PUMP, FUEL RAIL DELTA - P SENSOR DIAGNOSTICS - CRAI8 9-173 {7}
SUB 0CDED "Sxx0CDED_RZA0D35B_9.7.19.1_FP_FRTS_TST"                       # SAME AS RZASA Sub_0D35B     #9.7.19.1  FP_FRTS_TST FUEL PUMP, FUEL RAIL TEMPERATURE SENSOR DIAGNOSTICS - CRAI8 9-177 {7}
SUB 0CE3F "Sxx0CE3F_RZAxxxxx_12.4.1.3_CHECK_FOR_CID"                     # SAME AS RZASA Sub_xxxxx     #12.4.1.3  Check_for_cid CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-282 {7}
SUB 0CE6D "Sxx0CE6D_RZA0D3DD_9.7.19.2_FP_FRTS_DIAGNOSTICS"               # SAME AS RZASA Sub_0D3DD     #9.7.19.2  Fp_frts_diagnostics FUEL PUMP, FUEL RAIL TEMPERATURE SENSOR DIAGNOSTICS - CRAI8 9-178 {7}
SUB 0CE85 "Sxx0CE85_RZA0C7C3_9.7.13.1_FP_ERFSTUB"                        # SAME AS RZASA Sub_0C7C3     #9.7.13.1  Fp_erfstub FUEL PUMP, FUEL PUMP STUB LOGIC - CRAI8 9-125  {7}
SUB 0CE98 "Sxx0CE98_RZAxxxxx_36.1.2.1_DIAGX_RAM_INIT"                    # SAME AS RZASA Sub_xxxxx     #36.1.2.1  Diagx_ram_init DIAGX STRATEGY, RAM INIT CRAI8 36-32 COULD ALSO BE 36.1.2  RAM INIT (CRAI0) 36-31 {7}
SUB 0CEB3 "Sbg0CEB3_RZAxxxxx_36.1.4.1_DIAGX_EXEC_BG"                     # SAME AS RZASA Sub_xxxxx     #36.1.4.1  Diagx_exec_bg DIAGNOSTIC EXECUTIVE, BACKGROUND SEQUENCE - CRAI8 36-38 {7}
SUB 0CED3 "Sxx0CED3_RZAxxxxx_36.1.5.1_PARAMETER_RESET_SIGNAL_CONTROL"    # SAME AS RZASA Sub_xxxxx     #36.1.5.1  Parameter_reset_signal_control DIAGX STRATEGY, DIAGNOSTIC SCHEDULER - CRAI8 36-58 {7}
SUB 0CF2D "Sxx0CF2D_RZAxxxxx_36.1.5.2_SCAN_TOOL_INTERFACE"               # SAME AS RZASA Sub_xxxxx     #36.1.5.2  Scan_tool_interface DIAGX STRATEGY, DIAGNOSTIC SCHEDULER - CRAI8 36-59 {7}
SUB 0CF65 "SxxOCF65_RZAxxxxx_36.1.5.3_DETERMINE_DEMAND_MODE"             # SAME AS RZASA Sub_xxxxx     #36.1.5.3  Determine_demand_mode DIAGX STRATEGY, DIAGNOSTIC SCHEDULER - CRAI8 36-60 {7}
SUB 0CF81 "Sxx0CF81_RZAxxxxx_36.1.5.4_DIAGNOSTIC_SCHEDULER_CONTROL"      # SAME AS RZASA Sub_xxxxx     #36.1.5.4  Diagnostic_scheduler_control DIAGX STRATEGY, DIAGNOSTIC SCHEDULER - CRAI8 36-60 {7}
SUB 0CF9C "Sxx0CF9C_RZAxxxxx_12.2.7.6_SPKKC_KNK_SEND_EVENT_CONSTANTS"    # SAME AS RZASA Sub_xxxxx     #12.2.7.6  Spkkc_knk_send_event_constants KNOCK CONTROL, KNOCK CONTROL STRATEGY - CRAI8 12-154 {7}
SUB 0CFAA "Sxx0CFAA_RZAxxxxx_36.1.5.5_DIAGNOSTIC_SCHEDULER"              # SAME AS RZASA Sub_xxxxx     #36.1.5.5  Diagnostic_scheduler DIAGX STRATEGY, DIAGNOSTIC SCHEDULER - CRAI8 36-61 {7} 

SUB 0D2BD "Sxx0D2BD_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0D31E "Sxx0D31E_RZA0EBE3_36.1.5.7_DISABLE_ALL_MONITORS"              # SAME AS RZASA Sub_0EBE3     #36.1.5.7  Disable_all_monitors DIAGX STRATEGY, DIAGNOSTIC SCHEDULER - CRAI8 36-68 {7}
SUB 0D33C "Sxx0D33C_RZA0EC01_36.1.5.8_DTC_CONTROL"                       # SAME AS RZASA Sub_0EC01     #36.1.5.8  Dtc_control DIAGX STRATEGY, DIAGNOSTIC SCHEDULER - CRAI8 36-69 {7}
SUB 0D371 "Sxx0D371_RZA0ECDE_36.1.9.1_SYSTEM_FMEM"                       # SAME AS RZASA Sub_0ECDE     #36.1.9.1  System_fmem DIAGX STRATEGY, SYSTEM FMEM - CRAI8 36-101 {7}
SUB 0D4A7 "Sxx0D4A7_RZA0EE08"                                            # SAME AS RZASA Sub_0EE08     # {7}
SUB 0D46E "Sxx0D46E_RZA0EDCE_36.1.9.2_RESET_FMEM"                        # SAME AS RZASA Sub_0EDCE     #36.1.9.2  Reset_fmem DIAGX STRATEGY, SYSTEM FMEM - CRAI8 36-102 {7}
SUB 0D48E "Sxx0D48E_RZA0EDEE_36.1.9.5_INTERMITTENT_INITIALIZATION"       # SAME AS RZASA Sub_0EDEE     #36.1.9.5  Intermittent_initialization DIAGX STRATEGY, SYSTEM FMEM - CRAI8 36-106 {7}
SUB 0D58B "Sxx0D58B_ALSO_RZA0F887_36.1.1.1.6_MALFUNCTION_??"             # SAME AS RZASA Sub_0F887     # 36.1.1.1.6  Malfunction(sys, Pxxx) Strategy Subroutine Call DIAGX STRATEGY, DIAGNOSTIC EXECUTIVE FEATURE OVERVIEW - CRAI8 36-10 {7}
SUB 0D593 "Sxx0D593_RZA0F88E_MALFUNCTION(&Pxxxx)"                        # SAME AS RZASA Sub_0F88E     # {7}
SUB 0D69D "Sxx0D69D_RZA0E087_36.1.10.2_INITIALIZE_MIL"                   # SAME AS RZASA Sub_0E087     #36.1.10.2  Initialize_mil DIAGX STRATEGY, MIL CONTROLLER - CRAI8 36-121 {7}
SUB 0D6C5 "Sxx0D6C5_RZA0E0B9_36.1.10.3_CHECK_SYS_MON_COMPLETE"           # SAME AS RZASA Sub_0E0B9     #36.1.10.3  Check_sys_mon_complete DIAGX STRATEGY, MIL CONTROLLER - CRAI8 36-121 {7}
SUB 0D80D "Sxx0D80D_RZAxxxxx_36.1.10.4_RESET_MIL"                        # SAME AS RZASA Sub_xxxxx     #36.1.10.4  Reset_mil DIAGX STRATEGY, MIL CONTROLLER - CRAI8 36-123 {7}
SUB 0D83B "Sxx0D83B_RZA0F820_Sub251"                                     # SAME AS RZASA Sub_0F820     # {7}
SUB 0D85A "Sxx0D85A_ALSO_RZA0F887_39.1.1.2.8_STORE_CODE(&Pxxx)"          # SAME AS RZASA Sub_0f887_??     #39.1.1.2.8  Store_code(Pxxx) Strategy Subroutine Call DIAGX STRATEGY, DIAGNOSTIC EXECUTIVE FEATURE OVERVIEW - CRAI8 36-10 {7}
SUB 0D85E "Sxx0D85E_RZA0F9F6_36.1.9.8_SET_INTERMITTENT_??"                  # SAME AS RZASA Sub_0F9F6     #36.1.9.8  Set_intermittent DIAGX STRATEGY, SYSTEM FMEM - CRAI8 36-110 {7}
SUB 0D869 "Sxx0D869_RZA0FA05_36.1.11.4_STORE_MIL_CODE_(mil_code*Pxxx)"   # SAME AS RZASA Sub_0FA05     #36.1.11.4  Store_mil_code DIAGX STRATEGY, FAULT CODES - CRAI8 36-130 {7}
SUB 0D8CB "Sxx0D8CB_RZA0FA6C_36.1.11.5_ERASE_CODE(Pxxx)"                 # SAME AS RZASA Sub_0FA6C     #36.1.11.5  Erase_code DIAGX STRATEGY, FAULT CODES - CRAI8 36-130 {7}

SUB 0D8CF "Sxx0D8CF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 0D8D7 "Sxx0D8D7_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0D8DC "Sxx0D8DC_RZA0FA7D_DETERMINE_P_CODE_NUMBER_??"                 # SAME AS RZASA Sub_0FA7D     #SEEMS TO BE SUB TO DETERMINE PCODE AND CLEAR FF {7}
SUB 0D8F4 "Sxx0D8F4_RZA0FA86_36.1.11.7_ERASE_MIS_CODE_(mil_code*Pxxx)"   # SAME AS RZASA Sub_0FA86     #36.1.11.7  Erase_mis_code DIAGX STRATEGY, FAULT CODES - CRAI8 36-132 {7}
SUB 0D968 "Sxx0D968_RZA0DA59_36.1.11.1_DIAGX_CODES"                      # SAME AS RZASA Sub_0DA59     #36.1.11.1  Diagx_codes DIAGX STRATEGY, FAULT CODES - CRAI8 36-128 {7}
SUB 0D91F "Sxx0D91F_RZA0DACF"                                            # SAME AS RZASA Sub_0DACF     # {7}

SUB 0D95D "SXX0D95D_RZAxxxxx_36.1.11.7_ERASE_MIS_CODE(Pyyy)"             # SAME AS RZASA Sub_xxxxx     #36.1.11.7  Erase_mis_code DIAGX STRATEGY, FAULT CODES - CRAI8 36-132 {7}

SUB 0D9F1 "Sxx0D9F1_RZAxxxxx_36.1.11.8_RESET_CODES"                      # SAME AS RZASA Sub_xxxxx     #36.1.11.8  Reset_codes DIAGX STRATEGY, FAULT CODES - CRAI8 36-133 {7}
SUB 0DA19 "Sxx0DA19_RZA0DADF_36.1.11.9_INIT_CODES"                       # SAME AS RZASA Sub_0DADF     #36.1.11.9  Init_codes DIAGX STRATEGY, FAULT CODES - CRAI8 36-134 {7}
SUB 0DA37 "Sxx0DA37_RZA0DAFD_36.1.11.10_INC_WARMUP_COUNTERS"             # SAME AS RZASA Sub_0DAFD     #36.1.11.10  Inc_warmup_counters DIAGX STRATEGY, FAULT CODES - CRAI8 36-135 {7}
SUB 0DA64 "Sxx0DA64_RZA0FB37_36.1.1.1.7_CLEAR_MIL_MALF"                  # SAME AS RZASA Sub_0FB37     #36.1.1.1.7  Clear_malf(Pxxx) Strategy Subroutine Call DIAGX STRATEGY, DIAGNOSTIC EXECUTIVE FEATURE OVERVIEW - CRAI8 36-10 {7}
SUB 0DA68 "Sxx0DA68_RZA0FB42_36.1.9.7_CLEAR_INTERMITTENT"                # SAME AS RZASA Sub_0FB42     #36.1.9.7  Clear_intermittent DIAGX STRATEGY, SYSTEM FMEM - CRAI8 36-109 {7}
#SUB 0DA68 "Sxx0DA68_RZA0FB42_36.1.11.11_CLEAR_MALF_NON_MIL"             # SAME AS RZASA Sub_0FB42     #36.1.11.11  Clear_malf ( non_mil_code* Pxxx ) DIAGX STRATEGY, FAULT CODES - CRAI8 36-136{7}
SUB 0DA71 "Sxx0DA71_RZA0EEF2"                                            # SAME AS RZASA Sub_0EEF2     # {7}
SUB 0DA77 "Sxx0DA77_RZAxxxxx_36.1.12.1_UPDATE_TRIP_FLAG"                 # SAME AS RZASA Sub_xxxxx     #36.1.12.1  Update_trip_flag  DIAGX STRATEGY, TRIPS - CRAI8 36-148 {7}  
SUB 0DAB9 "Sxx0DAB9_RZA0EF43_36.1.12.2_UPDATE_READY_FLAGS"               # SAME AS RZASA Sub_0EF43     #36.1.12.2  Update_ready_flags DIAGX STRATEGY, TRIPS - CRAI8 36-149 {7}
SUB 0DBB0 "Sxx0DBB0_RZAxxxxx_36.1.12.3_UPDATE_P1000_CODE"                # SAME AS RZASA Sub_xxxxx     #36.1.12.3  Update_p1000_code DIAGX STRATEGY, TRIPS - CRAI8 36-151 {7}
SUB 0DBCC "Sxx0DBCC_RZA0F080_36.1.12.4_CHECK_READINESS"                  # SAME AS RZASA Sub_0F080     #36.1.12.4  Check_readiness  DIAGX STRATEGY, TRIPS - CRAI8 36-152 {7}
SUB 0DC1F "Sxx0DC1F_RZA0F0FB_36.1.12.5RESET_TRIPS"                       # SAME AS RZASA Sub_0F0FB     #36.1.12.5  Reset_trips DIAGX STRATEGY, TRIPS - CRAI8 36-153 {7}
SUB 0DC89 "Sxx0DC89_RZA0F167_36.1.12.6_INIT_TRIPS"                       # SAME AS RZASA Sub_0F167     #36.1.12.6  Init_trips DIAGX STRATEGY, TRIPS - CRAI8 36-155 {7}
SUB 0DCA8 "Sxx0DCA8_RZA0F1BD_36.1.12.7_SYS_READY_CONTROL"                # SAME AS RZASA Sub_0F1BD     #36.1.12.7  Sys_ready_control DIAGX STRATEGY, TRIPS - CRAI8 36-157 {7}
SUB 0DD66 "Sxx0DD66_RZA0F30A_36.1.12.8_CHECK_ALT_FUEL_MONITORS"          # SAME AS RZASA Sub_0F30A     #36.1.12.8  Check_alt_fuel_monitors DIAGX STRATEGY, TRIPS - CRAI8 36-161 {7}
SUB 0DD89 "Sxx0DD89_RZA0F32A_36.1.12.9_SYS_READY_TO_ONE"                 # SAME AS RZASA Sub_0F32A     #36.1.12.9  Sys_ready_to_one  DIAGX STRATEGY, TRIPS - CRAI8 36-162 {7}
SUB 0DD97 "Sxx0DD97_RZA0F338_36.1.12.11_SAVE_COUNT_NG"                   # SAME AS RZASA Sub_0F338     #36.1.12.11  Save_count_ng DIAGX STRATEGY, TRIPS - CRAI8 36-164 {7}
SUB 0DDA5 "Sxx0DDA5_RZA0F346_36.1.12.10_SAVE_COUNT_GAS"                  # SAME AS RZASA Sub_0F346     #36.1.12.10  Save_count_gas DIAGX STRATEGY, TRIPS - CRAI8 36-163 {7}
SUB 0DDC4 "Sxx0DDC4_RZA0F365_36.1.12.12_READY_TO_RDY_NG"                 # SAME AS RZASA Sub_0F365     #36.1.12.12  Ready_to_rdy_ng DIAGX STRATEGY, TRIPS - CRAI8 36-165 {7}
SUB 0DDDD "Sxx0DDDD_RZA0F37E_36.1.12.13_READY_TO_RDY_GAS"                # SAME AS RZASA Sub_0F37E     #36.1.12.13  Ready_to_rdy_gas DIAGX STRATEGY, TRIPS - CRAI8 36-166 {7}
SUB 0DDF6 "Sxx0DDF6_RZA0F397_36.1.12.14_RDY_GAS_TO_READY"                # SAME AS RZASA Sub_0F397     #36.1.12.14  Rdy_gas_to_ready DIAGX STRATEGY, TRIPS - CRAI8 36-167 {7}
SUB 0DE0F "Sxx0DE0F_RZA0F3B0_36.1.12.15_RDY_NG_TO_READY"                 # SAME AS RZASA Sub_0F3B0     #36.1.12.15  Rdy_ng_to_ready  DIAGX STRATEGY, TRIPS - CRAI8 36-168 {7}
SUB 0DE28 "Sxx0DE28_RZA0F5B4_36.1.13.1_TYPE1_MALFUNCTION_(MIL_CODE*pxxx,S32_sys)"  # SAME AS RZASA Sub_0F5B4     #36.1.13.1  Type1_malfunction ( mil_code *pxxx, S32 sys ) DIAGX STRATEGY, STATE CONTROL-TYPE 1 - CRAI8 36-173 {7}
SUB 0DE8B "Sxx0DE8B_RZA0F69D_36.1.13.3_TYPE1_TRIP_COMPLETE"              # SAME AS RZASA Sub_0F69D     #36.1.13.3  Type1_trip_complete DIAGX STRATEGY, STATE CONTROL-TYPE 1 - CRAI8 36-176  {7}
SUB 0DEDE "Sxx0DEDE_RZAxxxxx_36.1.13.5_TYPE1_RESET"                      # SAME AS RZASA Sub_xxxxx     #36.1.13.5  Type1_reset DIAGX STRATEGY, STATE CONTROL-TYPE 1 - CRAI8 36_178 {7}
SUB 0DF11 "Sxx0DF11_RZA0F60E_??_36.1.13.2TYPE1_INIT_MIL"                 # SAME AS RZASA Sub_0F60E     #36.1.13.2  Type1_init_mil DIAGX STRATEGY, STATE CONTROL-TYPE 1 - CRAI8 36-175 {7}
SUB 0DF46 "Sxx0DF46_RZA0F5B4_??_36.1.14.1FUEL_MALFUNCTION"               # SAME AS RZASA Sub_0F5B4     #36.1.14.1  Fuel_malfunction DIAGX STRATEGY, FUEL STATE CONTROL - CRAI8 36-183 {7}
SUB 0DFA7 "Sxx0DFA7_RZA0E52E_36.1.14.3_FUEL_TRIP_COMPLETE"               # SAME AS RZASA Sub_0E52E     #36.1.14.3  Fuel_trip_complete DIAGX STRATEGY, FUEL STATE CONTROL - CRAI8 36-186 {7}
SUB 0DFB2 "Sxx0DFB2_RZA0E53F_36.1.14.4_FUEL_RESET"                       # SAME AS RZASA Sub_0E53F     #36.1.14.4  Fuel_reset DIAGX STRATEGY, FUEL STATE CONTROL - CRAI8 36-187 {7}
SUB 0DFE3 "Sxx0DFE3_RZA0E4A4_36.1.14.2_FUEL_INIT_MIL"                    # SAME AS RZASA Sub_0E4A4     #36.1.14.2  Fuel_init_mil DIAGX STRATEGY, FUEL STATE CONTROL - CRAI8 36-184 {7}
SUB 0E09D "Sxx0E09D_RZA0E40C_??_36.1.15.1_MIS_MALFUNCTION"                 # SAME AS RZASA Sub_0E40C     #36.1.15.1  Mis_malfunction ( mil_code *Pxxx ) DIAGX STRATEGY, MISFIRE STATE CONTROL - CRAI8 36-195 {7}
SUB 0E0FD "Sxx0E0FD_RZA0E52E_??_36.1.15.3_MIS_TRIP_COMPLETE"               # SAME AS RZASA Sub_0E52E     #36.1.15.3  Mis_trip_complete DIAGX STRATEGY, MISFIRE STATE CONTROL - CRAI8 36-196 {7}

SUB 0E105 "Sxx0E105_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0E128 "Sxx0E128_RZAxxxxx_36.1.15.4_MIS_RESET"                        # SAME AS RZASA Sub_xxxxx     #36.1.15.4  Mis_reset DIAGX STRATEGY, MISFIRE STATE CONTROL - CRAI8 36-198 {7}
SUB 0E163 "Sxx0E163_RZAxxxxx_36.1.15.2_MIS_INIT_MIL"                     # SAME AS RZASA Sub_xxxxx     #36.1.15.2  Mis_init_mil DIAGX STRATEGY, MISFIRE STATE CONTROL - CRAI8 36-196 {7}

SUB 0E218 "Sxx0E218_RZAxxxxx_36.1.15.5_UNKNOWN_MISFIRE"                  # SAME AS RZASA Sub_xxxxx     #36.1.15.5  Unknown_misfire DIAGX STRATEGY, MISFIRE STATE CONTROL - CRAI8 36-198 {7}
SUB 0E2A0 "Sxx0E2A0_RZAxxxxx_36.1.15.6_KNOWN_MISFIRE"                    # SAME AS RZASA Sub_xxxxx     #36.1.15.6  Known_misfire DIAGX STRATEGY, MISFIRE STATE CONTROL - CRAI8 36-199 {7}

SUB 0E2D6 "Sxx0E2D6_RZA0E418_36.1.15.7_MIS_CONDS_SEEN(mil_code*Pxxx)_??" # SAME AS RZASA L__0E418-L__0E430     #36.1.15.7  Mis_conds_seen DIAGX STRATEGY, MISFIRE STATE CONTROL - CRAI8 36-200 {7}
SUB 0E2FA "Sxx0E2FA_RZA0D783_36.1.16.1_CL_MALFUNCTION"                   # SAME AS RZASA Sub_0D783     #36.1.16.1  Cl_malfunction DIAGX STRATEGY, CLOSED LOOP ENTRY MIL CONTROL - CRAI8 36-204 {7}
SUB 0E338 "Sxx0E338_RZA0D7C1_36.1.16.2_CL_RESET"                         # SAME AS RZASA Sub_0D7C1     #36.1.16.2  Cl_reset DIAGX STRATEGY, CLOSED LOOP ENTRY MIL CONTROL - CRAI8 36-206 {7}
SUB 0E360 "Sxx0E360_RZAxxxxx_36.1.16.3_CL_INIT_MIL"                      # SAME AS RZASA Sub_xxxxx     #36.1.16.3  Cl_init_mil DIAGX STRATEGY, CLOSED LOOP ENTRY MIL CONTROL - CRAI8 36-207 {7}
SUB 0E39F "Sxx0E39F_RZA0D857_36.1.16.4_CL_TRIP_COMPLETE"                 # SAME AS RZASA Sub_0D857     #36.1.16.4  Cl_trip_complete DIAGX STRATEGY, CLOSED LOOP ENTRY MIL CONTROL - CRAI8 36-207 {7}
SUB 0E3B3 "Sxx0E3B3_RZA0E2F6_36.1.17.2_MIL_OUTPUT_??"                      # SAME AS RZASA Sub_0E2F6     #36.1.17.2  Mil_output DIAGX STRATEGY, MIL OUTPUT CONTROL - CRAI8 36-212  {7}
SUB 0E409 "Sxx0E409_RZAxxxxx_36.1.17.1_DIAGX_MIL_OUTPUT_PID_DEFS"        # SAME AS RZASA Sub_xxxxx     #36.1.17.1  Diagx_mil_output_pid_defs  DIAGX STRATEGY, MIL OUTPUT CONTROL - CRAI8 36-212 {7}
SUB 0E49E "Sxx0E49E_RZA0DE6F_36.1.18.1_MIL_ON_VERIFICATION"              # SAME AS RZASA Sub_0DE6F     #36.1.18.1  Mil_on_verification DIAGX STRATEGY, KAM VERIFICATION - CRAI8 36-219 {7}
SUB 0E4AA "Sxx0E4AA_RZAxxxxx_36.1.18.2_MIL_OFF_VERIFICATION"             # SAME AS RZASA Sub_xxxxx     #36.1.18.2  Mil_off_verification DIAGX STRATEGY, KAM VERIFICATION - CRAI8 36-220 {7}
SUB 0E4B6 "Sxx0E4B6_RZAxxxxx_36.1.18.3_MIL_INTEGRITY_CHECK"              # SAME AS RZASA Sub_xxxxx     #36.1.18.3  Mil_integrity_check DIAGX STRATEGY, KAM VERIFICATION - CRAI8 36-221 {7}

SUB 0E4D5 "Sxx0E4D5_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0E538 "Sxx0E538_RZAxxxxx_36.1.18.4_POWER_UP_VERIFICATION"            # SAME AS RZASA Sub_xxxxx     #36.1.18.4  Power_up_verification DIAGX STRATEGY, KAM VERIFICATION - CRAI8 36-223 {7}

SUB 0E5BC "Sxx0E5BC_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0E6C2 "Sxx0E6C2_RZAxxxxx_36.1.19.1_FREEZE_FRAME_PID_DEFS"            # SAME AS RZASA Sub_xxxxx     #36.1.19.1  Freeze_frame_pid_defs DIAGX STRATEGY, FREEZE FRAME - CRAI8 36-233 {7}
SUB 0E733 "Sxx0E733_RZA0DC00"                                            # SAME AS RZASA Sub_0DC00     # {7}
SUB 0E73B "Sxx0E73B_RZAxxxxx_DIVIDE_VALUE_BY_128"                        #                             # {7}
SUB 0E74E "Sxx0E74E_RZA0DC13_MULTIPLY_VALUE_BY_128"                      # SAME AS RZASA Sub_0DC13     # {7}
SUB 0E75D "Sxx0E75D_RZA0DC22"                                            # SAME AS RZASA Sub_0DC22     # {7}
SUB 0E77B "Sxx0E77B_RZA0DC40_36.1.19.2_STORE_FF"                         # SAME AS RZASA Sub_0DC40     #36.1.19.2  Store_ff  DIAGX STRATEGY, FREEZE FRAME - CRAI8 36-233 {7}
SUB 0E7DD "Sxx0E7DD_RZAxxxxx_36.1.19.3_CLEAR_FF"                         # SAME AS RZASA Sub_xxxxx     #36.1.19.3  Clear_ff DIAGX STRATEGY, FREEZE FRAME - CRAI8 36-235 {7}
SUB 0E822 "Sxx0E822_RZA0DDF1_??_36.1.19.4_SWAP_FF_CODE"                  # SAME AS RZASA Sub_0DDF1     #36.1.19.4  Swap_ff_code DIAGX STRATEGY, FREEZE FRAME - CRAI8 26-235 {7}
SUB 0E82A "Sxx0E82A_RZA0EC36_36.1.20.1_GET_SIMILAR_CONDS"                # SAME AS RZASA Sub_0EC36     #36.1.20.1  Get_similar_conds DIAGX STRATEGY, SIMILAR CONDITIONS - CRAI8 36-238 {7}
SUB 0E849 "Sxx0E849_RZA0EC53_36.1.20.2_CLEAR_SIMILAR_CONDS"              # SAME AS RZASA Sub_0EC53     #36.1.20.2  Clear_similar_conds DIAGX STRATEGY, SIMILAR CONDITIONS - CRAI8 36-239 {7}
SUB 0E859 "Sxx0E859_RZA0EC63"                                            # SAME AS RZASA Sub_0EC63     # {7}
SUB 0E87C "Sxx0E87C_RZA0EC8C_36.1.20.3_CHECK_FUEL_CONDS"                 # SAME AS RZASA Sub_OEC8C     #36.1.20.3  Check_fuel_conds DIAGX STRATEGY, SIMILAR CONDITIONS - CRAI8 36-240 {7}
SUB 0E8BC "Sxx0E8BC_RZA0D97C_??_36.1.21.1_BG_CHECK_FOR_CLOSED_LOOP"      # SAME AS RZASA Sub_0D97C     #36.1.21.1  Bg_check_for_closed_loop DIAGX STRATEGY, DRIVE CYCLE CRAI8 36-243 {7}
SUB 0E8E9 "Sxx0E8E9_RZAxxxxx_36.1.21.3_RESET_DRIVE_CYCLE"                # SAME AS RZASA Sub_xxxxx     #36.1.21.3  Reset_drive_cycle DIAGX STRATEGY, DRIVE CYCLE CRAI8 36-244 {7}
SUB 0E8F0 "Sxx0E8F0_RZAxxxxx_36.1.21.2_CL_SEEN_INIT"                     # SAME AS RZASA Sub_xxxxx     #36.1.21.2  Cl_seen_init DIAGX STRATEGY, DRIVE CYCLE CRAI8 36-244 {7}
SUB 0E900 "Sxx0E900_RZA0BDF9_36.1.22.1_DIAGX_PID_DEFINITIONS"            # SAME AS RZASA Sub_0BDF9     #36.1.22.1  Diagx_pid_definitions DIAGX STRATEGY, J1979 PIDS - CRAI8 36-247 {7}
SUB 0E964 "Sxx0E964_RZA0BD3D_36.1.7.1_FLF_CONTROL"                       # SAME AS RZASA Sub_0BD3D     #36.1.7.1  Flf_control DIAGX STRATEGY, FLF CONTROL - CRAI8 36-81 {7}
SUB 0E9D6 "Sxx0E9D6_RZA0DBC4_36.1.7.2_FLF_INIT"                          # SAME AS RZASA Sub_0DBC4     #36.1.7.2  Flf_init DIAGX STRATEGY, FLF CONTROL - CRAI8 36-82 {7}
SUB 0E9ED "Sxx0E9ED_RZA0E773_36.1.8.1_PTO_CONTROL"                       # SAME AS RZASA Sub_OE773     #36.1.8.1  Pto_control DIAGX STRATEGY, PTO CONTROL - CRAI8 36-87 {7}
SUB 0EA4F "Sxx0EA4F_RZA0E7D3_36.1.8.2_PTO_INIT"                          # SAME AS RZASA Sub_OE7D3     #36.1.8.2  Pto_init DIAGX STRATEGY, PTO CONTROL - CRAI8 36-88 {7}
SUB 0EA66 "Sxx0EA66_RZA0D9BA_36.1.6.1_NG_CONTROL"                        # SAME AS RZASA Sub_OD9BA     #36.1.6.1  Ng_control DIAGX STRATEGY, DUAL FUEL CONTROL - CRAI8 36-75 {7}
SUB 0EAD4 "Sxx0EAD4_RZA0DA24_36.1.6.2_NG_INIT"                           # SAME AS RZASA Sub_0DA24     #36.1.6.2  Ng_init DIAGX STRATEGY, DUAL FUEL CONTROL - CRAI8 36-76 {7}
SUB 0EAEB "Sbg0E87C_RZA0EAEB_39.1.1.6.1_SELFT_EXEC_BG"                   # SAME AS RZASA Sub_95815     #39.1.1.6.1  Selft_exec_bg SELFT STRATEGY, BACKGROUND SEQUENCE - CRAI8 39-14{7}
SUB 0EAF4 "Sxx0EAF4_RZA9581E_39.1.1.9.1_SELFT_KOEO"                      # SAME AS RZASA Sub_9581E     #39.1.1.9.1  Selft_koeo SELFT, KEY ON ENGINE OFF - CRAI8 39-35 {7}
SUB 0EBC9 "Sxx0EBC9_RZA958F3_39.1.1.8.1_SELFT_KOER"                      # SAME AS RZASA Sub_958F3     #39.1.1.8.1  Selft_koer SELFT, KEY ON ENGINE RUNNING SEQUENCE - CRAI8 39-24{7}
SUB 0EE3F "Sxx0EE3F_RZA95B91_39.1.1.8.2_SELFT_INIT_KOER_INIT"            # SAME AS RZASA Sub_95B91     #39.1.1.8.2  Selft_init SELFT, KEY ON ENGINE RUNNING SEQUENCE - CRAI8 39-31 {7}
SUB 0EE54 "Sxx0EE54_RZA95BA6_39.1.1.10.1_SELFT_OTM"                      # SAME AS RZASA Sub_95BA6     #39.1.1.10.1  Selft_otm  SELFT, OUTPUT TEST MODE - CRAI8 39-41 {7}
SUB 0EF0A "Sbg0EF0A_RZAxxxxx_31.8.1.1_TOD_EXEC_BG"                       # SAME AS RZASA Sub_xxxxx     #31.8.1.1 Tod_exec_bg TRANSMISSION OUTPUT DIAGNOSTICS, BACKGROUND MANAGER- CRAI8 31-286 {7}
SUB 0EF28 "Sbg0EF28_RZAxxxxx_31.8.5.1_TOD_SS1_CKT"                       # SAME AS RZASA Sub_xxxxx     #31.8.5.1 Tod_ss1_ckt TRANSMISSION OUTPUT DIAGNOSTICS, SS1 CIRCUIT TEST - CRAI8 31-324 {7}
SUB 0EF91 "Sbg0EF91_RZAxxxxx_31.8.7.1_TOD_SS2_CKT"                       # SAME AS RZASA Sub_xxxxx     #31.8.7.1 Tod_ss2_ckt TRANSMISSION OUTPUT DIAGNOSTICS, SS2 CIRCUIT TEST - CRAI8 31-332 {7}
SUB 0EFF8 "Sbg0EFF8_RZA82752_31.8.4.1_TOD_ISIG"                          # SAME AS RZASA Sub_82752     #31.8.4.1 Tod_isig TRANSMISSION OUTPUT DIAGNOSTICS, INDUCTIVE SIGNATURE - CRAI8 31-315 {7}
SUB 0F00B "Sxx0F00B_RZA82766_31.8.4.2_IS_FAULT_ENABLE"                   # SAME AS RZASA Sub_82766     #31.8.4.2  Is_fault_enable TRANSMISSION OUTPUT DIAGNOSTICS, INDUCTIVE SIGNATURE - CRAI8 31-316 {7}
SUB 0F0B0 "Sxx0F0B0_RZA827FB_31.8.4.3_IS_TEST_ENTRY"                     # SAME AS RZASA Sub_827FB     #31.8.4.3  Is_test_entry TRANSMISSION OUTPUT DIAGNOSTICS, INDUCTIVE SIGNATURE - CRAI8 31-317 {7}
SUB 0F188 "Sxx0F188_RZA82902_31.8.4.4_IS_TEST_CALL"                      # SAME AS RZASA Sub_82902     #31.8.4.4  Is_test_call TRANSMISSION OUTPUT DIAGNOSTICS, INDUCTIVE SIGNATURE - CRAI8 31-319 {7}
SUB 0F208 "Sxx0F208_RZA829A1_31.8.4.5_IND_SIG_COMMUNICATION"             # SAME AS RZASA Sub_829A1     #31.8.4.5  Ind_sig_communication TRANSMISSION OUTPUT DIAGNOSTICS, INDUCTIVE SIGNATURE - CRAI8 31-320 {7}
SUB 0F26A "Sxx0F26A_RZA82B58_31.8.6.1_TOD_SS1_ISIG_TEST"                 # SAME AS RZASA Sub_82B58     #31.8.6.1  Tod_ss1_isig_test TRANSMISSION OUTPUUT DIAGNOSTICS, SS1 INDUCTIVE SIGNATURE - CRAI8 31-328 {7}
SUB 0F2E3 "Sxx0F2E3_RZA82CA8_31.8.8.1_TOD_SS2_ISIG_TEST"                 # SAME AS RZASA Sub_82CA8     #31.8.8.1  Tod_ss2_isig_test TRANSMISSION OUTPUUT DIAGNOSTICS, SS2 INDUCTIVE SIGNATURE TEST - CRAI8 31-337 {7}
SUB 0F35C "Sxx0F35C_RZA82D3A_31.8.9.1_TOD_TCC_ISIG_TEST"                 # SAME AS RZASA Sub_82D3A     #31.8.9.1  Tod_tcc_isig_test TRANSMISSION OUTPUUT DIAGNOSTICS, TCC INDUCTIVE SIGNATURE TEST - CRAI8 31-341 {7}
SUB 0F3D9 "Sbg0F3D9_RZAxxxxx_31.8.3.1_TOD_HIGH_Z_TCC_CKT"   #0F3D9-0F497 # SAME AS RZASA Sub_xxxxx     #31.8.3.1  Tod_high_z_tcc_ckt TRANSMISSION OUTPUT DIAGNOSTICS, TCC HIGH Z SOLENOID CIRCUIT TEST  - CRAI8 31-303 {7}
SUB 0F498 "Sbg0F498_RZAxxxxx_31.8.2.1_TOD_EPC_VFS_CKT"      #0F498-0F4DB # SAME AS RZASA Sub_xxxxx     #31.8.2.1  Tod_epc_vfs_ckt TRANSMISSION INPUT DIAGNOSTICS, EPC VFS CIRCUIT TEST - CRAI8 31-294 {7}
SUB 0F4DC "Sxx0F4DC_RZAxxxxx_31.8.2.2_CALCULATE_MIN_EPCOCM1"#0F4DC-0F51C # SAME AS RZASA Sub_xxxxx     #31.8.2.2  Calculate_min_epcocm1 TRANSMISSION INPUT DIAGNOSTICS, EPC VFS CIRCUIT TEST - CRAI8 31-295 {7} 
SUB 0F51D "Sxx0F51D_RZAxxxxx_31.8.2.3_EPC_CURRENT_MONITOR"  #0F51D-0F5B3 # SAME AS RZASA Sub_xxxxx     #31.8.2.3  Epc_current_monitor  TRANSMISSION INPUT DIAGNOSTICS, EPC VFS CIRCUIT TEST - CRAI8 31-296 {7}
SUB 0F5B4 "Sxx0F5B4_RZAxxxxx_31.8.2.4_EPC_MONITOR_LOGIC"    #0F5B4-xxxxx # SAME AS RZASA Sub_xxxxx     #31.8.2.4  Epc_monitor_logic TRANSMISSION INPUT DIAGNOSTICS, EPC VFS CIRCUIT TEST - CRAI8 31-297 {7}
SUB 0F624 "Sbg0F624_RZAxxxxx_31.5.3.1_TID_EXEC_BG"          #0F624-xxxxx # SAME AS RZASA Sub_xxxxx     #31.5.3.1  Tid_exec_bg TRANSMISSION INPUT DIAGNOSTICS, TID BACKGROUND MANAGER - CRAI8 31-180 {7}
SUB 0F65D "Sxx0F65D_RZA966A9_31.5.10.1_TID_TOT"                          # SAME AS RZASA Sub_966A9     #31.5.10.1  Tid_tot TRANSMISSION INPUT DIAGNOSTICS, TOT   - CRAI8 31-223 {7}
SUB 0F6DF "Sxx0F6DF_RZA96741_31.5.10.2_TOT_CODE_SET"                     # SAME AS RZASA Sub_96741     #31.5.10.2  Tot_code_set TRANSMISSION INPUT DIAGNOSTICS, TOT   - CRAI8 31-225 {7}
SUB 0F6FD "Sxx0F6FD_RZA96763_31.5.10.3_TID_ON_DEMAND"                    # SAME AS RZASA Sub_96763     #31.5.10.3  Tid_on_demand TRANSMISSION INPUT DIAGNOSTICS, TOT   - CRAI8 31-225 {7}

SUB 0F71B "Sxx0F71B_RZAxxxxx_31.5.5.1_TID_EO_CLT_SW_TST"                 # SAME AS RZASA Sub_xxxxx     #31.5.5.1  Tid_eo_clt_sw_test TRANSMISSION INPUT DIAGNOSTICS, ENG OFF CLTCH SWITCH TEST - CRAI8 31-192 {7}
SUB 0F734 "Sxx0F734_RZAxxxxx"                  # SAME AS RZASA Sub_xxxxx     #

SUB 0F73D "Sxx0F73D_RZA96A61_31.5.11.2_UNREALISTIC_DELTA_VS_CHECK"       # SAME AS RZASA Sub_96A61     #31.5.11.2  Unrealistic_delta_vs_check TRANSMISSION INPUT DIAGNOSTICS, VSS TEST - CRAI8 31-232 {7}
SUB 0F7A5 "Sxx0F7A5_RZA96B16_31.5.11.3_VSS_RELIABLE_CHECK"               # SAME AS RZASA Sub_96B16     #31.5.11.3  Vss_reliable_check TRANSMISSION INPUT DIAGNOSTICS, VSS TEST - CRAI8 31-233 {7}
SUB 0F7C7 "Sxx0F7C7_RZA96B4C_31.5.11.4_VSS_TEST"                         # SAME AS RZASA Sub_96B4C     #31.5.11.4  Vss_test TRANSMISSION INPUT DIAGNOSTICS, VSS TEST - CRAI8 31-234 {7}
SUB 0F848 "Sxx0F848_RZA96BD3_31.5.11.5_VSS_MONITOR"                      # SAME AS RZASA Sub_96BD3     #31.5.11.5  Vss_monitor TRANSMISSION INPUT DIAGNOSTICS, VSS TEST - CRAI8 31-235 {7}

SUB 0F8BC "Sxx0F8BC_RZAxxxxx_31.5.8.1_TID_OSS"                           # SAME AS RZASA Sub_xxxxx     #31.5.8.1  Tid_oss TRANSMISSION INPUT CONVERSIONS, OSS INPUT PROCESSING AND SELF TEST - CRAI8 31-213 {7}
SUB 0F9E2 "Sxx0F9E2_RZAxxxxx_31.5.9.1_TID_TCS"                           # SAME AS RZASA Sub_xxxxx     #31.5.9.1  Tid_tcs TRANSMISSION INPUT DIAGNOSTICS, Transmission Control Switch - CRAI8 31-218 {7}
SUB 0FA23 "Sxx0FA23_RZAxxxxx_31.5.1.1_TID_4X4L"                          # SAME AS RZASA Sub_xxxxx     #31.5.1.1  Tid_4x4l TRANSMISSION INPUT DIAGNOSTICS, FOUR BY FOUR LOW - CRAI8 31-169 {7}

SUB 0FA35 "Sxx0FA35_RZAxxxxx_31.5.2.1_TID_ANALOG_TRS"   #0FA35-0FACB     # SAME AS RZASA Sub_xxxxx     #31.5.2.1  Tid_analog_trs TRANSMISSION INPUT DIAGNOSTICS, ANALOG TRS   - CRAI8 31-175 {7}
SUB 0FACC "Sxx0FACC_RZAxxxxx_31.5.2.2_TRS_SHORT_CHECK"  #0FACC-0FB11     # SAME AS RZASA Sub_xxxxx     #31.5.2.2  Trs_short_check TRANSMISSION INPUT DIAGNOSTICS, ANALOG TRS   - CRAI8 31-177 {7}
SUB 0FB12 "Sxx0FB12_RZAxxxxx_31.5.2.3_TRS_OPEN_CHECK"   #0FB12-xxxxx     # SAME AS RZASA Sub_xxxxx     #31.5.2.3  Trs_open_check TRANSMISSION INPUT DIAGNOSTICS, ANALOG TRS   - CRAI8 31-178 {7}
SUB 0FB58 "Sxx0FB58_RZAxxxxx_31.5.4.1_TID_DIGITAL_TRS"  #0FB58-xxxxx     # SAME AS RZASA Sub_xxxxx     #31.5.4.1  Tid_digital_trs TRANSMISSION INPUT DIAGNOSTICS, DIGITAL TRS   - CRAI8 31-187 {7}
SUB 0FC3A "Sxx0FC3A_RZAxxxxx_31.5.4.2_TRS_CODE_CHECK"   #0FC3A-xxxxx     # SAME AS RZASA Sub_xxxxx     #31.5.4.2  Trs_code_check TRANSMISSION INPUT DIAGNOSTICS, DIGITAL TRS   - CRAI8 31-190 {7}
SUB 0FC6F "Sxx0FC6F_RZAxxxxx_31.5.6.1_TID_EO_TRS"       #0FC6F-xxxxx     # SAME AS RZASA Sub_xxxxx     #31.5.6.1  Tid_eo_trs TRANSMISSION INPUT DIAGNOSTICS, ENGINE OFF TRS - CRAI8 31-195 {7}

################################# BANK 1 SUBROUTINES #################################

Sub 12000 "Sub12000_Fail_Loop"                                             # {0}
SUB 19894 "Sxx19894_RZA1DF96"                                            # SAME AS RZASA Sub_1DF96     # {7}


################################# BANK 8 SUBROUTINES #################################

Sub 82000 "Sub82000_Boot_Reset"                                            # {0}
SUB 8213A "Sxx8213A_RZA8213A_ENGINE_INPUT_PROCESSING_CRAI8_34-102"       # SAME AS RZASA Sub_8213A     #CHAPTER 35 ENGINE INPUT PROCESSING 34-102 {7}
SUB 8220D "Sxx8220D_RZAxxxxx_35.10.4.1_CHT_RAM_INIT"                     # SAME AS RZASA Sub_xxxxx     #35.10.4.1  Cht_ram_init ENGINE TEMPERATURE, CHT SENSOR INPUT AND SELFTEST - CRAI8 35-59 {7}
SUB 822BB "Sxx822BB_RZAxxxxx_12.3.9.1_SPKIO_RAM_INIT_MAIN"               # SAME AS RZASA Sub_xxxxx     #12.3.9.1  Spkio_ram_init_main IGNITION TIMING STRATEGY, EDIS SPI RAM INITIALIZATION - CRAI8 12-271 {7}
SUB 823CE "Sxx823CE_RZA82386"                                            # SAME AS RZASA Sub_82386     # {7}
SYM 823D0 "DEFINE_RBASE_REGISTER_VALUES"                                 # SAME AS RZASA Sub_xxxxx     # {7}

SUB 8240D "Sxx8240D_RZA83D68"                                            # SAME AS RZASA Sub_83D68     # {7}
SUB 824A2 "Sxx824A2_RZA8245C_INCREMENT_WATCHDOG_TIMER"                   # SAME AS RZASA Sub_8245C L_82476     #INCREMENTS WATCHDOG TIMER ??????? {7}
SUB 824AD "Sxx824AD_RZA8243A_SLAP_OUTPUT_OR_HARDWARE_INIT_??"            # SAME AS RZASA Sub_8243A     # {7}
SUB 824CF "Sxx824CF_RZA83011"                                            # SAME AS RZASA Sub_83011     # {7}
SUB 824D9 "Sxx824D9_RZA8301C"                                            # SAME AS RZASA Sub_8301C     # {7}
SUB 824ED "Sxx824ED_RZA83030_34.1.11.1_CCC_TCAP_BACKGROUND_MANAGER"      # SAME AS RZASA Sub_83030     #34.1.11.1  Ccc_tcap_background_manager CONVERTER CLUTCH CONTROL, CONVERTER CLUTCH CONTROL - CRAI8 34-57 {7}
SUB 824F9 "Sxx824F9_RZAxxxxx_START_OF_12.1.11.1_SPKTM_BORDERLINE_MAIN"   #                             #12.1.11.1  Spktm_borderline_main IGNITION TIMING, BORDERLINE DETONATION SPARK - CRAI8 12-40 {7}

SUB 8251C "Sbg8251C_RZA8305A"                                            # SAME AS RZASA Sub_8305A     # {7}
SUB 82599 "Sbg82599_RZA830D7_DWNLD_ROUTINE_LOGIC_???"                    # SAME AS RZASA Sub_830D7     #JUMP TO DWNLD ROUTINE LOGIC SCP INTERFACES, SCP BACKGROUND - CRAI8 5-10 {7}
Sub 825C2 "Sub825C2_RZAxxxxx_ODU_LOADED_CODE_STUB_???"                                                 #SCP INTERFACES, SCP BACKGROUND - CRAI8 5-10 {7} {0}
SUB 825CE "Sxx825CE_RZA8310C_FUEL_INJ_OUT_CAROUSEL_SLOT_RESERVE"         # SAME AS RZASA Sub_8310C     # FUEL INJECTOR OUTPUT RESERVE CAROUSEL SLOT  FUEL STRATEGY, INJECTOR OUTPUT CONTROL - CRAI8 9-431 {7}
## ???? LOOKS TO BE RESEARVING CAROUSEL SLOT FOR FUEL INJECTOR OUTPUT CONTROL###
SYM 82644 "L_82644_RZA83183"                                             # SAME AS RZASA L_83183     # {7}
SUB 8266D "Sxx8266D_RZA835F6_13.1.7_EGR_OBDII_TEST_LOGIC"                # SAME AS RZASA Sub_835F6     #13.1.7  EGR OBDII TEST LOGIC EGR STRATEGY, ACTUAL PERCENT EGR - CRAI8 13-34 {7}
SUB 82678 "Sxx82678_13.1.7.1_EGR_OBDII"                                  # SAME AS RZASA Sub_xxxxx     #13.1.7.1  Egr_obdii EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-49 {7}
SUB 82D40 "Sxx82D40_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 82DE3 "Sxx82DE3_RZA83E0B_13.1.7.2_EGR_TEST_DISABLED"                 # SAME AS RZASA Sub_83E0B     #13.1.7.2  Egr_test_disabled EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-66 {7}
SUB 82E41 "Sxx82E41_RZA83E65_13.1.7.4_EGR_FAULT_DETECTED"                # SAME AS RZASA Sub_83E65     #13.1.7.4  Egr_fault_detected EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-67 {7}
SUB 82EA7 "Sxx82EA7_RZA83EC7_13.1.7.6_EGR_NO_FAULT"                      # SAME AS RZASA Sub_83EC7     #13.1.7.6  Egr_no_fault EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-68 {7}
SUB 82E1A "Sxx82E1A_RZA83E40_13.1.7.3_EGR_P0401_TEST_DISABLED"           # SAME AS RZASA Sub_83E40     #13.1.7.3  Egr_p0401_test_disabled EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-67 {7}
SUB 82E73 "Sxx82E73_RZA83E95_13.1.7.5_EGR_P0401_FAULT_DETECTED"          # SAME AS RZASA Sub_83E95     #13.1.7.5  Egr_p0401_fault_detected EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-68 {7}
SUB 82ED0 "Sxx82ED0_RZA83EEE_13.1.7.7_EGR_P0401_NO_FAULT"                # SAME AS RZASA Sub_83EEE     #13.1.7.7  Egr_p0401_no_fault EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-69 {7}
SUB 82EFA "Sxx82EFA_RZA83F16_TEST_COMPLETION_LOGIC-CRAI8-13-59"          # SAME AS RZASA Sub_83F16     #/* TEST COMPLETION LOGIC EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-59 {7}
SUB 82F81 "Sxx82F81_RZA83FC6_OBDII_EGR_FAILURE_MODE_FLAG_CRAI8-13-60"    # SAME AS RZASA Sub_83FC6     #/* OBDII EGR FAILURE MODE FLAG EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-60 {7}
SUB 82FA2 "Sxx82FA2_RZAxxxxx_FROZEN_HOSE_RECOVERY_AND_FAULT_RETEST_LOGIC_CRAI8-13-60"                  #/* FROZEN HOSE RECOVERY AND FAULT RETEST LOGIC EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-60 {7}
SUB 83045 "Sxx83045_RZA84086_OBDII_EXECUTIVE_CODE_AND_MIL_CONTROL_INTERFACE_CRAI8-13-62"# SAME AS RZASA Sub_84086  #/* OBDII EXECUTIVE CODE AND MIL CONTROL INTERFACE EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-62 {7}
SUB 83182 "Sxx83182_RZAxxxxx_FAULT_DETECTED_TEST_COMPLETION_&_LAST_PASS_VALUE_STORAGE_CRAI8-13-65_&_13-66" #/* FAULT DETECTED TEST COMPLETION */ CRAI8 13-65 & /* LAST PASS VALUE STORAGE */ EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-66
SUB 83225 "Sxx83225_RZA841E1_TEST_BIT(EGR_FLT_MAP)_SET_OR_CLEAR_MALF_CRAI8-13-63"# SAME AS RZASA Sub_841E1#PERFORMS THE TEST BIT ROUTINE FOR EGR_FLT_MAP AND DTC AND DECIDES TO SET OR CLEAR THE MALFUNCTION CRAI8 13-63 {7}
SUB 83255 "Sxx83255_RZA8420B_TEST_BIT(EGR_FLT_MAP)_SET_P0400_MALF_CRAI8-13-65"# SAME AS RZASA Sub_8420B #PERFORMS THE TEST BIT ROUTINE FOR EGR_FLT_MAP AND DTC AND SETS P0400 MALFUNCTION CRAI8 13-65 {7}
SUB 8327B "Sxx8327B_RZA8422A_13.1.7.8_EGR_CLEAR_TIMERS"                  # SAME AS RZASA Sub_8422A     #13.1.7.8  Egr_clear_timers EGR STRATEGY, EGR OBDII TEST LOGIC - CRAI8 13-70 {7}
SUB 832BD "Sbg832BD_RZA831AC"                                            # SAME AS RZASA Sub_831AC     # {7}
SUB 832C1 "Sxx832C1_RZA831B0"                                            # SAME AS RZASA Sub_831B0     # {7}
SUB 832EB "Sxx832EB_RZA831DA"                                            # SAME AS RZASA Sub_831DA     # {7}
SUB 8333A "Sxx8333A_RZA83229"                                            # SAME AS RZASA Sub_83229     # {7}
SUB 83347 "Sxx83347_RZA83236"                                            # SAME AS RZASA Sub_83236     # {7}
SUB 8335F "Sbg8335F_RZA8324C"                                            # SAME AS RZASA Sub_8324C     # {7}
SUB 833B6 "Sxx833B6_PURGE_FLOW_SENSOR_INPUT_PROCESSING_4-38"             #                             #PURGE FLOW SENSOR INPUT PROCESSING HARDWARE INTERFACE, HARDWARE-SPECIFIC INPUT PROCESSING - CRAI8 4-38 {7}
SUB 83454 "Sbg83454_RZA9402F_31.10.1.1_NDS_INIT"                         # SAME AS RZASA Sub_9402F     #31.10.1.1  Nds_init NEUTRAL DRIVE SWITCH, NDS INPUT - CRAI8 31-390 {7}
SUB 834B1 "Sxx834B1_RZAxxxxx_31.10.1.3_NDS_TMR_CNTRL_O"                  # SAME AS RZASA Sub_xxxxx     #31.10.1.3  Nds_tmr_cntrl_0 NEUTRAL DRIVE SWITCH, NDS INPUT - CRAI8 31-393 {7} 
SUB 83537 "Sxx83537_RZA940CF_35.2.1_INPUT_SOAK_TIMER"                    # SAME AS RZASA Sub_940CF     #35.2.1  Input_soak_timer ENGINE INPUT PROCESSING,  INFERRED SOAK TIMER CALCULATION  - CRAI8 35-4 {7}
SUB 83554 "Sxx83554_RZA940EC_8.1.2.1_TP_SAMPLE"                          # SAME AS RZASA Sub_940EC     #8.1.2.1  Tp_sample THROTTLE POSITION, MULTI SAMPLING  - CRAI8 8-3 {7}
SUB 83580 "Sbg83580_RZA94118_8.1.1.1_TPINP_EXEC_BG"                      # SAME AS RZASA Sub_94118     #8.1.1.1  Tpinp_exec_bg THROTTLE MODE SELECTION STRATEGY 8-1 {7}
SUB 8358E "Sxx8358E_RZA94125_8.1.4.1_TPINP_MAF_MAIN"                     # SAME AS RZASA Sub_94125     #8.1.4.1  Tpinp_maf_main THROTTLE POSITION, IN RANGE TP/LOAD TEST  CRAI8 8-23 {7}
SUB 835B3 "Sxx835B3_RZAxxxxx_8.1.4.2_TPINP_MAF_TEST"                     # SAME AS RZASA Sub_xxxxx     #8.1.4.2  Tpinp_maf_test THROTTLE POSITION, IN RANGE TP/LOAD TEST  CRAI8 8-24 {7}
SUB 8360B "Sxx8360B_RZA94198_8.1.5.1_TP_MODE"                            # SAME AS RZASA Sub_94198     #8.1.5.1  Tp_mode THROTTLE POSITION, MODE SELECTION LOGIC - CRAI8 8-27 {7}
SUB 8366B "Sxx8366B_RZA941F3_8.1.3.2_TPINP_RAM_INIT"                     # SAME AS RZASA Sub_941F3     #8.1.3.2  Tpinp_ram_init THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-10 {7}
SUB 83697 "Sxx83697_RZA9421D_8.1.3.3_TP_MAIN"                            # SAME AS RZASA Sub_9421D     #8.1.3.3  Tp_main THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-11 {7}
SUB 83698 "Sxx83698_RZAxxxxx_8.1.3.1_TP_PID_DEFS"                        # SAME AS RZASA Sub_xxxxx     #8.1.3.1  Tp_pid_defs THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-10 {7}
SUB 836AD "Sxx836AD_RZAxxxxx_8.1.3.3_TP_MAIN"                            # SAME AS RZASA Sub_xxxxx     #8.1.3.3  Tp_main THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-11 {7}
SUB 836EC "Sxx836EC_RZAxxxxx_8.1.3.4_TP_FAILURE_CHECK"                   # SAME AS RZASA Sub_xxxxx     #8.1.3.4  Tp_failure_check THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-13 {7}
SUB 83749 "Sxx83749_RZAxxxxx_8.1.3.9_TP_FMEM"                            # SAME AS RZASA Sub_xxxxx     #8.1.3.9  Tp_fmem  THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-18 {7} 
SUB 83784 "Sxx83784_RZAxxxxx_8.1.3.6_RATCH_GO"                           # SAME AS RZASA Sub_xxxxx     #8.1.3.6  Ratch_go THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-15 {7}
SUB 837DC "Sxx837DC_RZAxxxxx_8.1.3.7_RATCH_UPDATE"                       # SAME AS RZASA Sub_xxxxx     #8.1.3.7  Ratch_update THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-16 {7}
SUB 838BF "Sxx838BF_RZAxxxxx_8.1.3.10_TP_KOER_CHECK"                     # SAME AS RZASA Sub_xxxxx     #8.1.3.10  Tp_koer_check THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-19 {7}
SUB 83936 "Sxx83936_RZAxxxxx_8.1.3.11_TP_KOEO_CHECK"                     # SAME AS RZASA Sub_xxxxx     #8.1.3.11  Tp_koeo_check THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-20 {7}
SUB 83964 "Sxx83964_RZA944E4_P1120-P0122-P0123__UP_DN_FAULT_COUNTER_??"     # SAME AS RZASA Sub_944E4     #USED IN SUB 8.1.3.4  Tp_failure_check THROTTLE POSITION, INPUT AND SELFTEST - CRAI8 8-13 (MAYBE ROLAV FOR P0123_FIL,P0122_FIL,P1120_FIL) {7}
SUB 83991 "Sxx83991_RZA9450F_8.1.6.1_TPINP_TP2_MAIN"                     # SAME AS RZASA Sub_9450F     #8.1.6.1  Tpinp_tp2_main THROTTLE POSITION, SECONDARY SERIES THROTTLE - CRAI8 8-29 {7}
SYM 83997 "L__83997_RZA8AD18"                                            # SAME AS RZASA Sub_8AD18     # {7}
SYM 839B5 "Sxx839B5_RZAxxxxx_31.7.6.2_BCSDC_OUT_CALC"                    # SAME AS RZASA Sub_xxxxx     #31.7.6.2  Bcsdc_out_calc TRANSMISSION OUTPUT CONTROL, TORQUE CONVERTER CLUTCH - CRAI8 31-280 {7}
SUB 839FB "Sxx839FB_RZA8A5DF_31.7.6.3_BCSDC_DUCE_PW"                     # SAME AS RZASA L__8A5DF      #31.7.6.3  Bcsdc_duce_pw TRANSMISSION OUTPUT CONTROL, TORQUE CONVERTER CLUTCH - CRAI8 31-281 {7}
SUB 83A06 "Sbg83A06_7.1.1.1_CPP_EXEC_BG"                                 # SAME AS RZASA Sub_xxxxx     #7.1.1.1  Cpp_exec_bg CLUTCH PEDAL POSITION, CLUTCH SWITCH INPUT AND SELFTEST - CRAI8 7-4 {7}

SUB 83A51 "Sbg83A51_RZAxxxxx_16.5.1.1_ACINP_EXEC_BG"                     # SAME AS RZASA Sub_xxxxx     #16.5.1.1  Acinp_exec_bg A/C CLUTCH STRATEGY, A/C CLUTCH CONTROL - CRAI8 16-33 {7}
SUB 83A58 "Sxx83A58_RZAxxxxx_16.5.2.1_ACINP_PRESSURE_SWITCH"             # SAME AS RZASA Sub_xxxxx     #16.5.2.1  Acinp_pressure_switch AIR CONDITIONING INPUT,  AIR CONDITIONING PRESSURE SWITCH - CRAI8 16-35 {7}
SUB 83A74 "Sxx83A74_RZAxxxxx_16.5.3.1_AC_PRESSURE_INPUT"                 # SAME AS RZASA Sub_xxxxx     #16.5.3.1  Ac_pressure_input AIR CONDITIONING INPUT, ANALOGUE PRESSURE INPUT - CRAI8 16-40 {7}
SUB 83AE0 "Sxx83AE0_RZAxxxxx_16.5.3.2_AC_OFF_PRESSURE"                   # SAME AS RZASA Sub_xxxxx     #16.5.3.2  Ac_off_pressure AIR CONDITIONING INPUT, ANALOGUE PRESSURE INPUT - CRAI8 16-40 {7}
SUB 83AEB "Sxx83AEB_RZAxxxxx_16.5.3.3_ACPRES_FAILURE_CHECKS"             # SAME AS RZASA Sub_xxxxx     #16.5.3.3  Acpres_failure_checks AIR CONDITIONING INPUT, ANALOGUE PRESSURE INPUT - CRAI8 16-41 {7}
SUB 83B2B "Sxx83B2B_RZAxxxxx_16.5.3.4_ACPRES_RANGE_CHECKS"               # SAME AS RZASA Sub_xxxxx     #16.5.3.4  Acpres_range_checks AIR CONDITIONING INPUT, ANALOGUE PRESSURE INPUT - CRAI8 16-42 {7}
SUB 83BEE "Sxx83BEE_RZAxxxxx_16.5.3.5_ACPRES_ASSIGN"                     # SAME AS RZASA Sub_xxxxx     #16.5.3.5  Acpres_assign  AIR CONDITIONING INPUT, ANALOGUE PRESSURE INPUT - CRAI8 16-42 {7}
SUB 83C12 "Sxx83C12_RZAxxxxx_16.5.3.6_ACPRES_HSF_REQUEST"                # SAME AS RZASA Sub_xxxxx     #16.5.3.6  Acpres_hsf_request AIR CONDITIONING INPUT, ANALOGUE PRESSURE INPUT - CRAI8 16-43 {7}
SUB 83C31 "Sxx83C31_RZAxxxxx_16.5.3.7_ACPRES_FLAG"                       # SAME AS RZASA Sub_xxxxx     #16.5.3.7  Acpres_flag AIR CONDITIONING INPUT, ANALOGUE PRESSURE INPUT - CRAI8 16-43 {7}

SUB 83C68 "Sbg83C68_RZAxxxxx_35.8.4.1_BPINP_EXEC_BG"                     # SAME AS RZASA Sub_xxxxx     #35.8.4.1  Bpinp_exec_bg BAROMETRIC PRESSURE, BACKGROUND EXECUTIVE - CRAI8 35-45 {7}
SUB 83C90 "Sxx83C90_RZAxxxxx_35.8.1.1_BPINP_INFERRED"                    # SAME AS RZASA Sub_xxxxx     #35.8.1.1  Bpinp_inferred BAROMETRIC PRESSURE, BAROMETRIC PRESSURE - INFERRED - CRAI8 35-33 {7}
SUB 83CB2 "Sxx83CB2_RZAxxxxx_35.8.1.2_BP_INFERRED_MAIN"                  # SAME AS RZASA Sub_xxxxx     #35.8.1.2  Bp_inferred_main BAROMETRIC PRESSURE, BAROMETRIC PRESSURE - INFERRED - CRAI8 35-34 {7}

SUB 83D27 "Sxx83D27_RZAxxxxx_35.8.1.3_BP_OK"                             # SAME AS RZASA Sub_xxxxx     #35.8.1.3  Bp_ok BAROMETRIC PRESSURE, BAROMETRIC PRESSURE - INFERRED - CRAI8 35-35 {7}
SUB 83D7B "Sxx83D7B_RZAxxxxx_35.8.3.1_BP_SENSOR_MAIN"                    # SAME AS RZASA Sub_xxxxx     #35.8.3.1  Bp_sensor_main BAROMETRIC PRESSURE, ANALOG BAROMETRIC PRESSURE SENSOR - CRAI8 35-41 {7}
SUB 83DFF "Sxx83DFF_RZAxxxxx_35.8.3.2_BP_FAILURE_CHECK"                  # SAME AS RZASA Sub_xxxxx     #35.8.3.2  Bp_failure_check BAROMETRIC PRESSURE, ANALOG BAROMETRIC PRESSURE SENSOR - CRAI8 35-41 {7}
SUB 83EA0 "Sxx83EA0_RZAxxxxx_35.8.2.1_BP_FILTER_MAIN"                    # SAME AS RZASA Sub_xxxxx     #35.8.2.1  Bp_filter_main BAROMETRIC PRESSURE, BAROMETRIC PRESSURE FILTER - CRAI8 35-37 {7}
SUB 83ED1 "Sbg83ED1_RZAxxxxx_15.1.1.1_PIP_EXEC_BG"                       # SAME AS RZASA Sub_xxxxx     #15.1.1.1  Pip_exec_bg REVOLUTIONS PER MINUTE (RPM) PROCESSING 15-1 {7}
SUB 83EDA "Sbg83EDA_RZAxxxxx_15.1.4.1_PIP_PROCESSING_BG"                 # SAME AS RZASA Sub_xxxxx     #15.1.4.1  Pip_processing_bg RPM PROCESSING, PIP BG INPUT ROUTINE - CRAI8 15-9 {7}
SUB 83F80 "Sxx83F80_RZA853B1_15.1.5.1_RPM_MAIN"                          # SAME AS RZASA Sub_853B1     #15.1.5.1  Rpm_main RPM PROCESSING, ENGINE SPEED CALCULATION - CRAI8 15-16 {7}
SUB 8410B "Sxx8410B_RZA85571_15.1.6.2_ENGINE_MODES"                      # SAME AS RZASA Sub_85571     #15.1.6.2  Engine_modes RPM PROCESSING, CRANK/UNDERSPEED/RUN MODE - CRAI8 15-22 {7}
#SYM 8412B "L_8412B_RZA855E9"   PART OF S_8410B                          # SAME AS RZASA Sub_855E9     # {7}
SUB 841B4 "Sbg841B4_RZA8561B_PERFORM_FN070_TO_DETERMINE_FN070_NORD_RPM"  # SAME AS RZASA Sub_8561B     #PERFORMS FUNCTION FN070 USING N TO DETERMINE NORMALIZED RPM VALUE {7}
SUB 841C5 "Sbg841C5_RZA8562C_9.14.1.2_FUEL_HOT_INJ_COMP"                 # SAME AS RZASA Sub_8562C     #9.14.1.2  Fuel_hot_inj_comp FUEL STRATEGY,  HOT INJECTOR COMPENSATION - CRAI8 9-472 {7}

SUB 842D8 "Sxx842D8_RZAxxxxx_"                 # SAME AS RZASA Sub_xxxxx      #

SUB 84315 "Sxx84315_RZA85779"                                            # SAME AS RZASA Sub_85779     # {7}
SUB 8432C "Sxx8432C_RZA85790_9.14.1.1_RAM_INIT_SOAK_TIMER"               # SAME AS RZASA Sub_85790     #9.14.1.1  Ram_init_soak_timer FUEL STRATEGY,  HOT INJECTOR COMPENSATION - CRAI8 9-472 {7}
SUB 84349 "Sxx84349_RZA857AD_MATH_=-----_*_act_+_(1_-_-----)_*_ect"      # SAME AS RZASA Sub_857AD     #PERFORMS MATH FUNCTIONS TO DETERMINE VALUE OF FUL_TMP SUB 9.9.19.1 & TEMP_S_TMP SUB 9.9.26.2 {7}
SUB 8436A "Sxx8436A_RZAxxxxx_9.8.1.5_CLOSED_LOOP_FUEL_CONTROL"           # SAME AS RZASA Sub_xxxxx     #9.8.1.5  Closed_loop_fuel_control CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-197 {7}
SUB 84376 "Sxx84376_RZAxxxxx_9.8.1.13_RESET_CL_FUEL"                   # SAME AS RZASA Sub_xxxxx     #9.8.1.13  Reset_cl_fuel CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-207 {7}
SUB 843E8 "Sxx843E8_RZA85862_9.8.1.7_FUEL_STATE_CONTROL[BANK1]_??"          # SAME AS RZASA Sub_85862     #9.8.1.7  Fuel_state_control CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-199 {7}
SUB 843EF "Sxx843EF_RZA85869_9.8.1.7_FUEL_STATE_CONTROL[BANK2]_??"          # SAME AS RZASA Sub_85869     #9.8.1.7  Fuel_state_control CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-199 {7}
SUB 843F8 "Sxx843F8_RZA85872_9.8.1.7_??????"                             # SAME AS RZASA Sub_85872     # {7}
SUB 84458 "Sxx84458_RZA858D7_9.8.1.6_FMEM_CALCULATIONS"                  # SAME AS RZASA Sub_858D7     #9.8.1.6  Fmem_calculations CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-198 {7}
SUB 84505 "Sxx84505_RZA85916_9.8.1.9_LAMBSE_HOLD_CALCULATION"            # SAME AS RZASA Sub_85916     #9.8.1.9  Lambse_hold_calculation CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-201 {7}
SUB 8452E "Sxx8452E_RZA85947_9.8.1.10_LAMBSE_JUMP_CALCULATION"           # SAME AS RZASA Sub_85947     #9.8.1.10  Lambse_jump_calculation CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-202 {7}
SUB 84579 "Sxx84579_RZA85990"                                            # SAME AS RZASA Sub_85990     # {7}
SUB 8468C "Sxx8468C_RZA85AD4_9.8.1.11_LAMBSE_JUMP_HOLD_CALCULATION"      # SAME AS RZASA Sub_85AD4     #9.8.1.11  Lambse_jump_hold_calculation CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-202 {7}
SUB 846B1 "Sxx846B1_RZAxxxxx"                                            # SAME AS RZASA Sub_xxxxx     # {7}
SUB 8478B "Sxx8478B_RZA85BE7_9.8.1.12_ADAPTIVE_TRANSPORT_DELAY"          # SAME AS RZASA Sub_85BE7     #9.8.1.12  Adaptive_transport_delay CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-205 {7}

SUB 84821 "Sxx84821"                  # SAME AS RZASA Sub_xxxxx      #

SUB 848EA "Sxx848EA_RZA85D60_9.8.1.15_LAMAVE_CALC"                       # SAME AS RZASA Sub_85D60     #9.8.1.15  Lamave_calc CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-208 {7}
SUB 8490D "Sxx8490D_RZA85D83"                                            # SAME AS RZASA Sub_85D83     # {7}
SUB 84922 "Sxx84922_RZA85D98"                                            # SAME AS RZASA Sub_85D98     # {7}
SUB 84930 "Sxx84930_RZA85DA6"                                            # SAME AS RZASA Sub_85DA6     # {7}
SUB 84973 "Sxx84973_RZA85DE9"                                            # SAME AS RZASA Sub_85DE9     # {7}
SUB 849B2 "Sxx849B2_RZA85F5B"                                            # SAME AS RZASA Sub_85F5B     # {7}
SUB 849CD "Sxx849CD_RZA85F76_9.8.2.1_BIAS_LOOKUP"                        # SAME AS RZASA Sub_85F76     #9.8.2.1  Bias_lookup FUEL STRATEGY, CLOSED LOOP LAMBSE CALCULATION - CRAI8 9-211 {7}
SUB 84A4A "Sxx84A4A_RZA8608E_9.8.4.1_TD_BASE_LOOKUP"                     # SAME AS RZASA Sub_8608E     #9.8.4.1  Td_base_lookup FUEL STRATEGY, CLOSED LOOP LAMBSE CALCULATION - CRAI8 9-216 {7}
SUB 84AF3 "Sxx84AF3_RZA8604D"                                            # SAME AS RZASA Sub_8604D     # {7}

SUB 84B38 "Sbg84B38_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 84B81 "Sxx84B81_RZAxxxxx_"                 # SAME AS RZASA Sub_xxxxx      #
SUB 84BA8 "Sxx84BA8_RZAxxxxx_"                 # SAME AS RZASA Sub_xxxxx      #

SUB 84BC3 "Sxx84BC3_RZA8667C_9.5.3.1_FADPT_FUEL_MONITOR"                 # SAME AS RZASA Sub_8667C     #9.5.3.1  Fadpt_fuel_monitor ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-55 {7}
SUB 84BF3 "Sxx84BF3_RZA866AC_9.5.3.2_FADPT_FM_READY_CHK"                 # SAME AS RZASA Sub_866AC     #9.5.3.2  Fadpt_fm_ready_chk ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-56 {7}
SUB 84C6B "Sxx84C6B_RZA8671C_9.5.3.3_FADPT_FM_FAULT_CK"                  # SAME AS RZASA Sub_8671C     #9.5.3.3  Fadpt_fm_fault_chk ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-57 {7}
SUB 84CA6 "Sxx84CA6_RZA86756_9.5.3.4_&_9.5.3.5_FADPT_FM_TEST_EGO[BANKx][UPS]" # SAME AS RZASA Sub_86756     #9.5.3.4  Fadpt_fm_test_ego11_kam & 9.5.3.5  Fadpt_fm_test_ego21_kam ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-58 9-59 {7}
SUB 84D54 "Sxx84D54_RZA867FD_9.5.3.6_FADPT_FMEM_CHK"                     # SAME AS RZASA Sub_867FD     #9.5.3.6  Fadpt_fmem_chk ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-60 {7}
SUB 84DAD "Sxx84DAD_RZA86856_9.5.3.7_FADPT_FM_FAULT_CLEAR"               # SAME AS RZASA Sub_86856     #9.5.3.7  Fadpt_fm_fault_clear ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-61 {7}
SUB 84DC4 "Sxx84DC4_RZA8686D_LAM_BAR_&_KAM_BAR_CALCULATIONS_FOR_9.5.3.3" # SAME AS RZASA Sub_8686D     #CALCULATES LAM_BAR[BANKx] & KAM_BAR[BANKx] FOR SUB 9.5.3.3  Fadpt_fm_fault_chk ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-57 {7} 
SUB 84E06 "Sbg84E06_RZA868AD_9.5.2.1_FADPT_UPDATE_STATUS"                # SAME AS RZASA Sub_868AD     #9.5.2.1  Fadpt_update_status ADAPTIVE FUEL, Adaptive Fuel Enable Logic - CRAI8 9-49 {7}
SUB 84ECD "Sbg84ECD_RZA86968_9.5.1.1_ADAPTIVE_FUEL_CONTROL"              # SAME AS RZASA Sub_86968     #9.5.1.1  Adaptive_fuel_control ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-27 {7}
SUB 84EE0 "Sxx84EE0_RZA8697B_9.5.1.3_FADPT_SELF_TEST"                    # SAME AS RZASA Sub_8697B     #9.5.1.3  Fadpt_self_test ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-29 {7}
SUB 84F06 "Sxx84F06_RZA869A1_9.5.1.3_DETERMINE_CHKSUM_????"              # SAME AS RZASA Sub_869A1     #SEEMS TO SUM KAM CELLS TO DETERMINE CHKSUM {7}
SUB 84F25 "Sxx84F25_RZA869C0_9.5.1.3_INITIALIZE_ADAPTIVE_FULE_DATA_IN_KAM_??" # SAME AS RZASA Sub_869C0 #SEEMS TO DO TOTAL INITIALIZATION OF ADAPTIVE FUEL DATA IN KAM {7}
SUB 84F39 "Sxx84F39_RZA869D4_9.5.1.5_FADPT_EGO_FAILURE_RESET"            # SAME AS RZASA Sub_869D4     #9.5.1.5  Fadpt_ego_failure_reset ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-37 {7}
SUB 84F5E "Sxx84F5E_RZA869F6_9.5.1.4_FADPT_UPDATE_TABLE"                 # SAME AS RZASA Sub_869F6     #9.5.1.4  Fadpt_update_table ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-30 {7}
SUB 85140 "Sxx85140_RZAxxxxx_9.5.1.6_FADPT_NEW_UPRATE_CALC"              # SAME AS RZASA Sub_xxxxx     #9.5.1.6  Fadpt_new_uprate_calc ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-38 {7}

SUB 851DB "Sxx851DB_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 85277 "Sxx85277_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #

SUB 852BB "Sxx852BB_RZA86D35_9.5.1.7_FADPT_UPDATE_KAMRF"                 # SAME AS RZASA Sub_86D35     #9.5.1.7  Fadpt_update_kamrf ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-42 {7}
SUB 8543C "Sxx8543C_RZA86EC8_9.5.1.8_DETERMINE_ADAPTIVE_CELL_???"        # SAME AS RZASA Sub_86EC8     #9.5.1.8  Determine_adaptive_cell ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-45 {7}
SUB 85453 "Sxx85453_RZA86EDE_9.5.1.2_FADPT_PID_DEFINITIONS"              # SAME AS RZASA Sub_86EDE     #9.5.1.2  Fadpt_pid_definitions ADAPTIVE FUEL, Adaptive Fuel Control Logic - CRAI8 9-28 {7}
SUB 85472 "Sxx85472_RZA86F21_??_9.13.1.1_INJTM_BG_INJ_TIMING"              # SAME AS RZASA Sub_86F21     #9.13.1.1  Injtm_bg_inj_timing FUEL STRATEGY, INJECTOR DELAY LOGIC - CRAI8 9-464 {7}
SUB 855D6 "Sxx855D6_CALCULATE_FOR_INJ_DEL_W_OR_W/O_TEMP_CORRECTION_??"   # SAME AS RZASA Sub_xxxxx     #PART OF 9.13.1.1  Injtm_bg_inj_timing FUEL STRATEGY, INJECTOR DELAY LOGIC - CRAI8 9-466 {7}
SUB 855F0 "Sbg855F0_RZA87166_9.11.5.1_FSERV_BG_OSC"                      # SAME AS RZASA Sub_87166     #9.11.5.1  Fserv_bg_osc FUEL STRATEGY, OSC FUEL CONTROL LOGIC - CRAI8 9-413 (CALLED BY VECTOR LIST LABELED IN SAD BUT CONTENTS ARE ALL ???) {7}
SUB 85701 "Sbg85701_RZAxxxxx_9.3_LAMBSE_MODULATION"                      # SAME AS RZASA Sub_xxxxx     #9.3  LAMBSE MODULATION FUEL STRATEGY, LAMBSE MODULATION - CRAI8 9-6 {7}
SUB 857D4 "Sxx857D4_DETERMINE_MIN/MAX_FOR_LAMBSE_MODULATION"             #                             #PART OF 9.3  LAMBSE MODULATION FUEL STRATEGY, LAMBSE MODULATION - CRAI8 9-8 {7}
SUB 857F2 "Sbg857F2_RZAxxxxx_9.6.1_BACKGROUND_TRANSIENT_FUEL_LOGIC"      # SAME AS RZASA Sub_xxxxx   # 9.6.1 BACKGROUND TRANSIENT FUEL LOGIC (CRAE0) ADAPTIVE FUEL, ADAPTIVE FUEL MONITOR - CRAI8 9-62 {7}
#####   CONTAINS 9.6.1.1  Tfc_bg_stage1_calculations, 9.6.1.2  Tfc_bg_stage2_calculations, & 9.6.1.3  Tfc_bg_stage3_calculations ######  {7}
SYM 857F3 "9.6.1.1_TFC_BG_STAGE1_CALCULATIONS"                           # START OF 9.6.1.1  Tfc_bg_stage1_calculations   FUEL STRATEGY, BACKGROUND TRANSIENT FUEL LOGIC - CRAI8 9-69 {7}
SUB 8581E "Sbg8581E_9.6.1.2_TFC_BG_STAGE2_CALCULATIONS"                  # START OF 9.6.1.2  Tfc_bg_stage2_calculations   FUEL STRATEGY, BACKGROUND TRANSIENT FUEL LOGIC - CRAI8 9-70 {7}

SUB 85844 "Sxx85844_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8584C "Sxx8584C_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 858BF "Sxx858BF_RZAxxxxx_9.6.1.3_TFC_BG_STAGE3_CALCULATIONS"         # SAME AS RZASA Sub_xxxxx   #9.6.1.3  Tfc_bg_stage3_calculations FUEL STRATEGY, BACKGROUND TRANSIENT FUEL LOGIC - CRAI8 9-72 {7}
SUB 85965 "Sxx85965_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #

SUB 859CB "Sxx859CB_RZAxxxxx_DETERMINE_EISFU"                            # SAME AS RZASA Sub_xxxxx   #DETERMINES VALUE OF EISFU FUEL STRATEGY, BACKGROUND TRANSIENT FUEL LOGIC - CRAI8 {7}
#####   APPEARS TO ONLY BE /* Assume wet manifold at startup */ SECTION OF ROUTINE # CALLED FROM Sub_857f2 #####
SUB 85A6D "Sxx85A6D_RZA92F59"                                            # SAME AS RZASA Sub_92F59     # {7}
SUB 85A78 "Sxx85A78_RZA92F64_AVERAGING_SUB_???"                          # SAME AS RZASA Sub_92F64     # {7}
SUB 85A8C "Sxx85A8C_RZA92F78"                                            # SAME AS RZASA Sub_92F78     # {7}
SUB 85A88 "Sxx85A88_RZA92F74_MATH_SUB_??"                                            # SAME AS RZASA Sub_92F74     # {7}
SUB 85A98 "Sxx85A98_RZA92F84"                                            # SAME AS RZASA Sub_92F84     # {7}
SUB 85AB7 "Sxx85AB7_RZA92FA3_NORMALIZING_ROUTINE_??"                                            # SAME AS RZASA Sub_92FA3     # {7}
SUB 85ABB "Sxx85ABB_RZA92FA7"                                            # SAME AS RZASA Sub_92FA7     # {7}
SUB 85AC0 "Sxx85AC0_RZA92FAC"                                            # SAME AS RZASA Sub_92FAC     # {7}
SUB 85AF1 "Sbg85AF1_RZA87632_26.1.3.1_DOL_PULSE_CALC"                    # SAME AS RZASA Sub_87632     #26.1.3.1  Dol_pulse_calc DATA OUTPUT LINK, PULSE CALCULATION - CRAI8 26-10 {7}
SUB 85B31 "Sxx85B31_RZA876D7_12.4.1.26_CALC_SPARK_ACTUAL"                # SAME AS RZASA L_876D7 L_876F3     #12.4.1.26  Calc_spark_actual CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-297 {7}
SUB 85B54 "Sxx85B54_RZA876F6_12.4.1.26_CALC_SPARK_ACTUAL_SECOND_HALF"    # SAME AS RZASA L_876F6 L_8771A     #12.4.1.26  Calc_spark_actual CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-297 {7}
SUB 85B78 "Sbg85B78_RZA879AF_12.4.2.1_IGNDI_FMEM_EXECUTIVE"              # SAME AS RZASA Sub_879AF     #12.4.2.1  Igndi_fmem_executive ENGINE INPUT PROCESSING, DISTRIBUTORLESS IGNITION SYSTEM/MISFIRE FMEM - CRAI8 12-301 {7}
SUB 85C58 "Sxx85C58_RZA8771B_12.4.1.23_INIT_IGNDI_PARAMS"                # SAME AS RZASA Sub_8771B     #12.4.1.23  Init_igndi_params  CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-295 {7}
SUB 85C2C "Sxx85C2C_RZA87A65_&_87A8F_12.4.2.5_SET_DISCUTOUTS"            # SAME AS RZASA Sub_87A65 & Sub_87A8F LOOK SAME     #12.4.2.5  Set_discutouts ENGINE INPUT PROCESSING, DISTRIBUTORLESS IGNITION SYSTEM/MISFIRE FMEM - CRAI8 12-305 {7}
SUB 85C5F "12.4.1.24_DIS_CLEAR_FILTERS"                                  #                             #12.4.1.24  Dis_clear_filters CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-296 {7}
SYM 85C6A "END_12.4.1.24_DIS_CLEAR_FILTERS"                              # 
SUB 85C80 "Sbg85C80_RZAxxxxx__12.4.1.14_CIDBG"                           # SAME AS RZASA Sub_xxxxx     #12.4.1.14  Cidbg CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-289 {7}
SUB 85CBC "Sxx85CBC_RZAxxxxx_12.4.1.15_CID_FILLVL_CHK"                   # SAME AS RZASA Sub_xxxxx     #12.4.1.15  Cid_fillvl_chk CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-290 {7}
SUB 85CE6 "Sbg85CE6_RZAxxxxx_12.4.1.17_PIPBG"                            # SAME AS RZASA Sub_xxxxx     #12.4.1.17  Pipbg CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-291 {7}
SUB 85D02 "Sxx85D02_RZAxxxxx_12.4.1.18_INTERMITTENT_PIP_CHK"             # SAME AS RZASA Sub_xxxxx     #12.4.1.18  Intermittent_pip_chk CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-292 {7}
SUB 85D16 "Sxx85D16_RZAxxxxx_12.4.1.19_PIP_FILLVL_CHK"                   # SAME AS RZASA Sub_xxxxx     #12.4.1.19  Pip_fillvl_chk CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-292 {7}
SUB 85D40 "Sxx85D40_RZAxxxxx_12.4.1.20_HARDFAULT_PIP_CHK"                # SAME AS RZASA Sub_xxxxx     #12.4.1.20  Hardfault_pip_chk CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-293 {7}
SUB 85D56 "Sxx85D56_RZAxxxxx_12.4.1.21_PRIMARY_COIL_COUNTER_CHK"          # SAME AS RZASA Sub_xxxxx     #12.4.1.21  Primary_coil_counter_chk CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-293 {7} OR L_85D61_??

SUB 85E0F "Sxx85E0F_RZAxxxxx_12.4.1.16_DRIVER_ACTION_PROCEDURE"          # SAME AS RZASA Sub_xxxxx     #12.4.1.16  Driver_action_procedure CONTINUOUS SELF TEST, DISTRIBUTORLESS IGNITION SYSTEM TEST - CRAI8 12-290 {7}
SUB 85E4A "Sxx85E4A_RZAxxxxx_(12.4.1.14)MATH_SUB_TO_DETERMINE_CIDTSTFIL" # SAME AS RZASA Sub_xxxxx     #USED IN 12.4.1.14_CIDBG {7}
#PART OF SUB_85E4A  ??? SUB 85E68 "Sxx85E68_RZAxxxxx_"               # SAME AS RZASA Sub_xxxxx     #
SUB 85E76 "Sbg85E76_RZAxxxxx_13.1.1.1_EGR_INIT"                          # SAME AS RZASA Sub_xxxxx     #13.1.1.1  Egr_init EGR STRATEGY, EGR SYSTEM INITIALIZATION - CRAI8 13-4 {7}
SUB 85EE8 "Sbg85EE8_RZAxxxxx_13.1.2.1_EGR_ENABLE"                        # SAME AS RZASA Sub_xxxxx     #13.1.2.1  Egr_enable EGR STRATEGY, EGR ENABLE - CRAI8 13-8 {7}
SUB 85FA9 "Sxx85FA9_RZAxxxxx_13.1.3.1_EGR_DESIRED"                       # SAME AS RZASA Sub_xxxxx     #13.1.3.1  Egr_desired EGR STRATEGY, DESIRED EGR MASS FLOW - CRAI8 13-14 {7}
SYM 85FCE "FINAL_DESIRED_EGR_RATE_CALCULATION"                           # PART OF 13.1.3.1  Egr_desired #/* FINAL DESIRED EGR RATE CALCULATION  EGR STRATEGY, DESIRED EGR MASS FLOW - CRAI8 13-14
SUB 85FE5 "Sxx85FE5_RZAxxxxx_13.1.3.2_EGR_RATE_LOOKUP"                   # SAME AS RZASA Sub_xxxxx     #13.1.3.2  Egr_rate_lookup EGR STRATEGY, DESIRED EGR MASS FLOW - CRAI8 13-16 {7}
SYM 86159 "DESIRED_EGR_MASS_FLOW_RATE_CALCULATION"                       #PART OF 13.1.3.1  Egr_desired#/* DESIRED EGR MASS FLOW RATE CALCULATION EGR STRATEGY, DESIRED EGR MASS FLOW - CRAI8 13-15 {7}
SUB 8617A "Sbg8617A_RZAxxxxx_13.1.4.1_EGR_PFE"                           # SAME AS RZASA Sub_xxxxx     #13.1.4.1  Egr_pfe EGR STRATEGY, DELTA PRESSURE FEEDBACK EGR - CRAI8 13-22 {7}

SUB 863CE "Sxx863CE_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 863D0 "Sxx863D0_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 8640E "Sbg8640E_RZA8426C_OR_83548_??_13.1.6.1_EGR_ACTUAL"            # SAME AS RZASA Sub_8426C     #13.1.6.1  Egr_actual EGR STRATEGY, ACTUAL PERCENT EGR - CRAI8 13-33 {7}
SUB 8645C "Sxx8645C_RZAxxxxx_13.1.5.1_EGR_CONTROL"                       # SAME AS RZASA Sub_xxxxx     #13.1.5.1  Egr_control EGR STRATEGY, EVR CONTROLLER - CRAI8 13-30 {7}
SUB 865CD "Sxx865CD_RZA84845"                                            # SAME AS RZASA Sub_84845     # {7}
SUB 86601 "Sxx86601_RZA84879"                                            # SAME AS RZASA Sub_84879     # {7}
SUB 8660A "Sbg8660A_RZA835BF_13.1.11.1_EGR_SCCD"                         # SAME AS RZASA Sub_835BF     #13.1.11.1  EGR_SCCD EGR STRATEGY, DUTY CYCLE GENERATION - CRAI8 13-80 {7}

SUB 8664C "Sbg8664C_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 86662 "Sbg86662_RZA87C50"                                            # SAME AS RZASA Sub_87C50     # {7}

SUB 86825 "Sxx86825_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #

SUB 86841 "Sxx86841_RZA88094_38.1.2.1_KAM_RAM_ROM_TEST"                  # SAME AS RZASA Sub_88094     #38.1.2.1  Kam_ram_rom_test KEEP ALIVE MEMORY, KAM/RAM/ROM TEST LOGIC - CRAI8 38-4 {7}
SUB 86899 "Sxx86899_RZA880EC"                                            # SAME AS RZASA Sub_880EC     # {7}
SUB 869CA "Sxx869CA_RZA8821C"                                            # SAME AS RZASA Sub_8821C     # {7}
SUB 869E1 "Sxx869E1_RZA88233"                                            # SAME AS RZASA Sub_88233     # {7}
SUB 86A28 "Sxx86A28_RZA8827A"                                            # SAME AS RZASA Sub_8827A     # {7}
SUB 86A87 "Sxx86A87_RZAxxxxx"                                            # SAME AS RZASA Sub_xxxxx     #
SUB 86AB0 "Sxx86AB0_RZAxxxxx_(Pxxxx_FIL_<(xxxxx_LVL-FIL_HYST))"          # SAME AS RZASA Sub_xxxxx     #( Pxxxx_FIL < Pxxxx_LVL - FIL_HYST ) {7}
SUB 86AD3 "Sxx86AD3_RZA0F7E4_MIL_CODE_TABLE[i]->SYSTEM"                  # SAME AS RZASA Sub_0F7E4     # {7}
SUB 86B0F "Sxx86B0F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 86B25 "Sxx86B25_RZAxxxxx_36.2.1.1_CCM_MONITOR"                       # SAME AS RZASA Sub_xxxxx     #36.2.1.1  Ccm_monitor COMPREHENSIVE COMPONENT MONITOR, MONITOR FLAG AND FAULT CODE SET - CRAI8 36-249 {7}
SUB 86B42 "Sbg86B42_RZAxxxxx_17.2.4.1_PGM_SELECTION"                     # SAME AS RZASA Sub_xxxxx     #17.2.4.1  Pgm_selection CANISTER PURGE DIAGNOSTICS, PURGE MONITOR SELECTION - CRAI8 17-57 {7}
SUB 86B71 "Sxx86B71_RZAxxxxx_17.2.6.1_CANMN_INPUT_PFS"                   # SAME AS RZASA Sub_xxxxx     #17.2.6.1  Canmn_input_pfs CANISTER PURGE DIAGNOSTICS, PURGE FLOW SENSOR INPUT/SELF TEST - CRAI8 17-64 {7}
SUB 86B7D "Sxx86B7D_RZAxxxxx_17.2.6.2_PFS_FAILURE_CHECK"                 # SAME AS RZASA Sub_xxxxx     #17.2.6.2  Pfs_failure_check CANISTER PURGE DIAGNOSTICS, PURGE FLOW SENSOR INPUT/SELF TEST - CRAI8 17-65 {7}
SUB 86C20 "Sxx86C20_RZAxxxxx_17.2.6.3_PFS_MONITORED_CHECK"               # SAME AS RZASA Sub_xxxxx     #17.2.6.3  Pfs_monitored_check CANISTER PURGE DIAGNOSTICS, PURGE FLOW SENSOR INPUT/SELF TEST - CRAI8 17-66 {7}
SUB 86C43 "Sxx86C43_RZAxxxxx_17.2.5.1_CANMN_FAULT_CHECK"                 # SAME AS RZASA Sub_xxxxx     #17.2.5.1  Canmn_fault_check CANISTER PURGE DIAGNOSTICS, CANISTER PURGE SOLENOID OSM TEST - CRAI8 17-60 {7}
SUB 86C64 "Sxx86C64_RZAxxxxx_17.2.5.2_CANMN_FAULT_TEST"                  # SAME AS RZASA Sub_xxxxx     #17.2.5.2  Canmn_fault_test CANISTER PURGE DIAGNOSTICS, CANISTER PURGE SOLENOID OSM TEST - CRAI8 17-61 {7}
SUB 86CDF "Sxx86CDF_RZA95705_17.2.7.1_CANMN_THERM_FLOW"                  # SAME AS RZASA Sub_95705     #17.2.7.1  Canmn_therm_flow CANISTER PURGE DIAGNOSTICS, THERMISTOR FLOW TEST - CRAI8 17-72 {7}
SUB 86E89 "Sxx86E89_RZAxxxxx_17.2.7.2_PGM_FLOW_TEST"                     # SAME AS RZASA Sub_xxxxx     #17.2.7.2  Pgm_flow_test CANISTER PURGE DIAGNOSTICS, THERMISTOR FLOW TEST - CRAI8 17-75 {7}
SUB 86F32 "Sxx86F32_CHECK_FOR_TEST_COMPLETENESS_(17.2.7.1)CRAI8_17-75"   #                             #Check for test completeness: CANISTER PURGE DIAGNOSTICS, THERMISTOR FLOW TEST - CRAI8 17-75 {7} 
SUB 86F7A "Sxx86F7A_RZAxxxxx_17.2.8.1_VMV_OSM_CHECK"                     # SAME AS RZASA Sub_xxxxx     #17.2.8.1  Vmv_osm_check CANISTER PURGE STRATEGY, VAPOR MANAGEMENT VALVE OSM TEST - CRAI8 17-80 {7}
SUB 86F9B "Sxx86F9B_RZAxxxxx_17.2.8.2_VMV_OSM_TEST"                      # SAME AS RZASA Sub_xxxxx     #17.2.8.2  Vmv_osm_test CANISTER PURGE STRATEGY, VAPOR MANAGEMENT VALVE OSM TEST - CRAI8 17-80 {7}
SUB 8704E "Sxx8704E_RZAxxxxx_CALCULATE_EXPECTED_VALUES(17.2.8.2)"        # SAME AS RZASA Sub_xxxxx     #17.2.8.2  Vmv_osm_test CALCULATE EXPECTED VALUES CANISTER PURGE STRATEGY, VAPOR MANAGEMENT VALVE OSM TEST - CRAI8 17-80 {7}
SUB 8705C "Sxx8705C_RZA84fdf_17.2.9.1_CANMN_INPUT_TPR"                   # SAME AS RZASA Sub_84fdf     #17.2.9.1  Canmn_input_tpr CANISTER PURGE STRATEGY, TANK PRESS. SENSOR INPUT AND SELF TEST - CRAI8 17-85 {7}
SUB 87084 "Sxx87084_RZA8500c_17.2.9.2_TPR_FAILURE_CHECK"                 # SAME AS RZASA Sub_8500c     #17.2.9.2  Tpr_failure_check CANISTER PURGE STRATEGY, TANK PRESS. SENSOR INPUT AND SELF TEST - CRAI8 17-85 {7}
SUB 87131 "Sxx87131_RZAxxxxx_17.2.9.3_TPR_MONITORED_CHECK"               # SAME AS RZASA Sub_xxxxx     #17.2.9.3  Tpr_monitored_check CANISTER PURGE STRATEGY, TANK PRESS. SENSOR INPUT AND SELF TEST - CRAI8 17-87 {7}
SUB 87144 "Sxx87144_RZAxxxxx_17.2.10.1_CANMN_INPUT_FLI"                  # SAME AS RZASA Sub_xxxxx     #17.2.10.1  Canmn_input_fli CANISTER PURGE STRATEGY, FUEL LVL SENSOR INPUT AND SELF TEST - CRAI8 17-93 {7}
SUB 87245 "Sxx87245_RZAxxxxx_17.2.10.2_PGM_FUEL_LVL_INIT"                # SAME AS RZASA Sub_xxxxx     #17.2.10.2  Pgm_fuel_lvl_init CANISTER PURGE STRATEGY, FUEL LVL SENSOR INPUT AND SELF TEST - CRAI8 17-94 {7}
SUB 8728E "Sxx8728E_CONTINUE_17.2.10.1_CANMN_INPUT_FLI_CRAI8_17-94"      #                             #17.2.10.1  Canmn_input_fli CANISTER PURGE STRATEGY, FUEL LVL SENSOR INPUT AND SELF TEST - CRAI8 17-94 {7}
SUB 87487 "Sxx87487_RZAxxxxx_17.2.10.4_FLI_STUCK_CHECK"                  # SAME AS RZASA Sub_xxxxx     #17.2.10.4  Fli_stuck_check CANISTER PURGE STRATEGY, FUEL LVL SENSOR INPUT AND SELF TEST - CRAI8 17-97 {7}
SUB 87520 "Sxx87520_RZAxxxxx_17.2.11.1_CANV_FAULT_CHECK"                 # SAME AS RZASA Sub_xxxxx     #17.2.11.1  Canv_fault_check CANISTER PURGE STRATEGY, CANISTER VENT VALVE FAULT TEST - CRAI8 17-101 {7}
SUB 87541 "Sxx87541_RZAxxxxx_17.2.11.2_CANV_FAULT_TEST"                  # SAME AS RZASA Sub_xxxxx     #17.2.11.2  Canv_fault_test CANISTER PURGE STRATEGY, CANISTER VENT VALVE FAULT TEST - CRAI8 17-102 {7}
SUB 875D0 "Sxx875D0_RZAxxxxx_17.2.12.1_CVS_FMEM_CHECK"                   # SAME AS RZASA Sub_xxxxx     #17.2.12.1  Cvs_fmem_check CANISTER PURGE STRATEGY, CVS FMEM - CRAI8 17-187 {7}
SUB 87713 "Sxx87713_RZA94738_??_17.2.13.1_CANISTER_PURGE_MONITOR"        # SAME AS RZASA Sub_94738     #17.2.13.1  Canister_purge_monitor CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-122 {7}
#SYM 87713 "Sxx87713_RZA94738_??_17.2.13.3_PGM_INIT_KAM_VALUES"           # SAME AS RZASA Sub_94738     #17.2.13.3  Pgm_init_kam_values CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-123 {7}
SUB 8774B "Sxx8774B_RZAxxxxx_17.2.13.4_PGM_ER_BYPASS"                    # SAME AS RZASA Sub_94738     #17.2.13.4  Pgm_er_bypass CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-124 {7}
SUB 8775B "Sxx8775B_RZAxxxxx_17.2.13.5_PGM_MAIN"                         # SAME AS RZASA Sub_94738     #17.2.13.5  Pgm_main CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-124 {7}
SUB 87942 "Sxx87942_RZAxxxxx_17.2.13.9_PGM_ST_DRVR"                      # SAME AS RZASA Sub_94738     #17.2.13.9  Pgm_st_drvr CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-130 {7}
SUB 87973 "Sxx87973_RZAxxxxx_17.2.13.6_PGM_OUTPUT_SUBSTITUTION"          # SAME AS RZASA Sub_xxxxx     #17.2.13.6  Pgm_output_substitution CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-127 {7}
SUB 87ADF "Sxx87ADF_RZA94E54_17.2.13.10_PHASE_ZERO_TEST"                 # SAME AS RZASA Sub_94E54     #17.2.13.10  Phase_zero_test CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-131 {7}
SUB 87C5A "Sxx87C5A_RZA950EA_17.2.13.11_PHASE_ONE_TEST"                  # SAME AS RZASA Sub_950EA     #17.2.13.11  Phase_one_test CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-133{7}
SUB 87CD1 "Sxx87CD1_RZA9516D_17.2.13.12_PHASE_TWO_TEST"                  # SAME AS RZASA Sub_9516D     #17.2.13.12  Phase_two_test CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-134 {7}
SUB 87DA0 "Sxx87DA0_RZA9542D_17.2.13.13_PHASE_THREE_TEST"                # SAME AS RZASA Sub_9542D     #17.2.13.13  Phase_three_test CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-136 {7}
SUB 87DD8 "Sxx87DD8_RZA95464_17.2.13.14_PHASE_FOUR_TEST"                 # SAME AS RZASA Sub_95464     #17.2.13.14  Phase_four_test CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-136 {7}
SUB 87E56 "Sxx87E56_RZA954EF_17.2.13.15_PHASE_FIVE_TEST"                 # SAME AS RZASA Sub_954EF     #17.2.13.15  Phase_five_test CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-137 {7}
SUB 87F0D "Sxx87F0D_RZA956D5_17.2.13.18_RESET_PGM_PARMS"                 # SAME AS RZASA Sub_956D5     #17.2.13.18  Reset_pgm_parms CANISTER PURGE STRATEGY, CANISTER PURGE MONITOR - CRAI8 17-139 {7}
SUB 87F32 "Sxx87F32_RZA95705_17.2.14.1_PGM_FILTERING"                    # SAME AS RZASA Sub_95705     #17.2.14.1  Pgm_filtering CANISTER PURGE STRATEGY, PURGE MONITOR FILTERING - CRAI8 17-143 {7}
SUB 87FEC "Sbg87FEC_RZA884BC_22.1.2_ALTERNATIVE_CALIBRATION_CLEAR_LOGIC" # SAME AS RZASA Sub_884BC     #22.1.2  Alternative Calibration Clear Logic (CRAE0) ALTERNATIVE CALIBRATION, CALIBRATION CLEAR LOGIC - CRAI8 22-4 {7}
SUB 88027 "Sxx88027_RZA884F7_22.1.1.1_CALIBRATION_INITIALIZE_LOGIC(INC_DEC_ALC_STRT_KAM)"# SAME AS RZASA Sub_884F7     #22.1.1  CALIBRATION INITIALIZE LOGIC (CRAE0) ALTERNATIVE CALIBRATION CRAI8 22-1 {7}
SUB 88047 "Sxx88047_RZA88517_22.1.5.1_ALTR_RAM_INIT(ALC_CONDITIONS_FOR_ACTIVATION)_???"# SAME AS RZASA Sub_88517     #22.1.5.1  Altr_ram_init ALTERNATIVE CALIBRATION, CALIBRATION CLEAR LOGIC - CRAI8 22.15 {7}
SUB 88065 "Sxx88065_RZA88535_14.3.1.1_DESMAF_PRE_CALC"                   # SAME AS RZASA Sub_88535     #14.3.1.1  Desmaf_pre_calc IDLE SPEED CONTROL, DESIRED MASS AIR FLOW CALCULATION - CRAI8 14-87 {7}
SUB 88139 "Sxx88139_RZA886B3_14.3.3.1_AC_PPM_CALC"                       # SAME AS RZASA Sub_886B3     #14.3.3.1  Ac_ppm_calc IDLE SPEED CONTROL, ACPPM CALCULATION - CRAI8 14-93 {7}

SUB 881D1 "Sxx881D1_RZA8874C_14.3.5.1_CYLOFF_PPM_CALC"                   # SAME AS RZASA Sub_8874C     #14.3.5.1  Cyloff_ppm_calc IDLE SPEED CONTROL, CYLPPM CALCULATION - CRAI8 14-97 {7}
SUB 881ED "Sxx881ED_RZA8876D_14.3.6.1_EAM_PPM_CALC"                      # SAME AS RZASA Sub_8876D     #14.3.6.1  Eam_ppm_calc IDLE SPEED CONTROL, EAM_PPM CALCULATION - CRAI8 14-98 {7}
SUB 88222 "Sxx88222_RZA887AC_14.3.2.1_EDF_PPM_CALC"                      # SAME AS RZASA Sub_887AC     #14.3.2.1  Edf_ppm_calc INLET AIR CONTROL FEED FORWARD, EDFPPM CALCULATION - CRAI8 14-89 {7}
SUB 88258 "Sxx88258_RZA887E6_14.3.7_TRANS_DAMPING_??"                    # SAME AS RZASA Sub_887E6     #14.3.7  TRANSMISSION TURBINE ACCELERATION DESMAF ADDER CALCULATION OR 14.3.7.1  Trans_damping IDLE SPEED CONTROL, 14-99 {7}
SUB 8825F "Sxx8825F_RZA887ED_14.3.4.1_PS_PPM_CALC"                       # SAME AS RZASA Sub_887ED     #14.3.4.1  Ps_ppm_calc IDLE SPEED CONTROL, PS_PPM CALCULATION - CRAI8 14-94 {7}
SUB 882A1 "Sxx882A1_RZA888CA_14.3.8.1_DASHPOT_EXECUTION_PROCESS"         # SAME AS RZASA Sub_888CA     #14.3.8.1  Dashpot_execution_process IDLE SPEED CONTROL, DASHPOT CALCULATIONS - CRAI8 14-104 {7}
SUB 882A2 "14.3.8.2_NO_DECEL_COUNTER"                                    # #SYM?                       #14.3.8.2  No_decel_counter IDLE SPEED CONTROL, DASHPOT CALCULATIONS - CRAI8 14-104 {7}
SUB 882C9 "14.3.8.3_DSTPDR_CALC"                                         # #SYM?                       #14.3.8.3  Dstpbr_calc IDLE SPEED CONTROL, DASHPOT CALCULATIONS - CRAI8 14-105 {7}
SUB 882CD "14.3.8.3_DSTPDR_CALC"                                         # #SYM?
SUB 8838A "14.3.8.6_DASHPOT_MIN_CLIP"                                    # #SYM?
SUB 8843B "Sxx8843B_RZA88B55_14.5.1.1_DSDRPM_HW"                         # SAME AS RZASA Sub_88B55     #14.5.1.1  Dsdrpm_hw  HEATED WINDSHIELD COMPENSATION, DSDRPM CALCULATION - CRAI8 14-132 {7}
SUB 8846D "Sxx8846D_RZA88B87_14.5.2.1_HW_PPM_CALC"                       # SAME AS RZASA Sub_88B87     #14.5.2.1  Hw_ppm_calc HEATED WINDSHIELD COMPENSATION, DESMAF ADDER CALCULATION - CRAI8 14-134 {7}
SUB 8847E "Sbg8847E_RZA88B98_14.5.3.1_HEAT_WIN_LVL"                      # SAME AS RZASA Sub_88B98     #14.5.3.1  Heat_win_lvl HEATED WINDSHIELD COMPENSATION,  HEATED WINDSHIELD MONITOR INPUT - CRAI8 14-136 {7}
SUB 88497 "Sbg88497_RZA88BB1_14.1.1.1_IAC_EXEC"                          # SAME AS RZASA Sub_88BB1     #14.1.1.1  Iac_exec IDLE SPEED CONTROL, GENERIC IDLE SPEED CONTROL - CRAI8 14-8 {7}
### SUB_88497 ALSO CONTAINS 14.1.1.2  Settmr_control, 14.1.1.3  Runuptmr_control,  14.1.1.4  Gear4tmr_update   ######
SYM 885BA "14.1.1.6_N_RATCH_UPDATE"                                      #
SUB 88609 "Sxx88609_RZA88D44_14.1.1.7_RUNUP_FLG_UPDATE"                  # SAME AS RZASA Sub_88D44     #14.1.1.7  Runup_flg_update IDLE SPEED CONTROL, GENERIC IDLE SPEED CONTROL - CRAI8 14-13 {7}
SUB 88640 "Sxx88640_RZA88D7B_14.1.2.1_IAC_MODE_SELECT"                   # SAME AS RZASA Sub_88D7B     #14.1.2.1  Iac_mode_select INLET AIR CONTROL EXECUTIVE, MODE SELECT - CRAI8 14-18 {7}
SUB 8870A "Sxx8870A_RZA88E4C_14.1.6.1_ISC_FMEM"                          # SAME AS RZASA Sub_88E4C     #14.1.6.1  Isc_fmem IDLE AIR CONTROL, IDLE AIR FEEDBACK CONTROL LIMIT TEST - CRAI8 14-39 {7}
SUB 8886D "Sxx8886D_RZA88FCD_14.1.3.1_ISCDTY_CALC"                       # SAME AS RZASA Sub_88FCD     #14.1.3.1  Iscdty_calc IDLE SPEED CONTROL, ISC DUTY CYCLE CALCULATION (ISCDTY_CALC) - CRAI8 14-25 {7}
SUB 88AE9 "Sxx88AE9_RZA892A1_PARTOF_14.1.5.1_ISC_PERLOAD_ISC"            # SAME AS RZASA Sub_892A1     #14.1.5.1  Isc_perload_isc INLET AIR CONTROL EXECUTIVE, PERLOAD_ISC CALCULATION - CRAI8 14-34 {7}
SUB 88AFD "Sxx88AFD_RZA892B5_14.1.5.1_ISC_PERLOAD_ISC"                   # SAME AS RZASA Sub_892B5     #14.1.5.1  Isc_perload_isc INLET AIR CONTROL EXECUTIVE, PERLOAD_ISC CALCULATION - CRAI8 14-34 {7}
SUB 88B22 "Sbg88B22_RZA892DA_14.1.4.1_IAC_OUTPUT"                        # SAME AS RZASA Sub_892DA     #14.1.4.1  Iac_output INLET AIR CONTROL EXECUTIVE, IAC (IDLE SPEED CONTROL) SCCD OUTPUT - CRAI8 14-31 {7}
SYM 88B47 "14.1.4.2_IAC_OSM_TEST"                                        #14.1.4.2  Iac_osm_test INLET AIR CONTROL EXECUTIVE, IAC (IDLE SPEED CONTROL) SCCD OUTPUT - CRAI8 14-32 {7}
SUB 88B8B "Sxx88B8B_RZA89411_14.4.1.1_IPSIBR_CALC"                       # SAME AS RZASA Sub_89411     #14.4.1.1  Ipsibr_calc  IDLE SPEED CONTROL, IPSIBR CALCULATION - CRAI8 14-114 {7}
SUB 88D1F "Sxx88D1F_RZA895B8_14.4.1.2_RPMERR_CALC"                       # SAME AS RZASA Sub_895B8     #14.4.1.2  Rpmerr_calc IDLE SPEED CONTROL, IPSIBR CALCULATION - CRAI8 14-115 {7}
SUB 88D81 "Sxx88D81_RZA8961A_14.4.2.1_ISCKAM_HLT_UPDATE"                 # SAME AS RZASA Sub_8961A     #14.4.2.1  Isckam_hlt_update IDLE SPEED CONTROL, ISCKAM_HLT FLAG CONTROL - CRAI8 14-122 {7}
SUB 88E1F "Sxx88E1F_RZA896BD_14.4.3.2_ISCKAM_UPDATE"                     # SAME AS RZASA Sub_896BD     #14.4.3.2  Isckam_update IDLE SPEED CONTROL, KAM UPDATE (ISCKAM_UPDATE) - CRAI8 14-127 {7}
SYM 88E6A "14.4.3.4_ISCKAM_FINAL"                                        #14.4.3.4  Isckam_final IDLE SPEED CONTROL, KAM UPDATE (ISCKAM_UPDATE) - CRAI8 14-128 {7}
SUB 88EAB "Sxx88EAB_RZA89737_subr_ISCKAM_UP_070"                         # SAME AS RZASA Sub_89737     # {7}
SUB 88EB3 "Sxx88EB3_RZA89775_Sub693_14.4.4.1_ISFLAG_UPDATE"              # SAME AS RZASA Sub_89775     #14.4.4.1  Isflag_update IDLE SPEED CONTROL, ISLAST and ISFLAG LOGIC - CRAI8 14-130 {7}
SUB 88ED8 "Sbg88ED8_RZA8DBF2_17.1.4.1_CANP_SELECT"                       # SAME AS RZASA Sub_8DBF2     #17.1.4.1  Canp_select PURGE CONTROL, CANP SELECT - CRAI8 17-10 {7}
SUB 88F03 "Sxx88F03_RZA8DC38_17.1.7.1_CANP_PCOMP_INTERFACE"              # SAME AS RZASA Sub_8DC38     #17.1.7.1  Canp_pcomp_interface PURGE CONTROL, PCOMP INTERFACE - CRAI8 17-38 {7}
SUB 88F48 "Sxx88F48_RZA8DC7B_17.1.5.1_CANP_PCOMP_ENABLE"                 # SAME AS RZASA Sub_8DC7B     #17.1.5.1  Canp_pcomp_enable CANISTER PURGE, PCOMP ENABLE - CRAI8 17-16 {7}
SUB 88F6F "Sxx88F6F_RZAxxxxx_17.1.5.4_PCOMP_TIMERS"                      # SAME AS RZASA SUb_xxxxx     #17.1.5.4  Pcomp_timers CANISTER PURGE, PCOMP ENABLE - CRAI8 17-19 {7}
SUB 88F96 "Sxx88F96_RZAxxxxx_17.1.5.2_PCOMP_ENA_INIT"                    # SAME AS RZASA SUb_xxxxx     #17.1.5.2  Pcomp_ena_init CANISTER PURGE, PCOMP ENABLE - CRAI8 17-16 {7}
SUB 89078 "Sxx89078_RZAxxxxx_17.1.5.3_PCOMP_ENABLE"                      # SAME AS RZASA SUb_xxxxx     #17.1.5.3  Pcomp_enable CANISTER PURGE, PCOMP ENABLE - CRAI8 17-18 {7}
SUB 8911C "Sxx8911C_RZA8DEDF_17.1.6.1_PCOMP_CONTROL"                     # SAME AS RZASA Sub_8DEDF     #17.1.6.1  Pcomp_control  CANISTER PURGE, CANISTER PURGE COMPENSATION - CRAI8 17-29 {7}
SUB 89194 "Sxx89194_RZAxxxxx_17.1.6.2_PG_TIMERS"                         # SAME AS RZASA SUb_xxxxx     #17.1.6.2  Pg_timers CANISTER PURGE, CANISTER PURGE COMPENSATION - CRAI8 17-35 {7}
SUB 891AB "Sxx891AB_RZAxxxxx_17.1.6.3_PG_OBD2_OVRD"                      # SAME AS RZASA SUb_xxxxx     #17.1.6.3  Pg_obd2_ovrd CANISTER PURGE, CANISTER PURGE COMPENSATION - CRAI8 17-36 {7}
SUB 89689 "Sxx89689_17.1.6.4_PG_OUTPUT_TEST"                             #                             #17.1.6.4  Pg_output_test CANISTER PURGE, CANISTER PURGE COMPENSATION - CRAI8 17-36 {7}
SUB 896CF "Sxx896CF_RZAxxxxx_17.1.8.1_CANP_CONTROL"                      # SAME AS RZASA Sub_xxxxx     #17.1.8.1  Canp_control  PURGE CONTROL, CANISTER PURGE - CRAI8 17-45 {7}
SUB 898FC "L__898FC_RZA8E839_??"                                            # SAME AS RZASA Sub_8E839     # {7}
SUB 899AB "Sbg899AB_RZA8E899_START_OF_SSPOD(1-4)OUTPUT_PRG"              # SAME AS RZASA Sub_8E899     #CANISTER PURGE SOLENOID OUTPUT PROCESSING - CRAI8 4-47 {7}
SUB 899C0 "Sbg899C0_RZA8E8AC"                                            # SAME AS RZASA Sub_8E8AC     # {7}
SUB 89A49 "Sbg89A49_RZA09535_32.2.1.1_SHPCA_EXEC_BG"                     # SAME AS RZASA Sub_09535     #32.2.1.1  Shpca_exec_bg SHIFT POINT CALCULATION, BACKGROUND MANAGER - CRAI8 32-60 {7}
SUB 89A5E "Sxx89A5E_RZA09286_32.2.2.1_SHPCA_PWF"                         # SAME AS RZASA Sub_09286     #32.2.2.1  Shpca_pwf SHIFT POINT CALCULATION, PERFORMANCE WEIGHTING FACTOR - CRAI8 32-64 STARTS AT L_092A9 IN RZASA {7}
SUB 89B19 "Sxx89B19_RZA09363_32.2.3.1_SHPCA_TQ_INTR"                     # SAME AS RZASA Sub_09363     #32.2.3.1  Shpca_tq_intr SHIFT POINT CALCULATION, TORQUE INTERPOLATION CALCULATION - CRAI8 32-69 {7}
SUB 89B61 "Sxx89B61_RZAxxxxx_32.2.3.2_TQ_INTR_UPDT"                      # SAME AS RZASA Sub_xxxxx     #32.2.3.2  Tq_intr_updt SHIFT POINT CALCULATION, TORQUE INTERPOLATION CALCULATION - CRAI8 32-70 {7}
SUB 89C52 "Sxx89C52_RZAxxxxx_32.2.4.1_SHPCA_PPH4"                        # SAME AS RZASA Sub_xxxxx     #32.2.4.1  Shpca_pph4 SHIFT POINT CALCULATION,  PREVENT POWERTRAIN HUNTING - CRAI8 32-74 {7}
SUB 89CB7 "Sxx89CB7_RZAxxxxx_32.2.4.2_VLOAD_CALC"                        # SAME AS RZASA Sub_xxxxx     #32.2.4.2  Vload_calc SHIFT POINT CALCULATION,  PREVENT POWERTRAIN HUNTING - CRAI8 32-75 {7}
SUB 89D58 "Sxx89D58_RZA094D2_32.2.5.1_SHPCA_CSM"                         # SAME AS RZASA Sub_094D2     #32.2.5.1  Shpca_csm SHIFT POINT CALCULATION, COLD SHIFT MULTIPLIER - CRAI8 32-77 {7}
SUB 89D96 "Sxx89D96_RZA09DEC_32.2.6.1_SHPCA_SYNTH_TP"                    # SAME AS RZASA Sub_09DEC     #32.2.6.1  Shpca_synth_tp SHIFT POINT CALCULATION, DETERMINE EFFECTIVE (SYNTHETIC) TP - CRAI8 32-80 {7}
SUB 89E4E "Sxx89E4E_RZA097A5_??_32.2.7.1_SHPCA_VSSP4"                    # SAME AS RZASA Sub_097A5     #32.2.7.1  Shpca_vssp4 SHIFT POINT CALCULATION, CALCULATE SHIFT POINTS - CRAI8 32-87 {7}
SUB 8A1B8 "Sxx8A1B8_RZA09D7A_MATH_SUB_??"                                # SAME AS RZASA Sub_09D7A     # {7}
SUB 8A1DE "Sxx8A1DE_RZA09DA0_MATH_SUB_??"                                # SAME AS RZASA Sub_09DA0     # {7}
SUB 8A235 "Sbg8A235_RZA89C16_31.6.2.1_TIP_EXEC_BG"                       # SAME AS RZASA Sub_89C16     #31.6.2.1  Tip_exec_bg TRANSMISSION INPUT PROCESSING, EXECUTIVE - CRAI8 31-239 {7}
SUB 8A261 "Sxx8A261_RZA89FB3_31.6.9.1_TIP_4X4L"                          # SAME AS RZASA Sub_89FB3     #31.6.9.1  Tip_4x4l TRANSMISSION INPUT PROCESSING, FOUR BY FOUR LOW SWITCH - CRAI8 31-265 {7}
SUB 8A29E "Sxx8A29E_RZA89C4C_31.6.3.1_TIP_ANALOG_TRS"                    # SAME AS RZASA Sub_89C4C     #31.6.3.1  Tip_analog_trs TRANSMISSION INPUT PROCESSING, ANALOG TRS - CRAI8 31-243 {7}
SUB 8A2F6 "Sxx8A2F6_RZA89CA5_31.6.4.1_TIP_DIGITAL_TRS"                   # SAME AS RZASA Sub_89CA5     #31.6.4.1  Tip_digital_trs TRANSMISSION INPUT PROCESSING, DIGITAL TRANSMISSION RANGE SENSOR - CRAI8 31-247 {7}
SUB 8A369 "Sxx8A369_RZAxxxxx_31.6.6.1_TIP_OS"                            # SAME AS RZASA Sub_xxxxx     #31.6.6.1  Tip_os TRANSMISSION INPUT PROCESSING, OUTPUT SHAFT SPEED CRAI8 31-258 {7}
#SYM 8A3DD "L_8A3DD-8A407_RZA8979B_PART_OF_31.6.6.1"                      # SAME AS RZASA Sub_8979B     # {7}
SUB 8A41A "Sxx8A41A_RZA89FA0_31.6.8.1_TIP_TOT"                           # SAME AS RZASA Sub_89FA0     #31.6.8.1  Tip_tot TRANSMISSION INPUT PROCESSING, TRANSMISSION FLUID TEMPERATURE SENSOR - CRAI8 31-263 {7}
SUB 8A42D "Sxx8A42D_RZA89E09_31.6.5.1_TIP_VS"                            # SAME AS RZASA L_89E09       #31.6.5.1  Tip_vs TRANSMISSION INPUT PROCESSING, VEHICLE SPEED - CRAI8 31-251{7}
SUB 8A586 "Sxx8A586_RZA89F6B_31.6.7.1_TIP_TCS"                           # SAME AS RZASA Sub_89F6B     #31.6.7.1  Tip_tcs TRANSMISSION INPUT PROCESSING, TRANSMISSION CONTROL SWITCH - CRAI8 31-261 {7}
SUB 8A5A9 "Sbg8A5A9_RZA8A304_31.9.4.1_TSC_EXEC_BG"                       # SAME AS RZASA Sub_8A304     #31.9.4.1  Tsc_exec_bg TRANSMISSION CALCULATIONS, EXECUTIVE - CRAI8 31-350 {7}
SUB 8A5D0 "Sxx8A5D0_RZA8A4A3_31.9.10.1_TSC_TRS"                          # SAME AS RZASA Sub_8A4A3     #31.9.10.1  Tsc_trs TRANSMISSION CALCULATIONS, TRANSMISSION RANGE SENSOR - CRAI8 31-372 {7}
SUB 8A629 "Sxx8A629_RZA8A381_31.9.8.1_TSC_TOT"                           # SAME AS RZASA Sub_8A381     #31.9.8.1  Tsc_tot TRANSMISSION CALCULATIONS, TRANSMISSION OIL TEMPERATURE CALCULATIONS - CRAI8 31-365 {7}
SUB 8A686 "Sxx8A686_RZAxxxxx_31.9.5.1_TSC_NE"                            # SAME AS RZASA Sub_xxxxx     #31.9.5.1  Tsc_ne TRANSMISSION CALCULATIONS, ENGINE SPEED - CRAI8 31-353 {7}
SUB 8A6C0 "Sxx8A6C0_RZAxxxxx_31.9.7.1_TSC_OS"                            # SAME AS RZASA Sub_xxxxx     #31.9.7.1  Tsc_os TRANSMISSION CALCULATIONS, OUTPUT SHAFT SPEED - CRAI8 31-368 {7}
SUB 8A748 "Sxx8A748_RZA8A7A3_??_31.9.12.1_TSC_PU_PD"                     # SAME AS RZASA Sub_8A7A3     #31.9.12.1  Tsc_pu_pd TRANSMISSION CALCULATIONS, PREDICTIVE VEHICLE SPEED - CRAI8 31-382 {7}
SUB 8A89C "Sxx8A89C_RZAxxxxx_DETERMINE_VALUE_OF_VSBART_RT_PU/PD"         # SAME AS RZASA Sub_xxxxx     #USED IN SUB 31.9.12.1
SUB 8A90D "Sxx8A90D_RZA8A416_31.9.9.1_TSC_TP"                            # SAME AS RZASA Sub_8A416     #31.9.9.1  Tsc_tp TRANSMISSION CALCULATIONS, THROTTLE POSITION - CRAI8 31-369 {7}
SUB 8A990 "Sxx8A990_RZA8A321_31.9.6.1_TSC_TQ"                            # SAME AS RZASA Sub_8A321     #31.9.6.1  Tsc_tq TRANSMISSION CALCULATIONS, TORQUE - CRAI8 31-357 {7}
SUB 8AA6C "Sxx8AA6C_RZA8A506_31.9.11.1_TSC_VS"                           # SAME AS RZASA Sub_8A506     #31.9.11.1  Tsc_vs TRANSMISSION CALCULATIONS, VEHICLE SPEED PROCESSING - CRAI8 31-377 {7}
SUB 8AC32 "Sxx8AC32_RZAxxxxx_31.9.13.1_TSC_J1979"                        # SAME AS RZASA Sub_xxxxx     #31.9.13.1  Tsc_j1979 TRANSMISSION CALCULATIONS, MANUAL TRANSMISSION - CRAI8 31-386 {7}
SUB 8AC68 "Sbg8AC68_RZAxxxxx_31.7.2.1_TOC_EXEC_BG"                       # SAME AS RZASA Sub_xxxxx     #31.7.2.1  Toc_exec_bg TRANSMISSION OUTPUT CONTROL, EXECUTIVE - CRAI8 {7}
SUB 8AC7D "Sbg8AC7D_RZAxxxxx_31.7.5.1_TOC_VFS(TOC_EPC)"                 # SAME AS RZASA Sub_xxxxx     #31.7.5.1  Toc_vfs TRANSMISSION OUTPUT CONTROL, ELECTRONIC PRESSURE CONTROL - CRAI8 31-276 (TOC_EPC) {7}
SUB 8ACEE "Sbg8ACEE_RZAxxxxx_31.7.3.1_TOC_MAN_TRANS"                     # SAME AS RZASA Sub_xxxxx     #31.7.3.1  Toc_man_trans TRANSMISSION OUTPUT CONTROL, MANUAL TRANSMISSION - CRAI8 31-269 {7}
SUB 8AD23 "Sbg8AD23_RZAxxxxx_31.7.4_SHIFT_SOLENOID_OUTPUT_CONTROL(TOC_SS)" # SAME AS RZASA Sub_xxxxx   #31.7.4  SHIFT SOLENOID OUTPUT CONTROL (CRAEA)(TOC_SS) TRANSMISSION OUTPUT CONTROL, SHIFT SOLENOID OUTPUT CONTROL - CRAI8 31-271 {7}
SUB 8AD8D "Sbg8AD8D_RZAxxxxx_31.7.6.1_TOC_TCC"                           # SAME AS RZASA Sub_xxxxx     #31.7.6.1  Toc_tcc TRANSMISSION OUTPUT CONTROL, TORQUE CONVERTER CLUTCH - CRAI8 31-280 {7}
#SYM 8AD8D "31.7.6.2_BCSDC_OUT_CALC"                                                                    #31.7.6.2  Bcsdc_out_calc TRANSMISSION OUTPUT CONTROL, TORQUE CONVERTER CLUTCH - CRAI8 31-280 {7}
SUB 8ADD6 "Sbg8ADD6_RZAxxxxx_31.7.7.1_TOC_TCIL"                          # SAME AS RZASA Sub_xxxxx     #31.7.7.1  Toc_tcil Transmission Output Control, TRANSMISSION CONTROL INDICATOR LIGHT - CRAI8 31-284 {7}
SUB 8AE1C "Sxx8AE1C_RZAxxxxx_31.2.9.1_TDC_TST_ENA"                       # SAME AS RZASA Sub_xxxxx     #31.2.9.1  Tdc_tst_ena TRANSMISSION DIAGNOSTIC CALCULATIONS,  TRANSMISSION SELF TEST ENABLE - CRAI8 31-29 {7}
SUB 8AE71 "Sxx8AE71_RZAxxxxx_31.2.8.1_TDC_TR_LOAD"                       # SAME AS RZASA Sub_xxxxx     #31.2.8.1  Tdc_tr_load TRANSMISSION DIAGNOSTIC CALCULATIONS, TR LOAD CALCULATION - CRAI8 31-26 {7}
SUB 8AEB0 "Sxx8AEB0_RZAxxxxx_31.2.10.1_TDC_VMOVING_AUTO"                 # SAME AS RZASA Sub_xxxxx     #31.2.10.1  Tdc_vmoving_auto TRANSMISSION DIAGNOSTIC CALCULATIONS, VEHICLE MOVING DETECTOR - CRAI8 31-32 {7}
SUB 8AF8B "Sxx8AF8B_RZAxxxxx_31.2.1.1_TDC_AUTO_MON"                      # SAME AS RZASA Sub_xxxxx     #31.2.1.1  Tdc_auto_mon TRANSMISSION DIAGNOSTIC CALCULATIONS, AUTO TRANS MONITOR - CRAI8 31-5 {7}
SUB 8AF33 "Sxx8AF33_RZAxxxxx_31.2.11.1_TDC_VMOVING_MTX"                  # SAME AS RZASA Sub_xxxxx     #31.2.11.1  Tdc_vmoving_mtx TRANSMISSION DIAGNOSTIC CALCULATIONS,  MANUAL TRANS VMOVING - CRAI8 31-35 {7}
SUB 8AF7F "Sxx8AF7F_RZAxxxxx_31.2.3.1_TDC_MTX_MON"                       # SAME AS RZASA Sub_xxxxx     #31.2.3.1  Tdc_mtx_mon TRANSMISSION DIAGNOSTIC CALCULATIONS, MANUAL TRANS MONITOR - CRAI8 31-10 {7} 
SUB 8B01A "Sxx8B01A_RZAxxxxx_31.3.6.1_TFD_SFT_SOL"                       # SAME AS RZASA Sub_xxxxx     #31.3.6.1  Tfd_sft_sol TRANSMISSION FUNCTIONAL DIAGNOSTICS, SHIFT SOLENOID - CRAI8 31-66 {7}
SUB 8B0FA "Sxx8B0FA_RZAxxxxx_31.3.6.2_SS1_FAULT_CODE_LOGIC"              # SAME AS RZASA Sub_xxxxx     #31.3.6.2  Ss1_fault_code_logic TRANSMISSION FUNCTIONAL DIAGNOSTICS, SHIFT SOLENOID - CRAI8 31-68 {7}
SUB 8B113 "Sxx8B113_RZAxxxxx_31.3.6.3_SS2_FAULT_CODE_LOGIC"              # SAME AS RZASA Sub_xxxxx     #31.3.6.3  Ss2_fault_code_logic TRANSMISSION FUNCTIONAL DIAGNOSTICS, SHIFT SOLENOID - CRAI8 31-69 {7}
SUB 8B12C "Sxx8B12C_RZAxxxxx_31.3.7.1_TFD_SFT_VALID"                     # SAME AS RZASA Sub_xxxxx     #31.3.7.1  Tfd_sft_valid TRANSMISSION FUNCTIONAL DIAGGNOSTICS, SHIFT VALIDATION LOGIC - CRAI8 31-76 {7}
SUB 8B21F "Sxx8B21F_RZAxxxxx_31.3.7.3_SHIFT_VALIDATION"                  # SAME AS RZASA Sub_xxxxx     #31.3.7.3  Shift_validation TRANSMISSION FUNCTIONAL DIAGGNOSTICS, SHIFT VALIDATION LOGIC - CRAI8 31-78 {7}
SUB 8B2B1 "Sxx8B2B1_RZAxxxxx_31.3.7.5_SHIFT_FAULT_LOGIC"                 # SAME AS RZASA Sub_xxxxx     #31.3.7.5  Shift_fault_logic TRANSMISSION FUNCTIONAL DIAGGNOSTICS, SHIFT VALIDATION LOGIC - CRAI8 31-80 {7}
SUB 8B2E7 "Sxx8B2E7_RZAxxxxx_31.3.7.4_SHIFT_GEAR_COMMAND_LOGIC"          # SAME AS RZASA Sub_xxxxx     #31.3.7.4  Shift_gear_command_logic TRANSMISSION FUNCTIONAL DIAGGNOSTICS, SHIFT VALIDATION LOGIC - CRAI8 31-79 {7}
SUB 8B353 "Sxx8B353_RZAxxxxx_31.3.7.7_SHIFT_FMEM_LOGIC"                  # SAME AS RZASA Sub_xxxxx     #31.3.7.7  Shift_fmem_logic TRANSMISSION FUNCTIONAL DIAGGNOSTICS, SHIFT VALIDATION LOGIC - CRAI8 31-81 {7}
SUB 8B374 "Sxx8B374_RZAxxxxx_31.3.7.2_EXPECTED_NE_DROP"                  # SAME AS RZASA Sub_xxxxx     #31.3.7.2  Expected_ne_drop TRANSMISSION FUNCTIONAL DIAGGNOSTICS, SHIFT VALIDATION LOGIC - CRAI8 31-77 {7}
SUB 8B397 "Sxx8B397_RZAxxxxx_31.3.7.6_SS_MON_LOGIC"                      # SAME AS RZASA Sub_xxxxx     #31.3.7.6  Ss_mon_logic TRANSMISSION FUNCTIONAL DIAGGNOSTICS, SHIFT VALIDATION LOGIC - CRAI8 31-80 {7}
SUB 8B3D9 "Sxx8B3D9_RZA8B0BD_31.2.6.1_TDC_TQ_IN_CALC"                    # SAME AS RZASA Sub_8B0BD     #31.2.6.1  Tdc_tq_in_calc TRANSMISSION DIAGNOSTIIC CALCULATIONS,  Input Torque Calculation - CRAI8 31-20 {7}
SUB 8B449 "Sxx8B449_RZA8B12F_31.2.7.1_TDC_TQ_PWR_MODE"                   # SAME AS RZASA Sub_8B12F     #31.2.7.1  Tdc_tq_pwr_mode TRANSMISSION DIAGNOSTICC CALCULATIONS, TORQUE BASED PWR MODE - CRAI8 31-23 {7}
SUB 8B478 "Sxx8B478_RZA8BCF5_31.3.8.1_TFD_TCC_SOL_FN_TEST"               # SAME AS RZASA Sub_8BCF5     #31.3.8.1  Tfd_tcc_sol_fn_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC FUNCTIONALITY TEST  CRAI8 - CRAI8 31-89 {7}
SUB 8B5B1 "Sxx8B5B1_RZA8BDCB_31.3.8.2_TCC_ON_TEST"                       # SAME AS RZASA Sub_8BDCB     #31.3.8.2  Tcc_on_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC FUNCTIONALITY TEST  CRAI8 - CRAI8 31-91 {7}
SUB 8B660 "Sxx8B660_RZA8BE70_31.3.8.3_TCC_UNLK_TEST"                     # SAME AS RZASA Sub_8BE70     #31.3.8.3  Tcc_unlk_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC FUNCTIONALITY TEST  CRAI8 - CRAI8 31-93 {7}
SUB 8B713 "Sxx8B713_RZA8BF28_31.3.8.4_TCC_LK_TEST"                       # SAME AS RZASA Sub_8BF28     #31.3.8.4  Tcc_lk_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC FUNCTIONALITY TEST  CRAI8 - CRAI8 31-94 {7}
SUB 8B7E9 "Sxx8B7E9_RZA8BFC7_31.3.8.5_TCC_TEST_DONE"                     # SAME AS RZASA Sub_8BFC7     #31.3.8.5  Tcc_test_done TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC FUNCTIONALITY TEST  CRAI8 - CRAI8 31-96 {7}
SUB 8B854 "Sxx8B854_RZA8C03F_31.3.8.6_TCC_ON_MONITOR"                    # SAME AS RZASA Sub_8C03F     #31.3.8.6  Tcc_on_monitor TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC FUNCTIONALITY TEST  CRAI8 - CRAI8 31-97 {7}
SUB 8B8AD "Sxx8B8AD_RZA8C083_31.3.9.1_TFD_TCC_STB"                       # SAME AS RZASA Sub_8C083     #31.3.9.1  Tfd_tcc_stb TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC STABILITY TEST - CRAI8 31-102 {7}
SUB 8BA69 "Sxx8BA69_RZA8C248_31.3.10.1_TFD_TCC_STUCK_ON"                 # SAME AS RZASA Sub_8C248     #31.3.10.1  Tfd_tcc_stuck_on TRANSMISSION FUNCTIONAL DIAGNOSTICS, TCC STUCK ON TEST - CRAI8 31-112 {7}

SUB 8BE04 "Sxx8BE04_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #

SUB 8BE12 "Sbg8BE12_RZAxxxxx_31.2.2.1_TDC_EXEC_BG"                       # SAME AS RZASA Sub_xxxxx     #31.2.2.1  Tdc_exec_bg TRANSMISSION DIAGNOSTIC CALCULATIONS, TDC BACKGROUND EXECUTIVE - CRAI8 31-7 {7}
SUB 8BE3E "Sbg8BE3E_RZAxxxxx_31.3.1.1_TFD_BG_MGR"                        # SAME AS RZASA Sub_xxxxx     #31.3.1.1  Tfd_bg_mgr TRANSMISSION FUNCTIONAL DIAGNOSTICS, BACKGROUND EXECUTIVE - CRAI8 31-37 {7}
SUB 8BE5E "Sbg8BE5E_RZAxxxxx_31.4.2.1_TFM_EXEC_BG"                       # SAME AS RZASA Sub_xxxxx     #31.4.2.1  Tfm_exec_bg TRANSMISSION FAILURE MANAGEMENT, TFM BACKGROUND MANAGER - CRAI8 31-121 {7}
SUB 8BE8B "Sxx8BE8B_RZAxxxxx_31.4.1.1_TFM_ANALOG_TRS"                    # SAME AS RZASA Sub_xxxxx     #31.4.1.1  Tfm_analog_trs  TRANSMISSION FAILURE MANAGEMENT, ANALOG TRS  - CRAI8 31-118 {7}
SUB 8BEEC "Sxx8BEEC_RZA8C5C5_31.4.3.1_TFM_DIGITAL_TRS"                   # SAME AS RZASA Sub_8C5C5     #31.4.3.1  Tfm_digital_trs TRANSMISSION FAILURE MANAGEMENT, DIGITAL TRS  - CRAI8 31-124 {7}
SUB 8BF60 "Sxx8BF60_RZA8C655_31.4.8.1_TFM_TRS_FMEM_SET"                  # SAME AS RZASA Sub_8C655     #31.4.8.1  Tfm_trs_fmem_set TRANSMISSION FAILURE MANAGEMENT, TRS FMEM SET  - CRAI8 31-146 {7}
SUB 8BF77 "Sxx8BF77_RZA8C66D_31.4.4.1_TFM_EPC_CLIP"                      # SAME AS RZASA Sub_8C66D     #31.4.4.1  Tfm_epc_clip TRANSMISSION FAILURE MANAGEMENT, EPC FAILURE MODE CLIP - CRAI8 31-128 {7}
SUB 8BFC7 "Sxx8BFC7_RZA8C6C0_31.4.5.1_TFM_TCC"                           # SAME AS RZASA Sub_8C6C0     #31.4.5.1  Tfm_tcc TRANSMISSION FAILURE MANAGEMENT, TCC LOCKUP - CRAI8 31-132 {7}

SUB 8C009 "Sxx8C009_RZAxxxxx_31.4.7.1_TFM_TOT"                           # SAME AS RZASA Sub_xxxxx     #31.4.7.1  Tfm_tot TRANSMISSION FAILURE MANAGEMENT, TOT  - CRAI8 31-143 {7} 
SUB 8C0B4 "Sxx8C0B4_RZA8C7E3_31.4.12.1_TFM_GR_AVAIL"                     # SAME AS RZASA Sub_8C7E3     #31.4.12.1  Tfm_gr_avail TRANSMISSION FAILURE MANAGEMENT, AUTO GEAR AVAILABLE LOGIC - CRAI8 31-160 {7}
SUB 8C161 "Sxx8C161_RZA8C8F8_31.4.11.1_TFM_GR_FMEM"                      # SAME AS RZASA L_8C8F8       #31.4.11.1  Tfm_gr_fmem TRANSMISSION FAILURE MANAGEMENT, GEAR FMEM LOGIC - CRAI8 31-157 {7}
SUB 8C1A0 "Sxx8C1A0_RZAxxxxx_31.4.6.1_TFM_TCIL_FLASH"                    # SAME AS RZASA Sub_xxxxx     #31.4.6.1  Tfm_tcil_flash TRANSMISSION FAILURE MANAGEMENT, TRANSMISSION CONTROL INDICATOR LIGHT - CRAI8 31-137 {7}
SUB 8C2DA "Sxx8C2DA_RZA8CB4D_31.4.10.1_TFM_IR_TOT"                       # SAME AS RZASA Sub_8CB4D     #31.4.10.1  Tfm_ir_tot TRANSMISSION FAILURE MANAGEMENT, IN RANGE TOT  - CRAI8 31-155 {7}
SUB 8C315 "Sxx8C315_RZA8CB7F_31.4.13.1_TFM_SP_FMEM"                      # SAME AS RZASA Sub_8CB7F     #31.4.13.1  Tfm_sp_fmem TRANSMISSION FAILURE MANAGEMENT, SHIFT POINT FMEM - CRAI8 31-164 {7}
SUB 8C345 "Sxx8C345_RZA8CBBC_31.4.9.1_TFM_SPD_CALCS"                     # SAME AS RZASA Sub_8CBBC     #31.4.9.1  Tfm_spd_calcs TRANSMISSION FAILURE MANAGEMENT, FM SPEED CALCS - CRAI8 31-151 {7}
SUB 8C413 "Sxx8C413_RZA8CCAB"                                            # SAME AS RZASA Sub_8CCAB     # {7}
SUB 8C44D "Sxx8C44D_RZA8CCED_31.4.14.1_TFM_TCC_ICTL"                     # SAME AS RZASA Sub_8CCED     #31.4.14.1  Tfm_tcc_ictl TRANSMISSION FAILURE MANAGEMENT, TCC INTRUSIVE CONTROL - CRAI8 31-167 {7}
SUB 8C4C7 "Sxx8C4C7_RZA963A1_31.5.7.1_TID_IN_RANGE_TOT"                  # SAME AS RZASA Sub_963A1     #31.5.7.1  Tid_in_range_tot TRANSMISSION INPUT DIAGNOSTICS, IN RANGE TOT - CRAI8 31-204 {7}
SUB 8C557 "Sxx8C557_RZA96470_31.5.7.2_TOT_IR_COUNTER_UPDATE"             # SAME AS RZASA Sub_96470     #31.5.7.2  Tot_ir_counter_update TRANSMISSION INPUT DIAGNOSTICS, IN RANGE TOT - CRAI8 31-205 {7}
SUB 8C582 "Sxx8C582_RZA9649D_31.5.7.3_TOT_IR_ENTRY"                      # SAME AS RZASA Sub_9649D     #31.5.7.3  Tot_ir_entry TRANSMISSION INPUT DIAGNOSTICS, IN RANGE TOT - CRAI8 31-205 {7}
SUB 8C5A9 "Sxx8C5A9_RZA964C4_31.5.7.4_TOT_IR_TEST"                       # SAME AS RZASA Sub_964C4     #31.5.7.4  Tot_ir_test TRANSMISSION INPUT DIAGNOSTICS, IN RANGE TOT - CRAI8 31-207 {7}
SUB 8C668 "Sxx8C668_RZA96583_31.5.7.5_TOT_IR_CODE_SET"                   # SAME AS RZASA Sub_96583     #31.5.7.5  Tot_ir_code_set TRANSMISSION INPUT DIAGNOSTICS, IN RANGE TOT - CRAI8 31-208 {7}
SUB 8C69C "Sxx8C69C_RZA8BC9B_31.3.3.1_TFD_NOV_4X4L_TEST"                 # SAME AS RZASA Sub_8BC9B     #31.3.3.1  Tfd_nov_4x4l_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, NOV 4 X4L TEST - CRAI8 31-50 {7}
SUB 8C702 "Sxx8C702_RZA8B2EF_31.3.4.1_TFD_OTEMP_TEST"                    # SAME AS RZASA Sub_8B2EF     #31.3.4.1  Tfd_otemp_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, OVERTEMPERATURE TEST - CRAI8 31-54 {7}
SUB 8C744 "Sxx8C744_RZA8B70A_31.3.5.1_TFD_RT_NOVS"                       # SAME AS RZASA Sub_8B70A     #31.3.5.1  Tfd_rt_novs TRANSMISSION FUNCTIONAL DIAGNOSTICS, RT_NOVS_KAM CALCULATION - CRAI8 31-59 {7}
SUB 8C80E "Sxx8C80E_RZA8B894_31.3.5.2_NOVAVG_CALC"                       # SAME AS RZASA Sub_8B894     #31.3.5.2  Novavg_calc TRANSMISSION FUNCTIONAL DIAGNOSTICS, RT_NOVS_KAM CALCULATION - CRAI8 31-60 {7}
SUB 8C884 "Sxx8C884_RZA8B8FF_31.3.5.3_NOV_KAM_UPDATE"                    # SAME AS RZASA Sub_8B8FF STARTS AT L_8B952     #31.3.5.3  Nov_kam_update TRANSMISSION FUNCTIONAL DIAGNOSTICS, RT_NOVS_KAM CALCULATION - CRAI8 31-62 {7}
SUB 8C8C7 "Sxx8C8C7_RZA8B007_31.2.5.1_TDC_SPD_CALCS"                     # SAME AS RZASA Sub_8B007     #31.2.5.1  Tdc_spd_calcs TRANSMISSION DIAGNOSTIC CALCULATIONS, DIAGNOSTIC SPEED CALCS - CRAI8 31-16 {7}
SUB 8C973 "Sxx8C973_RZA8AF1A_31.2.4.1_TDC_NOVS_CALC"                     # SAME AS RZASA Sub_8AF1A     #31.2.4.1  Tdc_novs_calc TRANSMISSION DIAGNOSTIC CALCULATIONS, ENGINE OVER VEHICLE SPEED - CRAI8 31-12 {7}
SUB 8C98C "Sxx8C98C_RZA8B99F_31.3.2.1_TFD_NON_TSS_RATIO_TEST"            # SAME AS RZASA Sub_8B99F     #31.3.2.1  Tfd_non_tss_ratio_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, NON TSS RATIO TEST - CRAI8 31-43 {7}
SUB 8CA37 "Sxx8CA37_RZA8BA35_31.3.2.2_OPEN_TCC_RATIO_TEST"               # SAME AS RZASA Sub_8BA35     #31.3.2.2  Open_tcc_ratio_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, NON TSS RATIO TEST - CRAI8 31-44 {7}
SUB 8CAB0 "Sxx8CAB0_RZA8BB68_31.3.2.4_RT_HIGH_UPCOUND"                   # SAME AS RZASA Sub_8BB68     #31.3.2.4  Rt_high_upcound TRANSMISSION FUNCTIONAL DIAGNOSTICS, NON TSS RATIO TEST - CRAI8 31-46 {7}
SUB 8CAD0 "Sxx8CAD0_RZA8BB4D_31.3.2.3_RT_HIGH_DOWNCOUND"                 # SAME AS RZASA Sub_8BB4D     #31.3.2.3  Rt_high_downcound TRANSMISSION FUNCTIONAL DIAGNOSTICS, NON TSS RATIO TEST - CRAI8 31-46 {7}
SUB 8CAF0 "Sxx8CAF0_RZA8BB83_31.3.2.5_LOCKED_TCC_RATIO_TEST"             # SAME AS RZASA Sub_8BB83     #31.3.2.5  Locked_tcc_ratio_test TRANSMISSION FUNCTIONAL DIAGNOSTICS, NON TSS RATIO TEST - CRAI8 31-47 {7}
SUB 8CBC3 "Sxx8CBC3_RZAxxxxx"                                            # SAME AS RZASA Sub_xxxxx     # {7}
SUB 8CCCE "Sbg8CCCE_RZA8CE06"                                            # SAME AS RZASA Sub_8CE06     # {7}
SUB 8CCDB "Sbg8CCDB_RZA8CE14_29.2.1.1_TQMOD_BG"                          # SAME AS RZASA Sub_8CE14     #29.2.1.1  Tqmod_bg TORQUE MODULATION, TORQUE MODULATION BACKGROUND CONTROL - CRAI8 29-105 {7}
SUB 8CDC5 "Sxx8CDC5_RZAxxxxx_29.2.1.2_UPSHIFT_TQMOD_SETUP"               # SAME AS RZASA Sub_xxxxx     #29.2.1.2  Upshift_tqmod_setup TORQUE MODULATION, TORQUE MODULATION BACKGROUND CONTROL - CRAI8 29-106 {7}
SUB 8CE9A "Sxx8CE9A_RZA8D083_29.2.1.3_DOWNSHIFT_TQMOD_SETUP"             # SAME AS RZASA Sub_8D083     #29.2.1.3  Downshift_tqmod_setup TORQUE MODULATION, TORQUE MODULATION BACKGROUND CONTROL - CRAI8 29-107 {7}
SUB 8CF92 "Sxx8CF92_RZA8D157_29.2.3.1_TQMOD_IMRC_CTL"                    # SAME AS RZASA Sub_8D157     #29.2.3.1  Tqmod_imrc_ctl TRANSMISSION INPUT CONVERSIONS, IMRC/TRANSMISSION INTERACTIO - CRAI8 29-116 {7}
SUB 8CFF8 "Sbg8CFF8_RZA8D1BD_??"                                            # SAME AS RZASA Sub_8D1BD     # {7}
SUB 8D00F "Sxx8D00F_RZA8D1DB_32.1.6.1_SC_DESRD_GR_DETR"                  # SAME AS RZASA Sub_8D1DB     #32.1.6.1  Sc_desrd_gr_detr SHIFT CONTROL, PRNDL BASED DESIRED GEAR DETERMINATION - CRAI8 32-30 {7}
SUB 8D0E3 "Sxx8D0E3_RZA8D2AF_32.1.8.1_SC_GR_DS_AUTO"                     # SAME AS RZASA Sub_8D2AF     #32.1.8.1  Sc_gr_ds_auto SHIFT SCHEDULING, GR_DS, AUTOMATIC SHIFT SCHEDULE LOGIC - CRAI8 32-39 {7}
SUB 8D2BF "Sxx8D2BF_RZA8D4AC_32.1.12.1_SC_VER_AUTO_SHFT"                 # SAME AS RZASA Sub_8D4AC     #32.1.12.1  Sc_ver_auto_shft SHIFT CONTROL, DELAY/VERIFY SHIFT LOGIC - CRAI8 32-57 {7}
SYM 8D2F7 "32.1.12.2_SHFT_ID_VER_TMR"                                    #                             #32.1.12.2  Shft_ld_ver_tmr SHIFT CONTROL, DELAY/VERIFY SHIFT LOGIC - CRAI8 32-58 {7}
SUB 8D32D "Sxx8D32D_RZA8D524_32.1.9.1_SC_GR_SEQ_PNTR"                    # SAME AS RZASA Sub_8D524     #32.1.9.1  Sc_gr_seq_pntr SHIFT CONTROL, GR_SEQ_PNTR CALCULATION - CRAI8 32-46 {7}
SUB 8D3AB "Sxx8D3AB_RZA8D5A3_32.1.9.1_SC_CM_GR_DETR"                     # SAME AS RZASA Sub_8D5A3     #32.1.3.1  Sc_cm_gr_detr SHIFT CONTROL, PRNDL BASED COMMANDED GEAR DETERMINATION - CRAI8 32-16 {7}
SUB 8D63A "Sxx8D63A_RZA8D851_32.1.4.1_SC_CM_GR_MAN1"                     # SAME AS RZASA Sub_8D851     #32.1.4.1  Sc_cm_gr_man1 SHIFT CONTROL, GR_CM, PRNDL = MAN1 LOGIC - CRAI8 32-23 {7}
SUB 8D6CA "Sxx8D6CA_RZA8D8E1"                                            # SAME AS RZASA Sub_8D8E1     # {7}
SUB 8D716 "Sxx8D716_RZA8D92D"                                            # SAME AS RZASA Sub_8D92D     # {7}
SUB 8D7A2 "Sxx8D7A2_RZA8D9E6_32.1.1.1_SC_CM_GR_AUTO_DWN"                 # SAME AS RZASA Sub_8D9E6     #32.1.1.1  Sc_cm_gr_auto_dwn SHIFT CONTROL, COMMANDED GEAR, AUTO DOWNSHIFT LOGIC - CRAI8 32-4 {7}
SUB 8D807 "Sxx8D807_RZAxxxxx_32.1.1.2_DOWNSHIFT_DELAY"                   # SAME AS RZASA Sub_xxxxx     #32.1.1.2  Downshift_delay SHIFT CONTROL, COMMANDED GEAR, AUTO DOWNSHIFT LOGIC - CRAI8 32-6 {7}
SUB 8D877 "Sxx8D877_RZA8DAEC"                                            # SAME AS RZASA Sub_8DAEC     # {7}
SUB 8D89E "Sxx8D89E_RZA8DB15_32.1.11.1_SC_TIMER"                         # SAME AS RZASA Sub_8DB15     #32.1.11.1  Sc_timer SHIFT CONTROL, LOAD SHIFT IN PROGRESS TIMER - CRAI8 32-52 {7}
SUB 8D93E "Sbg8D93E_RZA9FC2E_32.3.1_DETERMINE_SHIFT_SOLENOID_STATES"     # SAME AS RZASA Sub_9FC2E     #32.3.1  DETERMINE SHIFT SOLENOID STATES (CRAH0) SHIFT POINT CALCULATION, CALCULATE SHIFT POINTS - CRAI8 32-90 {7}
SUB 8D950 "Sxx8D950_RZA9FC41_32.3.1.1_SSCTL_SOL_CTL"                     # SAME AS RZASA Sub_9FC41     #32.3.1.1  Ssctl_sol_ctl SHIFT SOLENOID CONTROL, DETERMINE SHIFT SOLENOID STATES - CRAI8 32-94 {7}
SUB 8DA54 "Sxx8DA54_RZA9FD42_32.3.2.1_SSCTL_RLS"                         # SAME AS RZASA Sub_8FD42     #32.3.2.1  Ssctl_rls SHIFT CONTROL, REVERSE LOCK - OUT SOLENOID CONTROL - CRAI8 32-98 {7}
SUB 8DA85 "Sxx8DA85_RZA8E908_TEST_BIT_SUB_???"                           # SAME AS RZASA Sub_8E908     #LOOKS TO BE MATH SUB OF SOME KIND {7}
SUB 8DAA6 "Sbg8DAA6_RZA8E929_34.1.1.1_CCC_EXEC_BG"                       # SAME AS RZASA Sub_8E929     #34.1.1.1  Ccc_exec_bg CONVERTER CLUTCH CONTROL, BACKGROUND EXECUTIVE - CRAI8 34-2 {7}
SUB 8DAC2 "Sxx8DAC2_RZA8E948_34.1.5.1_CCC_PID_SLIP_CTL"                  # SAME AS RZASA Sub_8E948     #34.1.5.1  Ccc_pid_slip_ctl CONVERTER CLUTCH CONTROL, PID SLIP CONTROL - CRAI8 34-25 {7}
SUB 8DC95 "Sxx8DC95_RZA8EB1C_34.1.7.1_CCC_TCAP_CONV"                     # SAME AS RZASA Sub_8EB1C     #34.1.7.1  Ccc_tcap_conv CONVERTER CLUTCH CONTROL, TORQUE CAPACITY CONVERSION - CRAI8 34-32 {7}
SUB 8DCFE "Sxx8DCFE_RZA8EB83_34.1.7.1_CALC_PWM_DUTY_CYCLE_PAGE34-32??"   # SAME AS RZASA Sub_8EB83     #SEEMS TO CALCULATE PWM DUTY CYCLE 34-32 OR CALCULATES ADDRESS FOR FNDCLOFF,FNDCLSLP,FNDCHOFF, FNDCHSLP ???WORKS WITH SUB_8DC95 {7}
SUB 8DD1A "Sxx8DD1A_RZA8EB9F_34.1.6.1_CCC_TCAP_CALC"                     # SAME AS RZASA Sub_8EB9F     #34.1.6.1  Ccc_tcap_calc CONVERTER CLUTCH CONTROL, TORQUE CAPACITY CALCULATION - CRAI8 34-29 {7}
SUB 8DD74 "Sxx8DD74_RZA8EBF8_34.1.8.1_CCC_TCAP_DETR"                     # SAME AS RZASA Sub_8EBF8     #34.1.8.1  Ccc_tcap_detr CONVERTER CLUTCH CONTROL, TORQUE CAPACITY DETERMININATION - CRAI8 34-35 {7}
SUB 8DDE0 "Sxx8DDE0_RZA8EC55_34.1.9.1_CCC_TCAP_NORM_CALC"                # SAME AS RZASA Sub_8EC55     #34.1.9.1  Ccc_tcap_norm_calc CONVERTER CLUTCH CONTROL, NORMAL TORQUE CAPACITY CALCULATION - CRAI8 34-41 {7}
SUB 8E0BC "Sxx8E0BC_RZA8EF26_34.1.10.1_CCC_TCAP_SHFT_CALC"               # SAME AS RZASA Sub_8EF26     #34.1.10.1  Ccc_tcap_shft_calc CONVERTER CLUTCH CONTROL, SHIFTING TORQUE CAPACITY CALCULATION - CRAI8 34-52 {7}
SUB 8E149 "Sxx8E149_RZA8EFB6_34.1.10.2_CCC_TCAP_INTR1"                   # SAME AS RZASA Sub_8EFB6     #34.1.10.2  Ccc_tcap_intr1 CONVERTER CLUTCH CONTROL, SHIFTING TORQUE CAPACITY CALCULATION - CRAI8 34-53 {7}
SUB 8E331 "Sxx8E331_RZA8F184_34.1.2.1_CCC_BYP_CLTCH_TESTS"               # SAME AS RZASA Sub_8F184     #34.1.2.1  Ccc_byp_cltch_tests CONVERTER CLUTCH CONTROL, BYPASS CLUTCH CONTROL - CRAI8 34-5 {7}
SUB 8E3C1 "Sxx8E3C1_RZA8F212"                                            # SAME AS RZASA Sub_8F212     # {7}
SUB 8E3F5 "Sxx8E3F5_RZA8F246"                                            # SAME AS RZASA Sub_8F246     # {7}
SUB 8E428 "Sxx8E428_RZA8F27D"                                            # SAME AS RZASA Sub_8F27D     # {7}
SUB 8E46E "Sxx8E46E_RZAxxxxx_CALCULATE_FOR_SLIP_ACT[SLIP_ACT=TMP5L]"     # SAME AS RZASA Sub_xxxxx     #34.1.3.1  Ccc_byp_slip_calc  CONVERTER CLUTCH CONTROL, SLIP CALCULATION - CRAI8 34-11 {7}
SUB 8E4AA "Sxx8E4AA_RZA8F303_34.1.4.1_CCC_MOD"                           # SAME AS RZASA Sub_8F303     #34.1.4.1  Ccc_mod CONVERTER CLUTCH CONTROL, SHIFT MODULATION LOGIC - CRAI8 34-16 {7}
SUB 8E635 "Sxx8E635_RZA8F491_34.1.3.1_CCC_BYP_SLIP_CALC"                 # SAME AS RZASA Sub_8F491     #34.1.3.1  Ccc_byp_slip_calc  CONVERTER CLUTCH CONTROL, SLIP CALCULATION - CRAI8 34-10 {7}
SUB 8E7CE "Sbg8E7CE_RZAxxxxx_16.1.1.1_ACC_INPUT_4"                       # SAME AS RZASA Sub_xxxxx     #16.1.1.1  Acc_input_4 A/C CLUTCH STRATEGY, A/C CLUTCH INPUT - CRAI8 16-3 {7}
SUB 8E82F "Sbg8E82F_RZAxxxxx_16.1.2.1_ACC_CONTROL"                       # SAME AS RZASA Sub_xxxxx     #16.1.2.1  Acc_control A/C CLUTCH STRATEGY, A/C CLUTCH CONTROL - CRAI8 16-9 {7}
SUB 8E94E "Sbg8E94E_RZAxxxxx_16.1.4.1_ACC_TIMER"                         # SAME AS RZASA Sub_xxxxx     #16.1.4.1  Acc_timer A/C CLUTCH STRATEGY, A/C CLUTCH CONTROL TIMERS - CRAI8 16-18 {7}
SUB 8E9C2 "Sbg8E9C2_RZAxxxxx_16.1.3.1_ACC_OUTPUT_1"                      # SAME AS RZASA Sub_xxxxx     #16.1.3.1  Acc_output_1 A/C CLUTCH STRATEGY, A/C CLUTCH OUTPUT - CRAI8 16-14 {7}
SUB 8EA7A "Sbg8EA7A_RZAxxxxx_16.1.5.1_ACC_OSM"                           # SAME AS RZASA Sub_xxxxx     #16.1.5.1  Acc_osm A/C CLUTCH STRATEGY, ACC OUTPUT STATE MONITOR - CRAI8 16-21 {7}
SUB 8EAC2 "Sbg8EAC2_RZAxxxxx_16.1.6.2_ACC_OBD_1"                         # SAME AS RZASA Sub_xxxxx     #16.1.6.1  Acc_obd_1 A/C CLUTCH STRATEGY, A/C CLUTCH DIAGNOSTICS - CRAI8 16-25 {7}
SUB 8EAE0 "Sbg8EAE0_RZAxxxxx_16.1.6.2_DETERMINE_AC_PERIOD"               # SAME AS RZASA Sub_xxxxx     #16.1.6.2  Determine_ac_period A/C CLUTCH STRATEGY, A/C CLUTCH DIAGNOSTICS - CRAI8 16-25 {7}
SUB 8EAF6 "Sbg8EAF6_RZAxxxxx_16.1.6.3_TEST_AC_PERIOD"                    # SAME AS RZASA Sub_xxxxx     #16.1.6.3  Test_ac_period A/C CLUTCH STRATEGY, A/C CLUTCH DIAGNOSTICS - CRAI8 16-26 {7}
SUB 8EB13 "Sbg8EB13_RZAxxxxx_16.1.6.3_SET_CLEAR_CODE"                    # SAME AS RZASA Sub_xxxxx     #16.1.6.4  Set_clear_code A/C CLUTCH STRATEGY, A/C CLUTCH DIAGNOSTICS - CRAI8 16-26 {7} 
SUB 8EB34 "Sbg8EB34_RZAxxxxx_19.1.1.1_EDF_CONTROL"                       # SAME AS RZASA Sub_xxxxx     #19.1.1.1  Edf_control FAN CONTROL, CONTROL STRATEGY - CRAI8 19-4 {7}
SUB 8EBD2 "Sbg8EBD2_RZAxxxxx_19.1.2.1_EDF_LSF_CONTROL"                   # SAME AS RZASA Sub_xxxxx     #19.1.2.1  Edf_lsf_control FAN CONTROL, LOW SPEED FAN STRATEGY - CRAI8 19-9 {7}
SUB 8EC3F "Sbg8EC3F_RZAxxxxx_19.1.3.1_EDF_HSF_CONTROL"                   # SAME AS RZASA Sub_xxxxx     #19.1.3.1  Edf_hsf_control FAN CONTROL, HIGH SPEED FAN STRATEGY - CRAI8 19-13 {7}

SUB 8ECB4 "Sbg8ECB4_RZAxxxxx_19.1.4.1_EDF_OUTPUT"                        # SAME AS RZASA Sub_xxxxx     #19.1.4.1  Edf_output FAN CONTROL, OUTPUT STRATEGY - CRAI8 19-16 {7}
SUB 8ED0E "Sbg8ED0E_RZAxxxxx_19.1.5.1_EDF_OSM"                           # SAME AS RZASA Sub_xxxxx     #19.1.5.1  Edf_osm FAN CONTROL, EDF OUTPUT STATE MONITOR - CRAI8 19-20 {7}
SUB 8ED2A "Sxx8ED2A_RZAxxxxx_19.1.5.2_EDF_TESTS"                         # SAME AS RZASA Sub_xxxxx     #19.1.5.2  Edf_tests FAN CONTROL, EDF OUTPUT STATE MONITOR - CRAI8 19-20 {7}
SUB 8ED67 "Sxx8ED67_RZAxxxxx_19.1.5.3_HEDF_TESTS"                        # SAME AS RZASA Sub_xxxxx     #19.1.5.3  Hedf_tests FAN CONTROL, EDF OUTPUT STATE MONITOR - CRAI8 19-21 {7}
SUB 8ED9C "Sbg8ED9C_RZA9F9B6_CHT_GAUGE_OUTPUT_PROCESSING_CRAI8_4-43"     # SAME AS RZASA Sub_9F9B6     #CYLINDER HEAD TEMPERATURE GAUGE OUTPUT PROCESSING HARDWARE INTERFACE, HARDWARE-SPECIFIC OUTPUT PROCESSING - CRAI8 4-43 {7}

SUB 8EDEF "Sbg8EDEf_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 8EE45 "Sbg8EE45_RZAxxxxx_10.3.1.1_CAT_TEMP"                          # SAME AS RZASA Sub_xxxxx     #10.3.1.1  Cat_temp INFERRED CATALYST TEMPERATURE, EXHAUST TEMPERATURE CALCULATION - CRAI8 10-68 {7}
SUB 8EE7A "Sxx8EE7A_RZAxxxxx_10.3.1.2_INITIALIZE_CAT_MODEL"              # SAME AS RZASA Sub_xxxxx     #10.3.1.2  Initialize_cat_model INFERRED CATALYST TEMPERATURE, EXHAUST TEMPERATURE CALCULATION - CRAI8 10-69 {7}
SUB 8EFA1 "Sxx8EFA1_RZAxxxxx_TEXP_TMP_SUBROUTINE_??"                     # SAME AS RZASA Sub_xxxxx     #13.3.1.2 texp_tmp = fox(&FNEXP, (-soak_cat / TC*******)) INFERRED CATALYST TEMPERATURE, EXHAUST TEMPERATURE CALCULATION - CRAI8 10-69 {7}
SUB 8EFE5 "Sxx8EFE5_RZAxxxxx_10.3.1.3_CAT_TEMP_MODEL"                    # SAME AS RZASA Sub_xxxxx     #10.3.1.3  Cat_temp_model INFERRED CATALYST TEMPERATURE, EXHAUST TEMPERATURE CALCULATION - CRAI8 10-70 {7}
SUB 8F689 "Sxx8F689_RZAxxxxx_10.3.1.4_INFERRED_AMBIENT"                  # SAME AS RZASA Sub_xxxxx     #10.3.1.4  Inferred_ambient INFERRED CATALYST TEMPERATURE, EXHAUST TEMPERATURE CALCULATION - CRAI8 10-74 {7}
SUB 8F6EF "Sxx8F6EF_RZAxxxxx_10.3.1_ROLAV_SUB"                           # SAME AS RZASA Sub_xxxxx     #ROLAV SUBROUTINE USED IN 10.3.1.3 & 10.3.1.4 {7}

SUB 8F70C "Sbg8F70C_RZA8F684"                                              # SAME AS RZASA Sub_8F684     # {7}
SUB 8F72C "Sxx8F72C_RZA8F6AF"                                              # SAME AS RZASA Sub_8F6AF     # {7}
SUB 8F72F "Sbg8F72F_RZA8F6B2"                                              # SAME AS RZASA Sub_8F6B2     # {7}

SUB 8F77D "Sxx8F77D_RZA8F6F7_31.7.6.3_BCSDC_DUCE_PW_????"                 # SAME AS RZASA Sub_8F6F7     #31.7.6.3  Bcsdc_duce_pw TRANSMISSION OUTPUT CONTROL, TORQUE CONVERTER CLUTCH - CRAI8 31-281 {7}
#SUB 8F77D "Sxx8F77D_RZA8F6F7_SSPOD(1-4)(PIN_67)OUTPUT_PRG"               # SAME AS RZASA Sub_8F6F7     #CALLED BY Sub_899AB #CANISTER PURGE SOLENOID OUTPUT PROCESSING - CRAI8 4-47 {7}
SUB 8F79A "Sbg8F79A_RZA8F714"                                             # SAME AS RZASA Sub_8F714     # {7}
SUB 8F79B "Sbg8F79B_RZA8F62B_Cal_Pntrs_&_Consl"                           # Set xF0 to xFF ROM Rbase values & check for console. Patch code target # SAME AS RZASA "Sbg8F62B_Cal_Pntrs_&_Consl"  {7}

SUB 8F7E3 "Sbg8F7E3_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F7E9 "Sbg8F7E9_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F7EF "Sbg8F7EF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F7F5 "Sbg8F7F5_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F7FB "Sbg8F7FB_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F801 "Sbg8F801_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #

SUB 8F807 "Sbg8F807_RZA8FB56"                                              # SAME AS RZASA Sub_8FB56     # {7}
SUB 8F80D "Sbg8F80D_RZA8305A"                                              # SAME AS RZASA Sub_8305A     # {7}

SUB 8F813 "Sbg8F813_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F819 "Sbg8F819_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F81F "Sbg8F81F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F825 "Sbg8F825_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F82B "Sbg8F82B_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F831 "Sbg8F831_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F837 "Sbg8F837_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F849 "Sbg8F849_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F84F "Sbg8F84F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F855 "Sbg8F855_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F85B "Sbg8F85B_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F861 "Sbg8F861_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F867 "Sbg8F867_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F86D "Sbg8F86D_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F873 "Sbg8F873_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F885 "Sbg8F885_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F88B "Sbg8F88B_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F891 "Sbg8F891_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F897 "Sbg8F897_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F89D "Sbg8F89D_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F8AF "Sbg8F8AF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F8BB "Sbg8F8BB_RZAxxxxx_38.1.1_KAM_QUALIFICATION_TEST"                    # SAME AS RZASA Sub_xxxxx      #38.1.1  KAM QUALIFICATION TEST (CRAE0) KEEP ALIVE MEMORY 38-1 {7}
SUB 8F8C1 "Sbg8F8C1_RZAxxxxx_34.3.1_BACKGROUND_MANAGER(CCSCH_EXEC_BG_1)"       # SAME AS RZASA Sub_xxxxx      #34.3.1  BACKGROUND MANAGER (CRAFA) CONVERTER CLUTCH CONTROL, BYPASS CLUTCH CONTROL - CRAI8 34-62 {7}
SUB 8F8D3 "Sbg8F8D3_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F8D9 "Sbg8F8D9_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F8DF "Sbg8F8DF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F8EB "Sbg8F8EB_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #

SUB 8F8FD "Sbg8F8FD_RZA8FC7C"                                              # SAME AS RZASA Sub_8FC7C      # {7}

SUB 8F903 "Sbg8F903_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F909 "Sbg8F909_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F90F "Sbg8F90F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F927 "Sbg8F927_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F939 "Sbg8F939_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F945 "Sbg8F945_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F94B "Sbg8F94B_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F951 "Sbg8F951_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F957 "Sbg8F957_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F95D "Sbg8F95D_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F963 "Sbg8F963_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F969 "Sbg8F969_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F975 "Sbg8F975_RZAxxxxx_12.2.2_KNOCK_BACKGROUND_EXECUTIVE(CRAFQ)"         # SAME AS RZASA Sub_xxxxx      #12.2.2  KNOCK BACKGROUND EXECUTIVE (CRAFQ) spkkc_exec_bg_5 KNOCK CONTROL, KNOCK BACKGROUND EXECUTIVE - CRAI8 12-115 {7}
SUB 8F98D "Sbg8F98D_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F999 "Sbg8F999_RZAxxxxx_35.11.1_BACKGROUND_EXECUTIVE(CRAEA)"              # SAME AS RZASA Sub_xxxxx      #35.11.1  BACKGROUND EXECUTIVE (CRAEA) psboo_exec_bg_3 ENGINE TEMPERATURE, ECT AND/OR CHT SENSOR FMEM - CRAI8 35-85 {7}

SUB 8F9AB "Sbg8F9AB_RZA8FC76"                                              # SAME AS RZASA Sub_8FC76      # {7}

SUB 8F9B1 "Sbg8F9B1_RZAxxxxx_2.1.10_CLOCK_SEC_CALCULATION(CRAH0)"              # SAME AS RZASA Sub_xxxxx      #2.1.10  CLOCK_SEC CALCULATION (CRAH0) util_clock_sec_1 UTIL, CLOCK_SEC CALCULATION - CRAI8 2-38 {7}
SUB 8F9B7 "Sbg8F9B7_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F9BD "Sbg8F9BD_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8F9C3 "Sbg8F9C3_RZAxxxxx_35.7.1_SCAL_EXEC_BG(BACKGROUND_EXECUTIVE(CRAF0))" # SAME AS RZASA Sub_xxxxx      #35.7.1  BACKGROUND EXECUTIVE (CRAF0) ACT, AIR CHARGE TEMPERATURE SENSOR INPUT AND SELFTEST - CRAI8 35-23 {7}
SUB 8F9D5 "Sbg8F9D5_RZAxxxxx_29.1.2_ACTUAL_TORQUE_CALCULATION(CRAEA)"          # SAME AS RZASA Sub_xxxxx      #29.1.2  ACTUAL TORQUE CALCULATION (CRAEA) TORQUE CONTROL CALCULATIONS, ACTUAL TORQUE CALCULATION - CRAI8 29-2 {7}
SUB 8FA05 "Sxx8FA05_RZAxxxxx_29.1.2.3_TQCTL_CONTROLLER"                        # SAME AS RZASA Sub_xxxxx      #29.1.2.3  Tqctl_controller TORQUE CONTROL CALCULATIONS, ACTUAL TORQUE CALCULATION - CRAI8 29-3 {7}
SUB 8FA29 "Sbg8FA29_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA2F "Sbg8FA2F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA35 "Sbg8FA35_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA3B "Sbg8FA3B_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA41 "Sbg8FA41_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA47 "Sbg8FA47_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA4D "Sbg8FA4D_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA53 "Sbg8FA53_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA59 "Sbg8FA59_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA5F "Sbg8FA5F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA65 "Sbg8FA65_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA6B "Sbg8FA6B_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA71 "Sbg8FA71_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA77 "Sbg8FA77_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA7D "Sbg8FA7D_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA83 "Sbg8FA83_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA89 "Sbg8FA89_9.9.20_OLFUL_LAMMUL_CORE(LAMMUL_RESET_LOGIC)"          # SAME AS RZASA Sub_xxxxx     #9.9.20  LAMMUL RESET LOGIC (CRAEA) FUEL STRATEGY,  LAMMUL RESET LOGIC - CRAI8 9-315 {7} 
SUB 8FA8F "Sbg8FA8F_9.9.23_OLFUL_OL_DECISION_CORE(BACKGROUND_CONTROLLER)"  # SAME AS RZASA Sub_xxxxx     #9.9.23  BACKGROUND CONTROLLER (CRAEA) FUEL STRATEGY,  BACKGROUND CONTROLLER - CRAI8 9-324 (FUEL_BG_CONTROL_OL_COMx) {7}
SUB 8FA95 "Sbg8FA95_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FA9B "Sbg8FA9B_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAA1 "Sbg8FAA1_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAA7 "Sbg8FAA7_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAAD "Sbg8FAAD_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAB3 "Sbg8FAB3_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAB9 "Sbg8FAB9_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FABF "Sbg8FABF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAC5 "Sbg8FAC5_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FACB "Sbg8FACB_12.1.7_SPKTM_VCT(VARIABLE_CAM_TIMING_SPARK_CONTROL)"   # SAME AS RZASA Sub_xxxxx      #12.1.7  VARIABLE CAM TIMING SPARK CONTROL (CRAF0) IGNITION TIMING, VARIABLE CAM TIMING SPARK CONTROL - CRAI8 12-22 {7}
SUB 8FAD1 "Sbg8FAD1_12.1.8_SPKTM_DASHPOT(SPARK_DASHPOT_MULTIPLIER)"        # SAME AS RZASA Sub_xxxxx      #12.1.8  SPARK DASHPOT MULTIPLIER (CRAEA) IGNITION TIMING, DASHPOT SPARK - CRAI8 12-25 {7}
SUB 8FAD7 "Sbg8FAD7_12.1.10_SPKTM_BASE(BASE_EMISSIONS_&_DRIVE_SPARK)"      # SAME AS RZASA Sub_xxxxx      #12.1.10  BASE EMISSIONS AND DRIVE SPARK (CRAEA) IGNITION TIMING, BASE EMISSIONS AND DRIVE SPARK - CRAI8 12-30 {7}
SUB 8FADD "Sbg8FADD_12.1.11_SPKTM_BORDERLINE(BORDERLINE_DETONATION_SPARK)" # SAME AS RZASA Sub_xxxxx      #12.1.11  BORDERLINE DETONATION SPARK (CRAF0)  IGNITION TIMING, BORDERLINE DETONATION SPARK - CRAI8 12-35 {7}
SUB 8FAE3 "Sbg8FAE3_12.1.17_SPKTM_LOWEST(SELECT_LOWEST_SPARK_VALUE)"       # SAME AS RZASA Sub_xxxxx      #12.1.17  SELECT LOWEST SPARK VALUE (CRAF0) IGNITION TIMING, SELECT LOWEST SPARK VALUE - CRAI8 12-63 {7}
SUB 8FAE9 "Sbg8FAE9_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAEF "Sbg8FAEF_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAF5 "Sbg8FAF5_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FAFB "Sbg8FAFB_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FB01 "Sbg8FB01_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FB07 "Sbg8FB07_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FB0D "Sbg8FB0D_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FB13 "Sbg8FB13_RZAxxxxx_12.1.19_SPKTM_FINAL_CALC(FINAL_SPARK_CALCULATION)"# SAME AS RZASA Sub_xxxxx      #12.1.19  FINAL SPARK CALCULATION (CRAEA) IGNITION TIMING, FINAL SPARK CALCULATION - CRAI8 12-82 {7}
SUB 8FB19 "Sbg8FB19_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #
SUB 8FB1F "Sbg8FB1F_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx      #

################################# BANK 9 SUBROUTINES #################################


Sub 92000 "Sub92000_Fail_Loop"                                             # {0}
SUB 92128 "Sxx92128_RZA082DA_33.2.1.1_EPC_DYNAMIC"                       # SAME AS RZASA Sub_082DA     #33.2.1.1  Epc_dynamic  ELECTRONIC PRESSURE CONTROL, DYNAMIC EPC CALCULATION - CRAI8 33-13 {7}
###  ABOVE COULD ALSO BE 33.2 OR 33.2.1
SUB 923C8 "Sxx923C8_RZA086B3"                                            # SAME AS RZASA Sub_086B3     # {7}
SUB 923D2 "Sxx923D2_RZA086BD_33.2.2.1_EPC_ENGMT_STALL"                   # SAME AS RZASA Sub_086BD     #33.2.2.1  Epc_engmt_stall ELECTRONIC PRESSURE CONTROL, ENGAGEMENT/STALL TV LOGIC - CRAI8 33-23 {7}

SUB 925CF "Sxx925CF_RZA087D1_33.2.3.1_EPC_GUIDE"                         # SAME AS RZASA Sub_087D1     #33.2.3.1  Epc_guide ELECTRONIC PRESSURE CONTROL, ELECTRONIC PRESSURE CONTROL GUIDE - CRAI8 33-34 {7}
SUB 92889 "Sxx92889_RZA08BE8_33.2.4.1_EPC_NORM"                          # SAME AS RZASA Sub_08BE8     #33.2.4.1  Epc_norm  ELECTRONIC PRESSURE CONTROL, NORMAL TV CALCULATION - CRAI8 33-45 {7}
SUB 92952 "SLU92952_Y16UYTb"   $F uytlu 3C 38                            # Byte Inputs *16, Unsigned Word Out # SAME AS RZASA "SLU92D93_Y16UYTb"{7}
SUB 92A10 "Sxx92A10_RZA08E1F_MATH_SUB_TO_DETERMINE_TV_ST_SFT"            # SAME AS RZASA Sub_08E1F     #SEEMS TO CALCULATE FOR TV_ST_SFT {7}
SUB 92A3D "Sxx92A3D_RZA08E4C_33.2.6.1_EPC_TQ_IALPHA"                     # SAME AS RZASA Sub_08E4C     #33.2.6.1  Epc_tq_ialpha ELECTRONIC PRESSURE CONTROL, TQ_IALPHA CALCULATION - CRAI8 33-54 {7}
SUB 92A70 "Sxx92A70_RZAxxxxx_33.2.5.1_TV_STARTUP_&_33.1_EPC_STARTUP_1"   # SAME AS RZASA Sub_xxxxx     #33.2.5.1  Tv_startup ELECTRONIC PRESSURE CONTROL, STARTUP TV LOGIC - CRAI8 33-51 33.1  START-UP TV LOGIC (CRAA0) 33-1 {7}
SUB 92A90 "Sxx92A90_RZA08E88_33.2.6.1_EPC_TQ_IALPHA"                     # SAME AS RZASA Sub_08E88     #33.2.6.1  Epc_tq_ialpha ELECTRONIC PRESSURE CONTROL, TQ_IALPHA CALCULATION - CRAI8 33-54 {7}
SUB 92AE2 "Sxx92AE2_RZA08ED9_33.2.6.1_DETERMINE_SHIFT_FOR_33.2.6.1"      # SAME AS RZASA Sub_08ED9     #LOOKS TO IDENTIFY SHIFT IN PROGRESS FOR SUB 33.2.6.1 {7}
SUB 92B4F "Sxx92B4F_RZA96C61_36.6.1.1_OSC_RAM_INIT"                      # SAME AS RZASA Sub_96C61     #36.6.1.1  Osc_ram_init OUTPUT STATE CONTROL, RAM INIT - CRAI8 36-259 {7}
SUB 92B68 "Sbg92B68_RZA96C86_36.6.3.1_OSC_EXEC_BG"                       # SAME AS RZASA Sub_96C86     #36.6.3.1  Osc_exec_bg OUTPUT STATE CONTROL, BACKGROUND SEQUENCE - CRAI8 36-265 {7}
SUB 92B95 "Sxx92B95_RZA96CB3_36.6.4.1_SUBSTITUTE" :UWN :UWN :Y :Y :Y     # SAME AS RZASA Sub_96CB3     #36.6.4.1  Substitute OUTPUT STATE CONTROL, SUBSTITUTE - CRAI8 36-276 {7}
SUB 92C90 "Sxx92C90_RZA96DAE_36.6.4.2_SET_OSC_FLAGS"                     # SAME AS RZASA Sub_96DAE     #36.6.4.2  Set_osc_flags OUTPUT STATE CONTROL, SUBSTITUTE - CRAI8 36-278 {7}
SUB 92D40 "Sxx92D40_RZA96E4D_36.6.4.3_GET_OSC_ALLOWED_FLAG"              # SAME AS RZASA Sub_96E4D     #36.6.4.3  Get_osc_allowed_flg OUTPUT STATE CONTROL, SUBSTITUTE - CRAI8 36-279 {7}
SUB 92FA3 "Sxx92FA3_RZA9708F_36.6.4.4_GET_VEHICLE_STATE_AUTO"            # SAME AS RZASA Sub_9708F     #36.6.4.4  Get_vehicle_state_auto OUTPUT STATE CONTROL, SUBSTITUTE - CRAI8 36-284 {7}
SUB 92FF0 "Sxx92FF0_RZA970D9_36.6.4.5_GET_VEHICLE_STATE_MANUAL"          # SAME AS RZASA Sub_970D9     #36.6.4.5  Get_vehicle_state_manual OUTPUT STATE CONTROL, SUBSTITUTE - CRAI8 36-285 {7}
SUB 93028 "Sxx93028_RZA9710C"                                            # SAME AS RZASA Sub_9710C     # {7}
SUB 9305E "Sxx9305E_RZA97142_LOAD_INTO_OSC_CONTROL_??"                   # SAME AS RZASA Sub_97142     # {7}
SUB 93091 "Sxx93091_RZA97175_REMOVE_FROM_OSC_CONTROL_??"                 # SAME AS RZASA Sub_97175     # {7}
SUB 930C4 "Sxx930C4_RZA971A8_18.1.3.1_IMRC_INPUT_MAIN"                   # SAME AS RZASA Sub_971A8     #18.1.3.1  Imrc_input_main INTAKE MANIFOLD RUNNER CONTROL, INPUT LOGIC - CRAI8 18-33 {7}
SUB 9319D "Sxx9319D_RZA97293_DETERMINE_IMRC_MEASURED_VALVE_POSITION"     # SAME AS RZASA Sub_97293     # Determine the measured valve position of bank 1, imrc_posn_1 & bank 2, imrc_posn_2 INTAKE MANIFOLD RUNNER CONTROL, INPUT LOGIC - CRAI8 18-33 {7} 
SUB 931C5 "Sxx931C5_RZA972B7_18.1.5.1_IMRC_OUTPUT_MAIN"                  # SAME AS RZASA Sub_972B7     #18.1.5.1  Imrc_output_main INTAKE MANIFOLD RUNNER CONTROL STRATEGY, OUTPUT LOGIC - *** CRAI8 18-40 {7}
SUB 931E7 "Sxx931E7_RZA972D7_18.1.1.1_IMRC_COMMAND_MAIN"                 # SAME AS RZASA Sub_972D7     #18.1.1.1  Imrc_command_main INTAKE MANIFOLD RUNNER CONTROL STRATEGY, - CRAI8 18-7 {7}
SUB 93210 "Sxx93210_RZAxxxxx_18.1.1.2_IMRC_DEMAND_STATE"                 # SAME AS RZASA Sub_xxxxx     #18.1.1.2  Imrc_demand_state INTAKE MANIFOLD RUNNER CONTROL STRATEGY, - CRAI8 18-11 {7}
SUB 933DA "Sxx933DA_RZA9754B_18.1.1.3_IMRC_NORMAL_OPERATION"             # SAME AS RZASA Sub_9754B     #18.1.1.3  Imrc_normal_operation INTAKE MANIFOLD RUNNER CONTROL STRATEGY, - CRAI8 18-11 {7}
SUB 93649 "Sxx93649_RZA97866_18.1.4.1_IMRC_DIAGNOSTICS_OSM_MAIN"         # SAME AS RZASA Sub_97866     #18.1.4.1  Imrc_diagnostics_osm_main INTAKE MANIFOLD RUNNER CONTROL STRATEGY, DRIVER DIAGNOSTICS - CRAI8 18-37 {7}
SUB 9369E "Sxx9369E_RZA978B3_18.1.2.1_IMRC_DIAGNOSTICS_MAIN"             # SAME AS RZASA Sub_978B3     #18.1.2.1  Imrc_diagnostics_main INTAKE MANIFOLD RUNNER CONTROL, DIAGNOSTICS - CRAI8 18-19 {7}
SUB 93851 "Sxx93851_RZA97A79_18.1.2.2_&_18.1.2.3_IMRC_DIAGNOSTICS_BANK1_&_BANK2"# SAME AS RZASA Sub_97A79     #18.1.2.3  Imrc_diagnostics_bank2 18.1.2.3  Imrc_diagnostics_bank2 INTAKE MANIFOLD RUNNER CONTROL, DIAGNOSTICS - CRAI8 18-23 18-25 {7}
SUB 93951 "Sxx93951_RZA97B9A_18.1.2.4_IMRC_OBDII_CODE_ELECT"             # SAME AS RZASA Sub_97B9A     #18.1.2.4  Imrc_obdii_code_elect INTAKE MANIFOLD RUNNER CONTROL, DIAGNOSTICS - CRAI8 18-28 {7}
SUB 93981 "Sxx93981_RZA97BC9_18.1.2.5_IMRC_OBDII_CODE_VAC"               # SAME AS RZASA Sub_97BC9     #18.1.2.5  Imrc_obdii_code_vac INTAKE MANIFOLD RUNNER CONTROL, DIAGNOSTICS - CRAI8 18-28 {7}
SUB 939FC "Sxx939FC_RZA97C42_18.1.9.1_IMRC_NO_HARDWARE"                  # SAME AS RZASA Sub_97C42     #18.1.9.1  Imrc_no_hardware INTAKE MANIFOLD RUNNER CONTROL STRATEGY, NO IMRC HARDWARE - CRAI8 18-52 {7}
SUB 93A25 "Sbg93A25_RZAxxxxx_12.2.2.1_SPKKC_EXEC_BG"                     # SAME AS RZASA Sub_xxxxx     #12.2.2.1  Spkkc_exec_bg KNOCK CONTROL, KNOCK BACKGROUND EXECUTIVE - CRAI8 12-116 {7}
SUB 93A2E "Sfg93A2E_RZAxxxxx_12.2.3_KNOCK_FOREGROUND_EXECUTIVE_???"          # SAME AS RZASA Sub_xxxxx     #12.2.3  KNOCK FOREGROUND EXECUTIVE (CRAFQ) KNOCK CONTROL, KNOCK FOREGROUND EXECUTIVE - CRAI8 12-119 {7}
SUB 93A3C "Sbg93A3C_RZAxxxxx_12.2.11.1_SPKKC_BG_CALLS_MAIN_2"            # SAME AS RZASA Sub_xxxxx     #12.2.11.1  Spkkc_bg_calls_main_2 KNOCK CONTROL, MAIN EXECUTIVE BACKGROUND MODULE - CRAI8 12-167 {7}
SUB 93A46 "Sbg93A46_RZAxxxxx_12.2.4.1_SPKKC_BG_EXEC_MAIN_3"              # SAME AS RZASA Sub_xxxxx     #12.2.4.1  Spkkc_bg_exec_main_3 IGNITION TIMING STRATEGY, KNOCK CONTROL MAIN EXECUTIVE BACKGROUND - CRAI8 12-124 {7}
SUB 93A53 "Sxx93A53_RZAxxxxx_12.2.15.1_SPKKC_NORM_FN_MAIN"               # SAME AS RZASA Sub_xxxxx     #12.2.15.1  Spkkc_norm_fn_main IGNITION TIMING, KNOCK CONTROL NORMALIZING FUNCTIONS - CRAI8 12-195 {7}
SUB 93AB1 "Sbg93AB1_RZAxxxxx_12.2.12.1_SPKKC_KNOCK_BG_MAIN_2"            # SAME AS RZASA Sub_xxxxx     #12.2.12.1  Spkkc_knock_bg_main_2 KNOCK CONTROL, KNOCK CONTROL STRATEGY - BACKGROUND - CRAI8 12-173 {7}
SYM 93AB2 "12.2.12.2_SPKKC_ENABLE"                                       #                             #12.2.12.2  Spkkc_enable KNOCK CONTROL, KNOCK CONTROL STRATEGY - BACKGROUND - CRAI8 12-173 {7}
SUB 93B05 "Sbg93B05_RZAxxxxx_12.2.12.3_SPKKC_ADVANCE"                    # SAME AS RZASA Sub_xxxxx     #12.2.12.3  Spkkc_advance KNOCK CONTROL, KNOCK CONTROL STRATEGY - BACKGROUND - CRAI8 12-173 {7}
SUB 93B5C "Sbg93B5C_RZAxxxxx_12.2.12.4_SPKCC_WINDOW_CALCS"               # SAME AS RZASA Sub_xxxxx     #12.2.12.4  Spkkc_window_calcs KNOCK CONTROL, KNOCK CONTROL STRATEGY - BACKGROUND - CRAI8 12-174 {7}

SUB 93C77 "Sbg93C77_RZAxxxxx_12.2.6.1_SPKKC_KNOCK_BG_MAIN_3"             # SAME AS RZASA Sub_xxxxx     #12.2.6.1  Spkkc_knock_bg_main_3 IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-136 {7}
SUB 93C93 "Sxx93C93_RZAxxxxx_12.2.6.2_SPKKC_INIT_AICE_KNK_CONTROL"       # SAME AS RZASA Sub_xxxxx     #12.2.6.2  Spkkc_init_aice_knk_control IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-137 {7}
SUB 93D5A "Sxx93D5A_RZAxxxxx_12.2.6.7_SPKKC_SET_NOISE_WINDOW_OFFSET"     # SAME AS RZASA Sub_xxxxx     #12.2.6.7  Spkkc_set_noise_window_offset IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-145 {7}
SUB 93D77 "Sxx93D77_RZAxxxxx_12.2.6.8_SPKKC_KNOCK_ADVANCE_LOGIC"         # SAME AS RZASA Sub_xxxxx     #12.2.6.8  Spkkc_knock_advance_logic IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-145 {7}
SUB 93DB6 "Sxx93DB6_RZAxxxxx_12.2.6.3_SPKKC_KNOCK_ENABLE_LOGIC"          # SAME AS RZASA Sub_xxxxx     #12.2.6.3  Spkkc_knock_enable_logic IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-141 {7}
SUB 93E0B "Sxx93E0B_RZAxxxxx-12.2.6.6_SPKKC_DETERMINE_KNOCK_WINDOW"      # SAME AS RZASA Sub_xxxxx     #12.2.6.6  Spkkc_determine_knock_window IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-144 {7}
SUB 93E4F "Sxx93E4F_RZAxxxxx_12.2.6.4_SPKKC_SEND_SENSOR_GAINS"           # SAME AS RZASA Sub_xxxxx     #12.2.6.4  Spkkc_send_sensor_gains IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-141 {7}
SUB 93EA2 "Sxx93EA2_RZAxxxxx_12.2.6.5_SPKCC_SEND_CYLINDER_THRESHOLDS"    # SAME AS RZASA Sub_xxxxx     #12.2.6.5  Spkkc_send_cylinder_thresholds IGNITION TIMING STRATEGY, KNOCK CONTROL STRATEGY - CRAI8 12-142 {7}
SUB 93FB6 "Sxx93FB6_RZAxxxxx_12.2.14.1_SPKKC_KNOCK_DIAG_MAIN_2"          # SAME AS RZASA Sub_xxxxx     #12.2.14.1  Spkkc_knock_diag_main_2 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-188 {7}

SUB 940B2 "Sxx940B2_RZAxxxxx_12.2.14.3_SPKKC_KNOCK_SENSOR_EVENT_FAIL_2"  # SAME AS RZASA Sub_xxxxx     #12.2.14.3  Spkkc_knock_sensor_event_fail_2 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-190 {7}
SUB 940BD "Sxx940BD_RZAxxxxx_12.2.14.4_SPKKC_KNOCK_SENSOR_EVENT_PASS_2"  # SAME AS RZASA Sub_xxxxx     #12.2.14.4  Spkkc_knock_sensor_event_pass_2 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-190 {7}
SUB 940C9 "Sxx940C9_RZAxxxxx_12.2.14.5_SPKKC_REPORT_TEST_RESULTS_2"      # SAME AS RZASA Sub_xxxxx     #12.2.14.5  Spkkc_report_test_results_2 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-191 {7}
SUB 94119 "Sxx94119_RZAxxxxx_12.2.14.6_SPKKC_CLEAR_KNOCK_MALF_CODES_2"   # SAME AS RZASA Sub_xxxxx     #12.2.14.6  Spkkc_clear_knock_malf_codes_2 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-192 {7}




SUB 94140 "Sxx94140_RZAxxxxx_12.2.14.2_SPKKC_KNK_SENSOR_DIAG_TEST_2"     # SAME AS RZASA Sub_xxxxx     #12.2.14.2  Spkkc_knk_sensor_diag_test_2 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-189 {7}

SUB 94161 "Sxx94161_RZAxxxxx_12.2.8.1_SPKKC_KNOCK_DIAG_MAIN_3"           # SAME AS RZASA Sub_xxxxx     #12.2.8.1  Spkkc_knock_diag_main_3 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-160 {7}
SUB 9420B "Sxx9420B_RZAxxxxx_12.2.8.2_SPKKC_KNK_SENSOR_DIG_TEST_3"       # SAME AS RZASA Sub_xxxxx     #12.2.8.2  Spkkc_knk_sensor_diag_test_3 IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-161 {7}
SUB 9422C "Sxx9422C_RZAxxxxx_12.2.8.3_SPKKC_KNOCK_SENSOR_EVENT_FAIL"     # SAME AS RZASA Sub_xxxxx     #12.2.8.3  Spkkc_knock_sensor_event_fail IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-161 {7}
SUB 94237 "Sxx94237_RZAxxxxx_12.2.8.4_SPKKC_KNOCK_SENSOR_EVENT_PASS"     # SAME AS RZASA Sub_xxxxx     #12.2.8.4  Spkkc_knock_sensor_event_pass IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-162 {7}
SUB 9424C "Sxx9424C_RZAxxxxx_12.2.8.5_SPKKC_KNOCK_REPORT_TEST_RESULTS"   # SAME AS RZASA Sub_xxxxx     #12.2.8.5  Spkkc_knock_report_test_results IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-162 {7}
SUB 94293 "Sxx94293_RZAxxxxx_12.2.8.6_SPKCC_CLEAR_KNOCK_MALF_CODES"      # SAME AS RZASA Sub_xxxxx     #12.2.8.6  Spkkc_clear_knock_malf_codes IGNITION TIMING STRATEGY, KNOCK SENSOR DIAGNOSTICS STRATEGY - CRAI8 12-163 {7}


SUB 942BA "Sxx942BA_RZAxxxxx_12.2.9.1_SPKKC_PID_DEF_MAIN"                # SAME AS RZASA Sub_xxxxx     #12.2.9.1  Spkkc_pid_def_main IGNITION TIMING, KNOCK CONTROL PID DEFINITIONS - CRAI8 12-165 {7}
SUB 942D8 "Sbg942D8_RZAxxxxx_28.1.2.1_VBAT_EXEC_BG"                      # SAME AS RZASA Sub_xxxxx     #28.1.2.1  Vbat_exec_bg BATTERY VOLTAGE, BACKGROUND EXECUTIVE - CRAI8 28-4 {7}
SUB 9430B "Sxx9430B_RZA1B0D0_35.11.2.1_PSBOO_PSPS"                       # SAME AS RZASA Sub_1B0D0     #35.11.2.1  Psboo_psps POWER STEERING/BRAKE ON OFF, POWER STEERING PRESSURE SWITCH - CRAI8 35-88 {7}
SUB 94396 "Sbg94396_RZA8FA61_35.11.1.1_PSBOO_EXEC_BG"                    # SAME AS RZASA Sub_8FA61     #35.11.1.1  Psboo_exec_bg POWER STEERING/BRAKE ON OFF, BACKGROUND EXECUTIVE - CRAI8 35-84 {7}
SUB 943D9 "Sxx943D9_RZA9FD91_35.11.3.1_PSBOO_BOO_OBDII"                  # SAME AS RZASA Sub_9FD91     #35.11.3.1  Psboo_boo_obdii POWER STEERING BRAKE ON OFF, BRAKE SWITCH INPUT AND SELFTEST - CRAI8 35-93 {7}
SUB 9463C "Sxx9463C_RZA9FE9C_35.11.4.1_PSBOO_START_STOP_OBDII"           # SAME AS RZASA Sub_9FE9C     #35.11.4.1  Psboo_start_stop_obdii POWER STEERING/BRAKE ON OFF, START STOP COUNTER FOR PSPS - CRAI8 35-98 {7}


##### Function Lookup Subroutines: R36 Fn_Addr Reg, R38 Input Reg, R3C output Reg {7}2.1.4  FUNCTION LOOKUP INTERPOLATION UTIL, FUNCTION LOOKUP INTERPOLATION - CRAI8 2-20
SUB 94675 "SLU94675_92A2E_SUYFn"   $ F suyflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92A2E_SUYFn" {7}
SUB 946B3 "SLU946B3_92A6C_SSYFn"   $ F ssyflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92A6C_SSYFn" {7}
SUB 946F1 "SLU946F1_92AAA_USYFn"   $ F usyflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92AAA_USYFn" {7}
SUB 9472F "SLU9472F_92AE8_UUYFn"   $ F uuyflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92AE8_UUYFn" {7}
#
SUB 9476D "SLU9476D_92B26_SUWFn"   $ F suwflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92B26_SUWFn" {7}
SUB 947A9 "SLU947A9_92B62_SSWFn"   $ F sswflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92B62_SSWFn" {7}
SUB 947E5 "SLU947E5_92B9E_USWFn"   $ F uswflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92B9E_USWFn" {7}
SUB 94821 "SLU94821_92BDA_UUWFn"   $ F uuwflu 36      # Undiscovered by SAD4.07.16  # SAME AS RZASA "SLU92BDA_UUWFn" {7}
#
SUB 9485D "SLU9485D_92C16_**YFn"   $ F uuyflu 36      # Un/Signed In, Un/Signed Out # SAME AS RZASA "SLU92C16_**YFn" {7}
#
SUB 948A9 "SLU948A9_92C62_**WFn"   $ F uuwflu 36      # Un/Signed In, Un/Signed Out # SAME AS RAZSA "SLU92C62_**WFn" {7}

##### Averaging Subroutines: 2.1.3  ROLLING AVERAGE ROUTINE #UTIL,  ROLLING AVERAGE ROUTINE  - CRAI8 2-15
SUB 948F3 "Sxx948F3_RZA92CAC_ROLAV"                                                # SAME AS RZASA Sub_92CAC     # {7}
SUB 948F7 "Sxx948F7_RZA92CB0_ROLAV_FK"                                             # SAME AS RZASA Sub_92CB0     # {7}
SUB 948FD "Sxx948FD_RZA92CB6_ROLAV_TC_?"                                                # SAME AS RZASA Sub_92CB6     # {7}
SUB 94901 "Sxx94901_RZA92CBA_ROLAV_3?"                                                # SAME AS RZASA Sub_92CBA     # {7}
SUB 9492C "Sxx9492C_RZA92CE5_ROLAV_4?"                                                # SAME AS RZASA Sub_92CE5     # {7}


###### Byte Table Lookup Subroutines: R3C Tb_Addr Reg, R34 Column Input Reg, R36 Row Input Reg {0}
######    R38 Column Quantity Input Reg, R3C Unrounded Output Reg, R3E Rounded Output Reg      {0}
SUB 9494D "SLU9494D_92D8E_Y16SYTb"   $F sytlu 3C 38              # Byte Inputs *16, Signed Word Out   # SAME AS RZASA Sub_92D8E     # {7}
SUB 94952 "SLU94952_92D93_Y16UYTb"   $F uytlu 3C 38              # Byte Inputs *16, Unsigned Word Out # SAME AS RZASA "SLU92D93_Y16UYTb" {7}
SUB 9495F "SLU9495F_92DA0_WSYTb"     $F sytlu 3C 38              # Word Inputs, Signed Word Out       # SAME AS RZASA "SLU92DA0_WSYTb"  {7}
SUB 94964 "SLU94964_92DA5_WUYTb"     $F uytlu 3C 38              # Word Inputs, Unsigned Word Out     # SAME AS RZASA "SLU92DA5_WUYTb"  {7}
#
SUB 949B2 "SLU949B2_92DF3_yTb.Interpolate"          # Interpolate 4 byte cells to find Control Value Pass 1 & 2  SAME AS RZASA "SLU92DF3_yTb.Interpolate" {7}
SUB 949B6 "SLU949B6_92DF7_yTb.Interpolate"          # Interpolate 4 byte cells to find Control Value Pass 3      SAME AS RZASA "SLU92DF7_yTb.Interpolate" {7}

SUB 949F2 "Sub949F2_92EBD_Tmr_Update_2.1.9.1_UTIL_TIMERS"                # SAME AS RZASA "Sbg92EBD_Tmr_Upd" {0} 2.1.9.1  Util_timers UTIL, TIMERS - CRAI8 2-34 {7}

SUB 94A8A "Sxx94A8A_RZAxxxxx_2.1.10.1_UTIL_CLOCK_SEC"                    # SAME AS RZASA Sub_xxxxx   #2.1.10.1  Util_clock_sec UTIL, CLOCK_SEC CALCULATION - CRAI8 2-39 {7}
SUB 94AA6 "Sxx94AA6_RZAxxxxx_20.1.1.2_SAIR_PID_DEFINITIONS"              # SAME AS RZASA Sub_xxxxx   #20.1.1.2  Sair_pid_definitions SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT CONTROL - CRAI8 20-9 {7}
SUB 94AB4 "Sxx94AB4_RZAxxxxx_20.1.1.4_SAIR_EAM_INIT"                     # SAME AS RZASA Sub_xxxxx   #20.1.1.4  Sair_eam_init SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT CONTROL - CRAI8 20-10 {7}
SUB 94BCC "Sxx94BCC_RZAxxxxx_20.1.1.1_SAIR_EAM_CONTROL"                  # SAME AS RZASA Sub_xxxxx   #20.1.1.1  Sair_eam_control SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT CONTROL - CRAI8 20-7 {7}
SUB 94CB6 "Sxx94CB6_RZAxxxxx_20.1.1.5_SAIR_NO_HARDWARE"                  # SAME AS RZASA Sub_xxxxx   #20.1.1.5  Sair_no_hardware SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT CONTROL - CRAI8 20-11 {7}
SUB 94CE6 "Sxx94CE6_RZAxxxxx_20.1.4.1_SAIR_EAM_NORMAL"                   # SAME AS RZASA Sub_xxxxx   #20.1.4.1  Sair_eam_normal SECONDARY AIR STRATEGY, NORMAL ELECTRIC AIR MANAGEMENT - CRAI8 20-30 {7}
SUB 94F8A "Sxx94F8A_RZAxxxxx_20.1.5.2_SAIR_PRIMARY_TEST"                 # SAME AS RZASA Sub_xxxxx   #20.1.5.2  Sair_primary_test SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT OBDII - CRAI8 20-37 {7}
SUB 9500E "Sxx9500E_RZAxxxxx_20.1.5.4_SAIR_COMMANDED_OFF_TEST"           # SAME AS RZASA Sub_xxxxx   #20.1.5.4  Sair_commanded_off_test SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT OBDII - CRAI8 20-39 {7}
SUB 95082 "Sxx95082_RZAxxxxx_20.1.6.1_SAIR_EAM_ON_DEMAND"                # SAME AS RZASA Sub_xxxxx   #20.1.6.1  Sair_eam_on_demand SECONDARY AIR STRATEGY, ON DEMAND ELECTRIC AIR MANAGEMENT - CRAI8 20-45{7}
SUB 9508D "Sxx9508D_RZAxxxxx_20.1.6.2_SAIR_KOER"                         # SAME AS RZAS Sub_xxxxx    #20.1.6.2  Sair_koer SECONDARY AIR STRATEGY, ON DEMAND ELECTRIC AIR MANAGEMENT - CRAI8 20-46 {7}
SUB 9521B "Sxx9521B_RZAxxxxx_20.1.6.3_SAIR_KOER_CIRCUIT_TEST"            # SAME AS RZAS Sub_xxxxx    #20.1.6.3  Sair_koer_circuit_test SECONDARY AIR STRATEGY, ON DEMAND ELECTRIC AIR MANAGEMENT - CRAI8 20-49 {7}
SUB 95337 "Sxx95337_RZAxxxxx_20.1.3.1_SAIR_EAM_FUEL_INIT"                # SAME AS RZAS Sub_xxxxx    #20.1.3.1  Sair_eam_fuel_init SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT MONITOR FUEL - CRAI8 20-22 {7}
SUB 95346 "Sxx95346_RZAxxxxx_20.1.3.4_SAIR_RICH_CHECK"                   # SAME AS RZAS Sub_xxxxx    #20.1.3.4  Sair_rich_check SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT MONITOR FUEL - CRAI8 20-25 {7}
SUB 953F2 "Sxx953F2_RZAxxxxx_20.1.3.3_SAIR_LEAN_CHECK"                   # SAME AS RZAS Sub_xxxxx    #20.1.3.3  Sair_lean_check SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT MONITOR FUEL - CRAI8 20-24 {7}
SUB 95486 "Sxx95486_RZAxxxxx_20.1.3.2_SAIR_RICH_CONTINUOUS"              # SAME AS RZAS Sub_xxxxx    #20.1.3.2  Sair_rich_continuous SECONDARY AIR STRATEGY, ELECTRIC AIR MANAGEMENT MONITOR FUEL - CRAI8 20-22 {7}
SUB 95576 "Sxx95576_RZAxxxxx_20.1.2.1_SAIR_EAM_FLOW_TEST"                # SAME AS RZAS Sub_xxxxx    #20.1.2.1  Sair_eam_flow_test SECONDARY AIR STRATEGY, EAM MONITOR FLOW TEST - CRAI8 20-15 {7}

SUB 95628 "Sxx95628_RZA984FA"                                            # SAME AS RZASA Sub_984FA     # {7}
SUB 95718 "Sxx95718_RZAxxxxx_35.6.1.5_ACT_FMEM_FUNCTION"                 # SAME AS RZAS Sub_xxxxx      #35.6.1.5  Act_fmem_function ACT, AIR CHARGE TEMPERATURE SENSOR INPUT AND SELFTEST - CRAI8 35-22 {7}
SUB 95749 "Sxx95749_RZAxxxxx_35.6.1.6_ACSTRT_CHECK"                      # SAME AS RZAS Sub_xxxxx      #35.6.1.6  Acstrt_check ACT, AIR CHARGE TEMPERATURE SENSOR INPUT AND SELFTEST - CRAI8 35-22 {7}
SUB 95781 "Sbg95781_RZAxxxxx_35.7.1.1_SCAL_EXEC_BG"                      # SAME AS RZAS Sub_xxxxx      #35.7.1.1  Scal_exec_bg ACT, AIR CHARGE TEMPERATURE SENSOR INPUT AND SELFTEST - CRAI8 35-23 {7}

SUB 95788 "Sxx95788_RZA987EF_??_35.7.3.1_SCAL_FLASH_ADJUST_ENABLE"       # SAME AS RZASA Sub_987EF     #35.7.3.1  Scal_flash_adjust_enable SWITCHABLE CALIBRATION, END OF LINE MULTI CALIBRATION - CRAI8 35-26 {7}
SUB 957E8 "Sxx957E8_RZA98898"                                            # SAME AS RZASA Sub_98898     # {7}

SUB 95847 "Sxx95847_RZA987B9_35.7.4.1_SCAL_OCTANE_ADJUST"                # SAME AS RZASA Sub_987B9     #35.7.4.1  Scal_octane_adjust ENGINE INPUT PROCESSING, END OF LINE MULTI-CALIBRATION - CRAI8 35-29 {7}

SUB 9587B "Sxx9587B_RZA931D2_24.1_SPEED_WARNING_CHIME"                   # SAME AS RZASA Sub_931D2     #24.1  SPEED WARNING CHIME (CRAF0) EXPORT FEATURES, SPEED WARNING CHIME - CRAI8 24-1 {7}
SUB 958AD "Sxx958AD_RZA92D06_ROLAV_PGM_FUEL_LVL_??"                      # SAME AS RZASA Sub_92D06     #pgm_fuel_lvl = rolav ( pgm_fuel_lvl, fli_eng, filter_constant_calc( TC_FLI_EXT, bg_tmr ) ) CRAI8 17-96 {7}
SUB 958B7 "Sxx958B7_RZA92D10_ROLAV_LONG_COM1_??"                         # SAME AS RZASA Sub_92D10     # Software note: use rolav_long_com1.ast in the following FUEL PUMP, RETURNLESS FUEL BACKGROUND - CRAI8 9-156 {7}
SUB 958E8 "Sxx958E8_RZA92D41"                                            # SAME AS RZASA Sub_92D41     # {7}


###### Word Table Lookup Subroutines: R3C Tb_Addr Reg, R34 Column Input Reg, R36 Row Input Reg {0}
######    R38 Column Quantity Input Reg, R3E Output Reg
SUB 95935 "SLU95935_92E33_Y16SWTb"   $F swtlu 3C 38              # Byte Inputs *16, Signed Word Out # SAME AS RZASA "SLU92E33_Y16SWTb" {7}
SUB 9593A "SLU9593A_92E38_Y16UWTb"   $F uwtlu 3C 38              # Byte Inputs *16, Unsigned Word Out # SAME AS RZASA "SLU92E38_Y16UWTb"{7}
SUB 95947 "SLU95947_92E45_WSWTb"     $F swtlu 3C 38              # Word Inputs, Signed Word Out # SAME AS RZASA "SLU92E45_WSWTb"     {7}
SUB 9594C "SLU9594C_92E4A_WUWTb"     $F uwtlu 3C 38              # Word Inputs, Unsigned Word Out # SAME AS RZASA "SLU92E4A_WUWTb"   {7}
#
SUB 9599B "SLU9599B_92E8E_wTb.Interpolate"           # Interpolate 4 word cells to find Control Value # SAME AS RZASA "SLU92E8E_wTb.Interpolate" {7}


SUB 959CC "Sxx959CC_RZA932C4_29.1.4.1_TQCTL_RAM_INIT"                    # SAME AS RZASA Sub_932C4     #29.1.4.1  Tqctl_ram_init TORQUE CONTROL, TORQUE CONTROL RAM INITIALIZATION - CRAI8 29-15 {7}
SUB 95A01 "Sxx95A01_29.1.5_TQCTL_MBT(MBT_TORQUE_CALCULATION)"            # SAME AS RZASA Sub_932FD     #29.1.5  MBT TORQUE CALCULATION (CRAEA) TORQUE CONTROL CALCULATIONS, MBT TORQUE CALCULATION - CRAI8 29-17 {7} 
SUB 95A02 "Sxx95A02_RZA932FD_29.1.5.1_TQCTL_CALCULATIONS"                # SAME AS RZASA Sub_932FD     #TORQUE CONTROL, TORQUE CONTROL RAM INITIALIZATION - CRAI8 TORQUE CONTROL CALCULATIONS, MBT TORQUE CALCULATION - CRAI8 29-21 {7}
SUB 95B8D "Sxx95B8D_29.1.7_TQCTL_TIPOUT(TIPOUT_CALCULATIONS)"            # SAME AS RZASA Sub_989BE     #29.1.7  TIPOUT CALCULATIONS (CRAI0) TORQUE CONTROL, TIPOUT CALCULATIONS - CRAI8 29-30 {7}
SUB 95B8E "Sxx95B8E_RZA989BE_29.1.7.1_TQCTL_DECEL_CONTROL"               # SAME AS RZASA Sub_989BE     #29.1.7.1  Tqctl_decel_control TORQUE CONTROL, TIPOUT CALCULATIONS - CRAI8 29-33 {7}
SUB 95CB0 "Sxx95CB0_RZA98AD8_29.1.7.2_TQCTL_DFSO_RAMP"                   # SAME AS RZASA Sub_98AD8     #29.1.7.2  Tqctl_dfso_ramp TORQUE CONTROL, TIPOUT CALCULATIONS - CRAI8 29-34 {7}
SUB 95CD1 "Sxx95CD1_RZA98AF9_29.1.7.3_TQCTL_TIPOUT_RAMP"                 # SAME AS RZASA Sub_98AF9     #29.1.7.3  Tqctl_tipout_ramp TORQUE CONTROL, TIPOUT CALCULATIONS - CRAI8 29-35 {7}
SUB 95C72 "Sxx95C72_RZA98A9B_MULTIPLY_BY_BG_TMR"                         # SAME AS RZASA Sub_98A9B     # {7}
SUB 95C89 "Sxx95C89_RZA98AB2_DETERMINE_VALUE_OF_CLIP_FOR_TR_LIM_DECEL"   # SAME AS RZASA Sub_98AB2     # {7}
SUB 95D23 "Sxx95D23_RZA993AA_29.1.8.1_TQCTL_RPM_LIM"                     # SAME AS RZASA Sub_993AA     #29.1.8.1  Tqctl_rpm_lim TORQUE CONTROL CALCULATIONS, ENGINE SPEED LIMITING - CRAI8 29-38 {7}
SUB 95D89 "Sxx95D89_RZA994BB_29.1.9.1_TQCTL_VS_LIM"                      # SAME AS RZASA Sub_994BB     #29.1.9.1  Tqctl_vs_lim TORQUE CONTROL, VEHICLE SPEED LIMITER - CRAI8 29-41 {7}
SUB 95E25 "Sxx95E25_RZAxxxxx_29.1.6.1_TQCTL_TIPIN"                       # SAME AS RZASA Sub_xxxxx     #29.1.6.1  Tqctl_tipin TORQUE CONTROL, TIP IN TORQUE CONTROL - CRAI8 29-28 {7}
SUB 95FD6 "Sxx95FD6_RZAxxxxx_FIGURE_TR_LIM_TIP_??"                       # SAME AS RZASA Sub_xxxxx     # {7}
SUB 9601A "Sxx9601A_RZAxxxxx_FIGURE_TR_SPK_??"                           # SAME AS RZASA Sub_xxxxx     # {7}
SUB 9603D "Sxx9603D_RZAxxxxx_29.1.10.1_TQCTL_TOIL_LIM"                   # SAME AS RZASA Sub_xxxxx     #29.1.10.1  Tqctl_toil_lim TORQUE CONTROL CALCULATIONS, ENGINE OIL TEMP - CRAI8 29-47 {7}
SUB 960B4 "Sxx960B4_RZA99301_29.1.10.2_INFERRED_TOIL_TQ_LIM"             # SAME AS RZASA Sub_99301     #29.1.10.2  Inferred_toil_tq_lim TORQUE CONTROL CALCULATIONS, ENGINE OIL TEMP - CRAI8 29-48 {7}
SUB 9614A "Sxx9614A_RZA934AB_29.1.12.1_TQCTL_LOWEST"                     # SAME AS RZASA Sub_934AB     #29.1.12.1  Tqctl_lowest TORQUE CONTROL CALCULATIONS, LOWEST TORQUE CALCULATION - CRAI8 29-64 {7}
SUB 96217 "Sxx96217_RZA9357F_PART_OF_29.1.12.1_DETERMINE_TR_NO_STALL"    # SAME AS RZASA Sub_9357F     #SEEMS TO DETERMINE THE VALUE OF TR_NO_STALL FOR 29.1.12.1  Tqctl_lowest {7}
SUB 9624A "Sxx9624A_RZA935B2_29.1.13.1_TQCTL_CONTROL"                    # SAME AS RZASA Sub_935B2     #29.1.13.1  Tqctl_control TORQUE CONTROL, TORQUE CONTROL - CRAI8 29-76 {7}
SUB 96542 "Sxx96542_RZA93889_29.1.13.2_TQCTL_CATALYST_CHK"               # SAME AS RZASA Sub_93889     #29.1.13.2  Tqctl_catalyst_chk TORQUE CONTROL, TORQUE CONTROL - CRAI8 29-78 {7}
SUB 9658C "Sxx9658C_RZA938ED_29.1.13.3_TQCTL_SPK_CLIPS"                  # SAME AS RZASA Sub_938ED     #29.1.13.3  Tqctl_spk_clips TORQUE CONTROL, TORQUE CONTROL - CRAI8 29-79 {7}
SUB 96667 "Sxx96667_RZA939F0_29.1.13.4_TQCTL_INJON_CALC"                 # SAME AS RZASA Sub_939F0     #29.1.13.4  Tqctl_injon_calc TORQUE CONTROL, TORQUE CONTROL - CRAI8 29-80 {7}
SUB 96735 "Sxx96735_RZA93B35_29.1.15.2_TQCTL_ACTUAL"                     # SAME AS RZASA Sub_93B35     #29.1.15.2  Tqctl_actual TORQUE CONTROL CALCULATIONS,ACTUAL TORQUE CALCULATION - CRAI8 29-96 {7}
SUB 96824 "Sxx96824_RZA93C4F_PART_OF_29.1.15.2_CHK_FIRST_NUM_CYL_TQ_BITS"# SAME AS RZASA Sub_93C4F     #29.1.15.2  Tqctl_actual TORQUE CONTROL CALCULATIONS,ACTUAL TORQUE CALCULATION - CRAI8 29-96 {7}
SUB 96831 "Sbg96831_29.1.14_TQCTL_INJOFF(BACKGROUND_INJECTOR_CUTOUT)"    # SAME AS RZASA Sub_93C5C     #29.1.14  BACKGROUND INJECTOR CUTOUT (CRAEA) TORQUE CONTROL CALCULATIONS,  BACKGROUND INJECTOR CUTOUT - CRAI8 29-82 {7}
SUB 96832 "Sbg96832_RZA93C5C_29.1.14.2_TQCTL_BASE_PATTERN"               # SAME AS RZASA Sub_93C5C     #29.1.14.2  Tqctl_base_pattern TORQUE CONTROL CALCULATIONS,  BACKGROUND INJECTOR CUTOUT - CRAI8 29-88  {7}
SUB 968D2 "Sbg968D2_RZA93D2A_29.1.14.4_TQCTL_SET_BIT_PATTERN"            # SAME AS RZASA Sub_93D2A     #29.1.14.4  Tqctl_set_bit_pattern TORQUE CONTROL CALCULATIONS,  BACKGROUND INJECTOR CUTOUT - CRAI8 29-90 {7}
SUB 968F6 "Sbg968F6_RZA93D63_29.1.14.6_TQCTL_CUT_NEXT_CYLINDER"          # SAME AS RZASA Sub_93D63     #29.1.14.6  Tqctl_cut_next_cylinder TORQUE CONTROL CALCULATIONS,  BACKGROUND INJECTOR CUTOUT - CRAI8 29-92 {7}
SUB 96941 "Sbg96941_RZA93E26_29.1.14.5_TQCTL_INJ_ROUND_ROBIN"            # SAME AS RZASA Sub_93E26     #29.1.14.5  Tqctl_inj_round_robin TORQUE CONTROL CALCULATIONS,  BACKGROUND INJECTOR CUTOUT - CRAI8 29-91 {7}
SUB 9695A "Sbg9695A_RZA93E3F_29.1.14.3_TQCTL_DIS_FMEM_BITS"              # SAME AS RZASA Sub_93E3F     #29.1.14.3  Tqctl_dis_fmem_bits TORQUE CONTROL CALCULATIONS,  BACKGROUND INJECTOR CUTOUT - CRAI8 29-89 {7}
SUB 9698A "Sxx9698A_RZA99585_29.1.11.1_TQCTL_FAIL_SAFE"                  # SAME AS RZASA Sub_99585     #29.1.11.1  Tqctl_fail_safe TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-57 {7}
SUB 9699E "Sxx9699E_RZAxxxxx_29.1.11.2_TQCTL_FSC_CORE"                   # SAME AS RZASA Sub_xxxxx     #29.1.11.2  Tqctl_fsc_core TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-57 {7}
SUB 96A4D "Sxx96A4D_RZAxxxxx_29.1.11.5_TQCTL_FLASH_CHTIL"                # SAME AS RZASA Sub_xxxxx     #29.1.11.5  Tqctl_flash_chtil TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-61 {7}
SUB 96A94 "Sxx96A94_RZAxxxxx_29.1.11.6_TQCTL_NORMAL_CHTIL"               # SAME AS RZASA Sub_xxxxx     #29.1.11.6  Tqctl_normal_chtil TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-61 {7}
SYM 96AB6 "CONTINUE_28.1.11.2_TQCTL_FSC_CORE"                            #                             #29.1.11.2  Tqctl_fsc_core TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-57 {7}
SUB 96B12 "Sxx96B12_RZA99740_29.1.11.3_FAIL_SAFE_MODE"                   # SAME AS RZASA Sub_99740     #29.1.11.3  Fail_safe_mode TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-59 {7}
SUB 96BE1 "Sxx96BE1_RZA99822_PART_OF_29.1.11.3_CONVERT_COOL_PI_INT"      # SAME AS RZASA Sub_99822     #29.1.11.3  Fail_safe_mode TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-60 {7}
SUB 96BFD "Sxx96BFD_RZA9983E_PART_OF_29.1.11.3_CONVERT_COOL_PI_INT"      # SAME AS RZASA Sub_9983E     #29.1.11.3  Fail_safe_mode TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-60 {7}
SUB 96C09 "Sxx96C09_RZA9984A_29.1.11.4_PI_CALCULATION"                   # SAME AS RZASA Sub_9984A     #29.1.11.4  Pi_calculation TORQUE CONTROL, COOLING FAIL SAFE LOGIC - CRAI8 29-60 {7}

SUB 96C8B "Sxx96C8B_RZAxxxxx_29.1.2.2_TQCTL_REPORTING"                   # SAME AS RZASA Sub_xxxxx     #29.1.2.2  Tqctl_reporting TORQUE CONTROL CALCULATIONS, ACTUAL TORQUE CALCULATION - CRAI8 29-3 {7}

SUB 96C94 "Sxx96C94_RZA95FA8_29.1.2.1_TQCTL_EXEC_BG"                     # SAME AS RZASA L_95FA8       #29.1.2.1  Tqctl_exec_bg TORQUE CONTROL CALCULATIONS, ACTUAL TORQUE CALCULATION - CRAI8 29-3 {7}

SUB 96CCA "Sxx96CCA_RZA99950_37.1.9.1_MISFIRE_RAM_INIT"                  # SAME AS RZASA Sub_99950     #37.1.9.1  Misfire_ram_init MISFIRE DETECTION, MISFIRE BACKGROUND EXECUTIVE MODULE - CRAI8 37-167 {7}

SUB 96D37 "Sbg96D37_RZAxxxxx_37.1.9.3_MISFIRE_BACKGROUD_MAIN_???"        # SAME AS RZASA Sub_xxxxx     #37.1.9.3  Misfire_background_main MISFIRE DETECTION, MISFIRE BACKGROUND EXECUTIVE MODULE - CRAI8 37-168 {7}
SUB 96E75 "Sxx96E75_RZAxxxxx_37.1.9.2_LDR_MIS_RAM_UPDATE_????"           # SAME AS RZASA Sub_xxxxx     #37.1.9.2  Ldr_mis_ram_update MISFIRE DETECTION, MISFIRE BACKGROUND EXECUTIVE MODULE - CRAI8 37-168 {7}

SUB 96F13 "Sxx96F13_RZA99AA5_37.1.10.1_MISFIRE_FOREGROUND_MAIN"          # SAME AS RZASA Sub_99AA5     #37.1.10.1  Misfire_foreground_main MISFIRE DETECTION, MISFIRE FOREGROUND EXECUTIVE MODULE - CRAI8 37-173 {7}
SUB 96F62 "Sxx96F62_RZAxxxxx_37.1.10.3_HDR_SYNC_SKIP_COUNTER"            # SAME AS RZASA Sub_xxxxx     #37.1.10.3  Hdr_sync_skip_counter MISFIRE DETECTION, MISFIRE FOREGROUND EXECUTIVE MODULE - CRAI8 37-176 {7}
SUB 97015 "Sxx97015_RZAxxxxx_37.1.3.1_LDR_MISFIRE_FOREGROUND_MAIN_??"       # SAME AS RZASA Sub_xxxxx     #37.1.3.1  Ldr_misfire_foreground_main MISFIRE DETECTION, LOW DATA RATE DACCEL MISFIRE DETECTION - CRAI8 37-91 {7}
SUB 970D3 "Sxx970D3_RZAxxxxx_37.1.12.1_MIS_GENERATOR_BOX"                # SAME AS RZASA Sub_xxxxx     #37.1.12.1  Mis_generator_box MISFIRE DETECTION, MISFIRE GENERATOR BOX - CRAI8 37-186 {7}

SUB 97151 "Sxx97151_RZA9A61A"                                            # SAME AS RZASA L_9A61A     # {7}
SUB 9717F "Sxx9717F_RZA9A197_37.1.11.1_MISFIRE_FREEZE_FRAME"             # SAME AS RZASA Sub_9A197     #37.1.11.1  Misfire_freeze_frame MISFIRE DETECTION, MISFIRE FREEZE FRAME LOGIC - CRAI8 37-181 {7}
SUB 972B3 "Sxx972B3_RZA9A67B_37.1.1.1_MISFIRE_MONITOR_MAIN"              # SAME AS RZASA Sub_9A67B     #37.1.1.1  Misfire_monitor_main MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-23 {7}
SUB 972CF "Sxx972CF_RZAxxxxx_37.1.1.3_MIS_SYNC_CHECK"                    # SAME AS RZASA Sub_xxxxx     #37.1.1.3  Mis_sync_check MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-25 {7}
SUB 9732A "Sxx9723A_RZAxxxxx_37.1.1.6_MIS_ENGINE_TORQUE_CHECK"           # SAME AS RZASA Sub_xxxxx     #37.1.1.6  Mis_engine_torque_check MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-26 {7} 
SUB 973F4 "Sxx973F4_RZAxxxxx_37.1.1.7_MIS_BYPASS_TABLE"                  # SAME AS RZASA Sub_xxxxx     #37.1.1.7  Mis_bypass_table MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-27 {7}
SUB 9743B "Sxx9743B_RZAxxxxx_37.1.1.8_MIS_CYLID_TABLE"                   # SAME AS RZASA Sub_xxxxx     #37.1.1.8  Mis_cylid_table MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-28 {7}
SUB 97472 "Sxx97472_RZAxxxxx_37.1.1.9_MIS_MALF_FLAGS_CHECK"              # SAME AS RZASA Sub_xxxxx     #37.1.1.9  Mis_malf_flags_check MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-29 {7}
SUB 97489 "Sxx97489_RZAxxxxx_37.1.1.10_MIS_STARTUP_DELAY"                # SAME AS RZASA Sub_xxxxx     #37.1.1.10  Mis_startup_delay MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-29 {7}
SUB 97529 "Sxx97529_RZAxxxxx_37.1.1.11_MIS_TEST_READY"                   # SAME AS RZASA Sub_xxxxx     #37.1.1.11  Mis_test_ready MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-31 {7}
SUB 9759D "Sxx9759D_RZAxxxxx_37.1.1.12_MIS_BG_BYPASS"                    # SAME AS RZASA Sub_xxxxx     #37.1.1.12  Mis_bg_bypass MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-32 {7}
SUB 975FD "Sxx975FD_RZAxxxxx_37.1.1.13_TORQUE_CALCULATION"               # SAME AS RZASA Sub_xxxxx     #37.1.1.13  Torque_calculation MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-32 {7}
SUB 97616 "Sxx97616_RZAxxxxx_37.1.1.14_MIS_PARAMETER_CALCULATIONS"       # SAME AS RZASA Sub_xxxxx     #37.1.1.14  Mis_parameter_calculations MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-33 {7}

SUB 97793 "Sxx97793_RZAxxxxx_37.1.1.15_MIS_MONITOR_FLAG"                 # SAME AS RZASA Sub_xxxxx     #37.1.1.15  Mis_monitor_flag MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-35 {7}
SUB 977AB "Sxx977AB_RZAxxxxx_37.1.1.16_MIS_FFG_CONTROL"                  # SAME AS RZASA Sub_xxxxx     #37.1.1.16  Mis_ffg_control MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-36 {7}
SUB 977BF "Sxx977BF_RZAxxxxx_37.1.1.17_MIS_THRESHOLD_CONTROL"            # SAME AS RZASA Sub_xxxxx     #37.1.1.17  Mis_threshold_control MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-36 {7}

SUB 97B82 "Sxx97B82_RZAxxxxx_37.1.1.27_MIS_CYLINDER_INTEGRITY_CHECK"     # SAME AS RZASA Sub_xxxxx     #37.1.1.27  Mis_cylinder_integrity_check MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-46 {7}
SUB 97BA5 "Sxx97BA5_RZAxxxxx_37.1.1.28_CLEAR_FMEM_MIL_RELATED_FLAGS"     # SAME AS RZASA Sub_xxxxx     #37.1.1.28  Clear_fmem_mil_related_flags MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-48 {7}
SUB 97BFB "Sxx97BFB_RZAxxxxx_37.1.1.30_CLEAR_MALF_FLAGS"                 # SAME AS RZASA Sub_xxxxx     #37.1.1.29  Clear_malf_flags MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-48 {7}


SUB 97C94 "Sxx97C94_RZA9ADFF"                                            # SAME AS RZASA Sub_9ADFF     # {7}
SUB 97CDB "Sxx97CDB_RZA9AE46_37.1.1.32_ZERO_MIS_REGISTERS"               # SAME AS RZASA Sub_9AE46     #37.1.1.32  Zero_mis_registers MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-50 {7}

SUB 97D18 "Sxx97D18_RZAxxxxx_37.1.1.31_MIS_FIL_ZERO_??"                  # SAME AS RZASA Sub_xxxxx     #37.1.1.31  Mis_fil_zero MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-49 {7}

SUB 97D27 "Sxx97D27_RZA9AE9E_??_37.1.1.2_MIS_CLEAR_EVENT_COUNTERS"       # SAME AS RZASA Sub_9AE9E     #37.1.1.2  Mis_clear_event_counters MISFIRE DETECTION, MISFIRE MONITOR - CRAI8 37-24 {7}

SUB 97D7F "Sxx97D7F_RZAxxxxx_37.1.2.2_LDR_PROFILE_COEFFS_MAIN"           # SAME AS RZASA Sub_xxxxx     #37.1.2.2  Ldr_profile_coeffs_main MISFIRE DETECTION, LOW DATA RATE PROFILE CALCULATION - CRAI8 37-66 {7}

SUB 97DA6 "Sxx97DA6_RZAxxxxx_37.1.2.18_LDR_CHECK_CHECKSUM"               # SAME AS RZASA Sub_xxxxx     #37.1.2.18  Ldr_check_checksum MISFIRE DETECTION, LOW DATA RATE PROFILE CALCULATION - CRAI8 37-81 {7}
SUB 97DE5 "Sxx97DE5_RZAxxxxx_37.1.2.3_LDR_CHECK_DFSO_STATUS"             # SAME AS RZASA Sub_xxxxx     #37.1.2.3  Ldr_check_dfso_status MISFIRE DETECTION, LOW DATA RATE PROFILE CALCULATION - CRAI8 37-67 {7}
SUB 97E38 "Sxx97E38_RZAxxxxx_37.1.2.4_LDR_CHECK_CONDITIONS"              # SAME AS RZASA Sub_xxxxx     #37.1.2.4  Ldr_check_conditions MISFIRE DETECTION, LOW DATA RATE PROFILE CALCULATION - CRAI8 37-68 {7}
SUB 97EC6 "Sbg97EC6_RZAxxxxx_37.1.2.5_RUN_PROFILE_CF_BG"                 # SAME AS RZASA Sub_xxxxx     #37.1.2.5  Run_profile_cf_bg MISFIRE DETECTION, LOW DATA RATE PROFILE CALCULATION - CRAI8 37-69 {7}

SUB 98287 "Sxx98287_RZAxxxxx_37.1.2.1_LDR_PROFILE_RAM_INIT"              # SAME AS RZASA Sub_xxxxx     #37.1.2.1  Ldr_profile_ram_init MISFIRE DETECTION, LOW DATA RATE PROFILE CALCULATION - CRAI8 37-64 {7}
SUB 983AE "Sxx983AE_RZA9AEE5_??_37.1.5.2_HDR_PROFILE_COEFFS_MAIN"        # SAME AS RZASA Sub_9AEE5     #37.1.5.2  Hdr_profile_coeffs_main MISFIRE DETECTION, HIGH DATA RATE PROFILE CALCULATION - CRAI8 37-120 {7}
SUB 98724 "Sxx98724_RZA9B186_37.1.5.1_HDR_PROFILE_RAM_INIT"              # SAME AS RZASA Sub_9B186     #37.1.5.1  Hdr_profile_ram_init MISFIRE DETECTION, HIGH DATA RATE PROFILE CALCULATION - CRAI8 37-119 {7}
SUB 987C7 "Sxx987C7_RZAxxxxx_37.1.9_MISFIRE_BACKGROUD_EXECUTIVE_MODULE_??"  # SAME AS RZASA Sub_xxxxx     #37.1.9  MISFIRE BACKGROUND EXECUTIVE MODULE (CRAI0) MISFIRE DETECTION, MISFIRE BACKGROUND EXECUTIVE MODULE - CRAI8 37-163 {7}
SUB 98D60 "Sxx98D60_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 98DA2 "Sxx98DA2_RZAxxxxx_37.1.6.1_HDR_MISFIRE_FOREGROUD_MAIN"        # SAME AS RZASA Sub_xxxxx     #37.1.6.1  Hdr_misfire_foreground_main MISFIRE DETECTION, HIGH DATA RATE MISFIRE DETECTION - CRAI8 37-136 {7}

SUB 98EEE "Sxx98EEE_RZAxxxxx_37.1.6.4_HDR_MAINTAIN_TORQUE_LIST"          # SAME AS RZASA Sub_xxxxx     #37.1.6.4  Hdr_maintain_torque_list MISFIRE DETECTION, HIGH DATA RATE MISFIRE DETECTION - CRAI8 37-140 {7}
SUB 98F19 "Sxx98F19_RZAxxxxx_37.1.6.5_HDR_MAINTAIN_POTN_FAIL_FLG_QUE"    # SAME AS RZASA Sub_xxxxx     #37.1.6.5  Hdr_maintain_potn_fail_flg_que MISFIRE DETECTION, HIGH DATA RATE MISFIRE DETECTION - CRAI8 37-140 {7}
SUB 990E5 "Sxx990E5_RZAxxxxx_37.1.6.9_HDR_MIS_EVENTS_TALLY"              # SAME AS RZASA Sub_xxxxx     #37.1.6.9  Hdr_mis_events_tally  MISFIRE DETECTION, HIGH DATA RATE MISFIRE DETECTION - CRAI8 37-143 {7}
SUB 99199 "Sxx99199_RZAxxxxx_37.1.4.1_LDR_PROFILE_FOREGROUND_MAIN_??"    # SAME AS RZASA Sub_xxxxx     #37.1.4.1  Ldr_profile_foreground_main MISFIRE MONITOR STRATEGY, LOW DATA RATE PROFILE DELTA TIMES - CRAI8 37-110 {7}
SUB 9924D "Sfg9924D_RZAxxxxx_37.1.7.1_HDR_PROFILE_FOREGROUND_MAIN"       # SAME AS RZASA Sub_xxxxx     #37.1.7.1  Hdr_profile_foreground_main MISFIRE DETECTION, HIGH DATA RATE PROFILE ACQUISITION - CRAI8 37-149 {7}
SUB 9928A "Sxx9928A_RZA99B35_37.1.7.2_HDR_PROFILE_ACQUISITION"           # SAME AS RZASA L_99B35       #37.1.7.2  Hdr_profile_acquisition MISFIRE DETECTION, HIGH DATA RATE PROFILE ACQUISITION - CRAI8 37-149 {7}
SUB 99290 "Sxx99290_RZAxxxxx_37.1.7.3_HDR_DELTA_TIME_RETRIEVAL_???"          # SAME AS RZASA Sub_xxxxx     #37.1.7.3  Hdr_delta_time_retrieval MISFIRE DETECTION, HIGH DATA RATE PROFILE ACQUISITION - CRAI8 37-150 {7}
SUB 99359 "Sxx99359_RZA9B3C9_37.1.8.1_HDR_HWDIAG_RAM_INIT"               # SAME AS RZASA Sub_9B3C9     #37.1.8.1  Hdr_hwdiag_ram_init MISFIRE DETECTION, HIGH DATA RATE MISFIRE DIAGNOSTICS - CRAI8 37-155 {7}
SUB 99393 "Sxx99393_RZAxxxxx_37.1.8.2_HDR_HWDIAG_MAIN"                   # SAME AS RZASA Sub_xxxxx     #37.1.8.2  Hdr_hwdiag_main MISFIRE DETECTION, HIGH DATA RATE MISFIRE DIAGNOSTICS - CRAI8 37-156 {7}
SUB 994BA "Sxx994BA_RZAxxxxx_AICE_IC_READ_WRITE_??"                      # SAME AS RZASA Sub_xxxxx     # {7}
SUB 99504 "Sxx99504_RZAxxxxx_37.1.8.5_HDR_AICE_RAM_INIT"                 # SAME AS RZASA Sub_xxxxx     #37.1.8.5  Hdr_aice_ram_init MISFIRE DETECTION, HIGH DATA RATE MISFIRE DIAGNOSTICS - CRAI8 37-159 {7}  
SUB 99606 "Sxx99606_RZAxxxxx_37.1.8.6_HDR_AICE_LPF_INIT"                 # SAME AS RZASA Sub_xxxxx     #37.1.8.6  Hdr_aice_lpf_init MISFIRE DETECTION, HIGH DATA RATE MISFIRE DIAGNOSTICS - CRAI8 37-161 {7}  

SUB 996D8 "Sxx996D8_RZA9B4EA_37.1.8.4_HDR_AICE_CHECKSUM"                 # SAME AS RZASA Sub_9B4EA     #37.1.8.4  Hdr_aice_checksum MISFIRE DETECTION, HIGH DATA RATE MISFIRE DIAGNOSTICS - CRAI8 37-158 {7}

SUB 99708 "Sxx99708_RZAxxxxx_37.1.13.1_HDR_LEARN_OFFSETS_??"             # SAME AS RZASA Sub_xxxxx     #37.1.13.1  Hdr_learn_offsets MISFIRE DETECTION, HIGH DATA RATE MISFIRE ADAPTIVE LEARNING - CRAI8 37-194 {7}

SUB 998AD "Sxx998AD_RZA9A2E8_??_37.1.14.1_HDR_ACCEL_OFFSETS"             # SAME AS RZASA Sub_9A2E8     #37.1.14.1  Hdr_accel_offsets MISFIRE DETECTION, HIGH DATA RATE KAM TABLES - CRAI8 37-199 {7}

SUB 99BD3 "Sxx99BD3_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx    

SUB 99BE3 "Sxx99BE3_RZA93204_PART_OF_9.9.11.1_WARM_EGO_LOGIC"            # SAME AS RZASA Sub_93204    #9.9.11.1  Warm_ego_logic OPEN LOOP FUEL STRATEGY, WARM EGO LOGIC - CRAI8 9-273 {7}

SUB 99C21 "Sxx99C21_RZAxxxxx_9.9.3.1_IDLTMR_SERVICE"                     # SAME AS RZASA Sub_xxxxx    #9.9.3.1  Idltmr_service FUEL STRATEGY, TIME IN DRIVE AT IDLE - CRAI8 9-248 {7}

SUB 99C51 "Sxx99C51_RZA9E23B_??_9.9.4.1_LUGTMR_SERVICE"                  # SAME AS RZASA Sub_9E23B    #9.9.4.1  Lugtmr_service FUEL STRATEGY, LOM LOAD TRANSITION TIMER - CRAI8 9-250 {7}
SUB 99C94 "Sxx99C94_RZAxxxxx_9.9.2.1_CTNTMR_SERVICE"                     # SAME AS RZASA Sub_xxxxx    #9.9.2.1  Ctntmr_service FUEL STRATEGY, CLOSED THROTTLE NEUTRAL TIMER - CRAI8 9-245 {7}
SUB 99CF0 "Sxx99CF0_RZA9C06A_9.9.5.1_9.9.5.1_INJECTOR_SLOPE_CALC"        # SAME AS RZASA Sub_9C06A    #9.9.5.1  Injector_slope_calc FUEL STRATEGY,  FUEL INJECTOR SLOPE CALCULATIONS - CRAI8 9-253 {7}
SUB 99DFC "Sxx99DFC_RZA9C1A1_9.9.21.1_STOIC_AFR_CALC"                    # SAME AS RZASA Sub_9C1A1    #9.9.21.1  Stoic_afr_calc FUEL STRATEGY,  STOIC AIR/FUEL RATIO CALCULATION - CRAI8 9-320 {7}
SUB 99E14 "Sxx99E14_RZA9C1F1_??_9.9.7.1_CRK_PIP_INJ_CALC"                # SAME AS RZASA Sub_9C1F1    #9.9.7.1  Crk_pip_inj_calc FUEL STRATEGY,  CRANK PIP INJECTOR SELECTOR - CRAI8 9-261 {7}
SUB 99E43 "Sxx99E43_RZAxxxxx__9.9.8.1_CRANK_FUEL_PW_CALC"                # SAME AS RZASA Sub_xxxxx    #9.9.8.1  Crank_fuel_pw_calc FUEL STRATEGY,  CRANK FUEL PULSEWIDTH, BACKGROUND FUEL - CRAI8 9-264 {7}
SUB 99EEA "Sxx99EEA_RZA9C3CF_9.9.11.1_WARM_EGO_LOGIC"                    # SAME AS RZASA Sub_9C3CF    #9.9.11.1  Warm_ego_logic OPEN LOOP FUEL STRATEGY, WARM EGO LOGIC - CRAI8 9-273 {7}
SUB 99F50 "Sxx99F50_RZAxxxxx_9.9.12.1_LUG_MODE_DETERMINATION"            # SAME AS RZASA Sub_xxxxx    #9.9.12.1  Lug_mode_determination FUEL STRATEGY,  LUGGING MODE DETERMINATION - CRAI8 9-276 {7}
SUB 99F93 "Sxx99F93_RZAxxxxx_9.9.13.1_DECEL_SHTOFF"                      # SAME AS RZASA Sub_xxxxx    #9.9.13.1  Decel_shutoff FUEL STRATEGY,  DECEL FUEL SHUT OFF LOGIC - CRAI8 9-284 {7}
SUB 99FA3 "Sxx99FA3_RZA9C455_??_9.9.13.2_ALTERNATE_DFSO_CALIBRATION"     # SAME AS RZASA Sub_9C455    #9.9.13.2  Alternate_dfso_calibration FUEL STRATEGY,  DECEL FUEL SHUT OFF LOGIC - CRAI8 9-284 {7}
SUB 99FD2 "Sxx99FD2_RZA9C51C_??_9.9.13.3_DFSO_FLIP_FLOPS"                # SAME AS RZASA Sub_9C51C    #9.9.13.3  Dfso_flip_flops FUEL STRATEGY,  DECEL FUEL SHUT OFF LOGIC - CRAI8 9-286 {7}
SUB 9A089 "Sxx9A089_RZA9C5FF_??_9.9.13.4_GET_DFS_CT_DECEL"               # SAME AS RZASA Sub_9C5FF    #9.9.13.4  Get_dfs_ct_decel FUEL STRATEGY,  DECEL FUEL SHUT OFF LOGIC - CRAI8 9-287 {7}
SUB 9A0C3 "Sxx9A0C3_RZAxxxxx_9.9.13.6_DFS_FINAL_CALC"                    # SAME AS RZASA Sub_9C660    #9.9.13.6  Dfs_final_calc FUEL STRATEGY,  DECEL FUEL SHUT OFF LOGIC - CRAI8 9-288 {7}
SUB 9A111 "Sxx9A111_RZA9C660_9.9.13.5_GET_DFS_MTX_SHIFT"                 # SAME AS RZASA Sub_9C660    #9.9.13.5  Get_dfs_mtx_shft FUEL STRATEGY,  DECEL FUEL SHUT OFF LOGIC - CRAI8 9-288 {7}
SUB 9A154 "Sxx9A154_RZA9C910_9.9.15.1_OL_FLAGS"                          # SAME AS RZASA Sub_9C910    #9.9.15.1  Ol_flags FUEL STRATEGY,  OPEN LOOP FLAG DETERMINATION - CRAI8 9-297  # {7}
SUB 9A435 "Sxx9A435_RZA9CB59_??9C359_Calculate_safety-factor-accounted_Maximum_Exhaust_Temperatures_9-301" # SAME AS RZASA Sub_9CB59     #FUEL STRATEGY,  OPEN LOOP FLAG DETERMINATION - CRAI8 9-301 {7}
SUB 9A451 "Sxx9A451_RZAxxxxx_9.9.22.1_OPEN_LOOP_DESIRED"                 # SAME AS RZASA Sub_xxxxx    #9.9.22.1  Open_loop_desired FUEL STRATEGY,  OPEN LOOP DESIRED FLAG LOGIC - CRAI8 9-322 {7}
SUB 9A488 "Sxx9A488_RZAxxxxx_9.9.19.1_ANTI_FOULING_INPUTS"               # SAME AS RZASA Sub_xxxxx    #9.9.19.1  Anti_fouling_inputs FUEL STRATEGY, OPEN LOOP PLUG - FOULING INPUTS - CRAI8 9-314 {7}
SUB 9A506 "Sxx9A506_RZA9D175_9.9.20.1_LAMMUL_CALCULATION"                # SAME AS RZASA Sub_9D175    #9.9.20.1  Lammul_calculation FUEL STRATEGY,  LAMMUL RESET LOGIC - CRAI8 9-316 {7}
SUB 9A56A "Sxx9A56A_RZA9D1E2_9.9.23.2_OL_DECISION"                       # SAME AS RZASA Sub_9D1E2    #9.9.23.2  Ol_decision FUEL STRATEGY,  BACKGROUND CONTROLLER - CRAI8 9-328 {7}

SUB 9A621 "Sbg9A621_RZAxxxxx_9.9.23.3_GET_HEGO_FDBACK"                   # SAME AS RZASA Sub_xxxxx    #9.9.23.3  Get_hego_fdback FUEL STRATEGY,  BACKGROUND CONTROLLER - CRAI8 9-330 {7}
SUB 9A659 "Sbg9A659_RZAxxxxx_9.9.23.4_GET_HEGO_FAULT"                    # SAME AS RZASA Sub_xxxxx    #9.9.23.4  Get_hego_fault FUEL STRATEGY,  BACKGROUND CONTROLLER - CRAI8 9-331 {7}
SUB 9A66B "Sbg9A66B_RZAxxxxx_9.9.23.5_GET_OL_DRIVE"                      # SAME AS RZASA Sub_xxxxx    #9.9.23.5  Get_ol_drive FUEL STRATEGY,  BACKGROUND CONTROLLER - CRAI8 9-331 {7}
SUB 9A67A "Sbg9A67A_RZAxxxxx_9.9.23.6_GET_SPK_LAMBSE"                    # SAME AS RZASA Sub_xxxxx    #9.9.23.6  Get_spk_lambse FUEL STRATEGY,  BACKGROUND CONTROLLER - CRAI8 9-332 {7}
SUB 9A69B "Sxx9A69B_RZAxxxxx_9.9.28.1_FA_RATIO_CALC"                     # SAME AS RZASA Sub_xxxxx    #9.9.28.1  Fa_ratio_calc FUEL STRATEGY,  FUEL AIR RATIO CALCULATION - CRAI8 9-369 {7}
SUB 9A6A3 "Sxx9A6A3_RZA9D300_9.9.28.2_FIXED_RATE_FAR_CALC"               # SAME AS RZASA Sub_9D300    #9.9.28.2  Fixed_rate_far_calc FUEL STRATEGY,  FUEL AIR RATIO CALCULATION - CRAI8 9-370 {7}
#SUB 9A6A3 "Sxx9A6A3_RZA9D300_9.8.1.14_LAMAVE_INIT_???"                       # SAME AS RZASA Sub_9D300    #9.8.1.14  Lamave_init CLOSED LOOP FUEL, CLOSED LOOP LAMBSE CONTROLLER - CRAI8 9-208 {7}
#SUB 9A6B3 "Sxx9A6B3_RZA9D3B0_9.9.28.2_FIXED_RATE_FAR_CALC"               # SAME AS RZASA Sub_9D3B0    #9.9.28.2  Fixed_rate_far_calc FUEL STRATEGY,  FUEL AIR RATIO CALCULATION - CRAI8 9-370 {7}
SUB 9A70F "Sxx9A70F_RZA9D452_9.9.29.1_FUEL_MASS_MULTIPLIER"              # SAME AS RZASA Sub_9D452    #9.9.29.1  Fuel_mass_multiplier FUEL STRATEGY, BACKGROUND F/A RATIO MULTIPLIER LOGIC - CRAI8 9-374 {7}
SUB 9A75E "Sxx9A75E_RZA9D4A1_9.9.29.2_CONTINUE_TEST"                     # SAME AS RZASA Sub_9D4A1    #9.9.29.2  Continue_test FUEL STRATEGY, BACKGROUND F/A RATIO MULTIPLIER LOGIC - CRAI8 9-375 {7}
SUB 9A7C0 "Sxx9A7C0_RZA9D504_9.9.29.3_INITIALIZE_RAMP"                   # SAME AS RZASA Sub_9D504    #9.9.29.3  Initialize_ramp FUEL STRATEGY, BACKGROUND F/A RATIO MULTIPLIER LOGIC - CRAI8 9-376 {7}
SUB 9A806 "Sxx9A806_RZA9D549_FAR_MUL_SCP_CLIP_SUBROUTINE"                # SAME AS RZASA Sub_9D549    #CLIP FAR_MUL_SCP VALUE FOR FAR_MUL_SCP_TMP Clip to ensure that slope calculated below is accurate.  {7}
SUB 9A81F "Sxx9A81F_RZA9D55A_9.9.29.4_OLFUL_PID_DEFINITIONS"             # SAME AS RZASA Sub_9D55A    #9.9.29.4  Olful_pid_definitions FUEL STRATEGY, BACKGROUND F/A RATIO MULTIPLIER LOGIC - CRAI8 9-376 {7}
SUB 9A82E "Sxx9A82E_RZA9D565_9.9.30.1_SPEED_LIMITER_FAULT_TEST"          # SAME AS RZASA Sub_9D565    #9.9.30.1  Speed_limiter_fault_test FUEL STRATEGY,  SPEED LIMITER SELFTEST CODE LOGIC - CRAI8 9-378 {7}
SUB 9A88D "Sxx9A88D_RZA9CF05_??_9.9.9.1_CRK_BASE_PW_CALC"                # SAME AS RZASA Sub_9CF05    #9.9.9.1  Crk_base_pw_calc FUEL STRATEGY,  NOMINAL CRANK FUEL CALCULATION - CRAI8 9-267 {7}
SUB 9A8A1 "Sxx9A8A1_RZA9D315_9.9.10.1_CRK_INJ_MUL_CALC"                  # SAME AS RZASA L_9D315      #9.9.10.1  Crk_inj_mul_calc FUEL STRATEGY,  CRANK FUEL INJECTION MULTIPLIER CALCULATION - CRAI8 9-269 {7}

SUB 9A8E0 "Sxx9A8E0_RZAxxxxx_9.9.27.1_OL_MULTIPLIER"                     # SAME AS RZASA Sub_xxxxx    #9.9.27.1  Ol_multiplier FUEL STRATEGY,  OPEN LOOP LAMBSE MULTIPLIER LOGIC -  CRAI8 9-367 {7}
SUB 9A9BF "Sxx9A9BF_RZAxxxxx_9.9.26.1_OPEN_LOOP_FUEL"                    # SAME AS RZASA Sub_xxxxx    #9.9.26.1  Open_loop_fuel FUEL STRATEGY, OPEN LOOP LAMBSE CALCULATION - CRAI8 9-353 {7}
SUB 9AA0D "Sxx9AA0D_RZAxxxxx_9.9.26.2_DETERMINE_LAMBSE_DRV"              # SAME AS RZASA Sub_xxxxx    #9.9.26.2  Determine_lambse_drv FUEL STRATEGY, OPEN LOOP LAMBSE CALCULATION - CRAI8 9-354 {7}   
SUB 9ABB0 "Sxx9ABB0_RZAxxxxx_9.9.26.4_DETERMINE_FINAL_LAMBSE"            # SAME AS RZASA Sub_xxxxx    #9.9.26.4  Determine_final_lambse FUEL STRATEGY, OPEN LOOP LAMBSE CALCULATION - CRAI8 9-359 {7}
SUB 9ACDD "Sxx9ACDD_RZAxxxxx_9.9.26.3_DETERMINE_LAMBSE_EXT"              # SAME AS RZASA Sub_xxxxx    #9.9.26.3  Determine_lambse_ext FUEL STRATEGY, OPEN LOOP LAMBSE CALCULATION - CRAI8 9-357 {7}     
SUB 9ADBF "Sxx9ADBF_RZAxxxxx_9.9.26.7_CATMID_CALC"                       # SAME AS RZASA Sub_xxxxx    #9.9.26.7  Catmid_calc FUEL STRATEGY, OPEN LOOP LAMBSE CALCULATION - CRAI8 9-362 {7}
SUB 9AE0C "Sxx9AE0C_RZAxxxxx_9.9.26.8_FLANGE_CALC"                       # SAME AS RZASA Sub_xxxxx    #9.9.26.8  Flange_calc FUEL STRATEGY, OPEN LOOP LAMBSE CALCULATION - CRAI8 9-363 {7}    
SUB 9AE34 "Sxx9AE34_RZAxxxxx_9.9.26.6_HEGOTIP_CALC"                      # SAME AS RZASA Sub_xxxxx    #9.9.26.6  Hegotip_calc  FUEL STRATEGY, OPEN LOOP LAMBSE CALCULATION - CRAI8 9-362 {7}   
SUB 9AE57 "Sxx9AE57_RZAxxxxx_9.9.25.1_LAMBSE_RESET_???"                  # SAME AS RZASA Sub_xxxxx    #9.9.25.1  Lambse_reset FUEL STRATEGY,  LAMBSE RESET LOGIC - CRAI8 9-339 {7}
SUB 9AE81 "Sxx9AE81_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx    # auto
SUB 9AEDE "Sxx9AEDE_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx    # auto
SUB 9AEE5 "Sxx9AEE5_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx    # auto
SUB 9AF11 "Sxx9AF11_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx    # auto
SUB 9AF18 "Sxx9AF18_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx    # auto

SUB 9AF6B "Sxx9AF6B_RZA9DCFA_9.9.6.1_INJ_SLOPE_COMPENSATION"             # SAME AS RZASA Sub_9DCFA     #9.9.6.1  Inj_slope_compensation FUEL STRATEGY, SLOPE COMPENSATION RETURNLESS FUEL SYSTEM - CRAI8 9-257 {7}
SUB 9B02A "Sxx9B02A_RZA9CB6F_9.9.16.1_WOT_OPEN_LOOP"                     # SAME AS RZASA Sub_9CB6F     #9.9.16.1  Wot_open_loop FUEL STRATEGY,  WOT OPEN LOOP FLAG DETERMINATION - CRAI8 9-307 {7}
SUB 9B058 "Sxx9B058_RZAxxxxx_9.9.14.1_TRANS_DFS_REQUESTS"                # SAME AS RZASA Sub_xxxxx     #9.9.14.1  Trans_dfs_requests FUEL STRATEGY, DECEL FUEL SHUTOFF DISABLE LOGIC - CRAI8 9-290 {7} 
SUB 9B066 "Sxx9B066_RZAxxxxx_9.9.24.2_DETERMINE_LAMBDA_CLIPS"            # SAME AS RZASA Sub_xxxxx     #9.9.24.2  Determine_lambda_clips FUEL STRATEGY, LAMBSE CLIP ASSIGNMENT LOGIC - CRAI8 9-334 {7}
SUB 9B0F0 "Sbg9B0F0_RZAxxxxx_9.9.18.1_MFA_BACKGROUND"                    # SAME AS RZASA Sub_xxxxx     #9.9.18.1  Mfa_background FUEL STRATEGY,  MFA STUB FILE LOGIC - CRAI8 9-311 {7}
SUB 9B114 "Sbg9B114_RZA9DED7_9.9.17.1_SADP_BACKGROUND"                   # SAME AS RZASA Sub_9DED7     #9.9.17.1  Sadp_background FUEL STRATEGY,  SADP STUB FILE LOGIC - CRAI8 9-309 {7}
SUB 9B138 "Sbg9B138_RZA8489B_12.3.1.1_SPKIO_EXEC_BG"                     # SAME AS RZASA Sub_8489B     #12.3.1.1  Spkio_exec_bg IGNITION TIMING STRATEGY, I/O BACKGROUND EXECUTIVE- CRAI8 12-197 {7}
SUB 9B142 "Sxx9B142_RZAxxxxx_12.1.3.1_SPKTM_NUMCYL_MAIN"                 # SAME AS RZASA Sub_xxxxx     #12.1.3.1  Spktm_numcyl_main IGNITION TIMING, SPARK NUMCYL LOGIC - CRAI8 12-12 {7}
SUB 9B155 "Sxx9B155_RZA9DFD5_12.1.2.1_SPKTM_NORM_FN""                    # SAME AS RZASA Sub_9DFD5     #12.1.2.1  Spktm_norm_fn IGNITION TIMING, NORMALIZING FUNCTIONS - CRAI8 12-10 {7}
SUB 9B296 "SXX9B296_RZAxxxxx_12.1.6.1_SPKTM_IMRC_ADDERS_MAIN"            # SAME AS RZASA Sub_xxxxx     #12.1.6.1  Spktm_imrc_adders_main IGNITION TIMING, SPARK INTAKE MANIFOLD RUNNER CONTROL LOGIC - CRAI8 12-20 {7}
SUB 9B30F "SXX9B30F_RZAxxxxx_12.1.5.1_SPKTM_FSC_MAIN"                    # SAME AS RZASA Sub_xxxxx     #12.1.5.1  Spktm_fsc_main IGNITION TIMING, BORDERLINE DETONATION SPARK - CRAI8 12-17 {7}
SUB 9B361 "SXX9B361_RZAxxxxx_12.1.4.1_SPKTM_FLEX_FUEL_MAIN"              # SAME AS RZASA Sub_xxxxx     #12.1.4.1  Spktm_flex_fuel_main IGNITION TIMING, SPARK FOR FLEXIBLE FUEL - CRAI8 12-14 {7}
SUB 9B436 "SXX9B436_RZAxxxxx_12.1.7.1_SPKTM_VCT_ADDERS_MAIN"             # SAME AS RZASA Sub_xxxxx     #12.1.7.1  Spktm_vct_adders_main IGNITION TIMING, VARIABLE CAM TIMING SPARK CONTROL - CRAI8 12-23 {7}
SUB 9B4BC "SXX9B4BC_RZAxxxxx_12.1.8.1_SPKTM_DASHPOT_MAIN"                # SAME AS RZASA Sub_xxxxx     #12.1.8.1  Spktm_dashpot_main IGNITION TIMING, DASHPOT SPARK - CRAI8 12-26 {7}
SUB 9B4DC "SXX9B4DC_RZAxxxxx_12.1.10.1_SPKTM_BASE_MAIN"                  # SAME AS RZASA Sub_xxxxx     #12.1.10.1  Spktm_base_main IGNITION TIMING, BASE EMISSIONS AND DRIVE SPARK - CRAI8 12-33 {7}
SUB 9B61F "SXX9B61F_RZAxxxxx_12.1.11.1_SPKTM_BORDERLINE_MAIN"            # SAME AS RZASA Sub_xxxxx     #12.1.11.1  Spktm_borderline_main IGNITION TIMING, BORDERLINE DETONATION SPARK - CRAI8 12-40 {7}
SUB 9B87E "SXX9B87E_12.1.17.1_SPKTM_LOWEST_MAIN"                         # SAME AS RZASA Sub_xxxxx      #12.1.17.1  Spktm_lowest_main IGNITION TIMING, SELECT LOWEST SPARK VALUE - CRAI8 12-65 {7}
SUB 9B87F "SXX9B87F_RZAxxxxx_12.1.17.2_SPKTM_LOWEST_ABS_LIMIT"           # SAME AS RZASA Sub_xxxxx     #12.1.17.2  Spktm_lowest_abs_limit IGNITION TIMING, SELECT LOWEST SPARK VALUE - CRAI8 12-65 {7}
SUB 9B8CD "SXX9B8CD_RZAxxxxx_12.1.17.3_SPKTM_LOWEST_FLEX_LIMIT"          # SAME AS RZASA Sub_xxxxx     #12.1.17.3  Spktm_lowest_flex_limit IGNITION TIMING, SELECT LOWEST SPARK VALUE - CRAI8 12-66 {7}
SUB 9B8FC "SXX9B8FC_RZAxxxxx_12.1.17.4_SPKTM_UPPER_CLIP"                 # SAME AS RZASA Sub_xxxxx     #12.1.17.4  Spktm_upper_clip IGNITION TIMING, SELECT LOWEST SPARK VALUE - CRAI8 12-67 {7}
SUB 9B956 "SXX9B956_RZAxxxxx_12.1.12.1_SPKTM_LOW_LOAD_MAIN"              # SAME AS RZASA Sub_xxxxx     #12.1.12.1  Spktm_low_load_main IGNITION TIMING, SPARK FOR LOW LOAD OPERATING CONDITIONS - CRAI8 12-47 {7}
SUB 9BA29 "Sxx9BA29_RZAxxxxx_12.1.12.3_SPKTM_LOLD_STAB"                  # SAME AS RZASA Sub_xxxxx     #12.1.12.3  Spktm_lold_stab IGNITION TIMING, SPARK FOR LOW LOAD OPERATING CONDITIONS - CRAI8 12-50 {7}
SUB 9BA81 "SXX9BA81_RZAxxxxx_12.1.9.1_SPKTM_MBT_MAIN"                    # SAME AS RZASA Sub_xxxxx     #12.1.9.1  Spktm_mbt_main IGNITION TIMING, MAXIMUM BRAKE TORQUE SPARK - CRAI8 12-29 {7}
SUB 9BAFF "SXX9BAFF_RZAxxxxx_12.1.16.1_SPKTM_OSCMOD_MAIN"                # SAME AS RZASA Sub_xxxxx     #12.1.16.1  Spktm_oscmod_main IGNITION TIMING, OSCILLATION MODULATION - CRAI8 12-62 {7}
SUB 9BB46 "SXX9BB46_RZAxxxxx_12.1.18.1_SPKTM_IDLE_FB_MAIN"               # SAME AS RZASA Sub_xxxxx     #12.1.18.1  Spktm_idle_fb_main IGNITION TIMING, TORQUE BASED FEEDBACK SPARK AT IDLE - CRAI8 12-76 {7}
#SUB 9BB46 "SXX9BB46_RZAxxxxx_12.1.18.2_SPKTM_IDLE_FB_CHK_CONDITIONS"     # SAME AS RZASA Sub_xxxxx     #12.1.18.2  Spktm_idle_fb_chk_conditions IGNITION TIMING, TORQUE BASED FEEDBACK SPARK AT IDLE - CRAI8 12-77 {7}
SUB 9BDF8 "SXX9BDF8_RZAxxxxx_12.1.13.1_SPKTM_TRQ_TRNC_MAIN"              # SAME AS RZASA Sub_xxxxx     #12.1.13.1  Spktm_trq_trnc_main IGNITION TIMING, TORQUE TRUNCATION VIA SPARK RETARD - CRAI8 12-52 {7}
SUB 9BE2F "Sxx9BE2F_RZA9EAC2_12.1.14.1_SPKTM_AIR_CHG_TIPIN_BG_MAIN"      # SAME AS RZASA Sub_9EAC2     #12.1.14.1  Spktm_air_chg_tipin_bg_main IGNITION TIMING, TRANSIENT SPARK FOR DETONATION PREVENTION - CRAI8 12-55 {7}
SUB 9BEAA "Sbg9BEAA_RZAxxxxx_12.1.15.1_SPKTM_TP_TIPIN_BG_MAIN"           # SAME AS RZASA Sub_xxxxx     #12.1.15.1  Spktm_tp_tipin_bg_main IGNITION TIMING, TIP IN RETARD LOGIC - BACKGROUND - CRAI8 12-59 {7}
SUB 9BF2F "Sxx9BF2F_RZAxxxxx_12.1.19.1_SPKTM_FINAL_CALC_MAIN"            # SAME AS RZASA Sub_xxxxx     #12.1.19.1  Spktm_final_calc_main IGNITION TIMING, FINAL SPARK CALCULATION - CRAI8 12-84 {7}
SUB 9BFB4 "Sxx9BFB4_RZAxxxxx_12.1.20.1_SPKTM_PID_DEF_MAIN"               # SAME AS RZASA Sub_xxxxx     #12.1.20.1  Spktm_pid_def_main IGNITION TIMING, PID DEFINTIONS- CRAI8 12-86 {7}

SUB 9BFC7 "Sxx9BFC7_RZAxxxxx_"                  # SAME AS RZASA Sub_xxxxx     #
SUB 9C011 "Sbg9C011_RZAxxxxx_30MSec_LOOP_FOR_11.1.19.3_??"               # SAME AS RZASA Sub_xxxxx     #SEEMS TO BE A TIMED LOOP SUB FOR 11.1.19.3  Background_ego_sampling CRAI8 11-232 ups ego voltage is sampled at fixed 30ms rate for RCLF processing {7}

SUB 9C081 "Sxx9C081_RZA9EC8B_14.2.1.1_DSDRPM_CALC"                       # SAME AS RZASA Sub_9EC8B     #14.2.1.1  Dsdrpm_calc  INLET AIR CONTROL DESIRED RPM, DSDRPM CALCULATION - CRAI8 14-44 {7}
SUB 9C08C "Sxx9C08C_RZA9EC99_14.2.2.1_DSDRPM_BASE"                       # SAME AS RZASA Sub_9EC99     #14.2.2.1  Dsdrpm_base INLET AIR CONTROL DESIRED RPM, DESIRED RPM CALCULATION - CRAI8 14-46 {7}
SUB 9C0C2 "Sxx9C0C2_RZA9ED22_14.2.3.1_DSDRPM_HICAM"                      # SAME AS RZASA Sub_9ED22     #14.2.3.1  Dsdrpm_hicam IDLE SPEED CONTROL, DESIRED RPM (HICAM) CALCULATION - CRAI8 14-51 {7}
SUB 9C1F8 "Sxx9C1F8_RZA9EE59_14.2.4.1_DSDRPM_LOADS"                      # SAME AS RZASA Sub_9EE59     #14.2.4.1  Dsdrpm_loads INLET AIR CONTROL DESIRED RPM, DSDRPM (LOADS) CALCULATION - CRAI8 14-60 {7}
SUB 9C22A "Sxx9C22A_RZAxxxxx_14.2.4.2_DSDRPM_OUTPUT"                     # SAME AS RZASA Sub_xxxxx     #14.2.4.2  Dsdrpm_output INLET AIR CONTROL DESIRED RPM, DSDRPM (LOADS) CALCULATION - CRAI8 14-61 {7}
SUB 9C345 "Sxx9C345_RZAxxxxx_14.2.4.3_IS_SOURCE_LOGIC"                   # SAME AS RZASA Sub_xxxxx     #14.2.4.3  Is_source_logic INLET AIR CONTROL DESIRED RPM, DSDRPM (LOADS) CALCULATION - CRAI8 14-64 {7}
SUB 9C43A "Sxx9C43A_RZA9F065_14.2.5.1_DSDRPM_XTEND_IDLE"                 # SAME AS RZASA Sub_9F065     #14.2.5.1  Dsdrpm_xtend_idle IDLE SPEED CONTROL, DESIRED RPM , EXTENDED IDLE CALCULATION - CRAI8 14-68 {7}
SUB 9C457 "Sxx9C457_RZA1D2EB_14.2.6.1_DSDRPM_BATV"                       # SAME AS RZASA Sub_1D2EB     #14.2.6.1  Dsdrpm_batv IDLE SPEED CONTROL, BATTERY CHARGING RPM CALCULATION - CRAI8 14-71 {7}
SUB 9C47B "Sxx9C47B_RZA1D31F_14.2.6.2_DSDRPM_TMR"                        # SAME AS RZASA Sub_1D31F     #14.2.6.2  Dsdrpm_timer IDLE SPEED CONTROL, BATTERY CHARGING RPM CALCULATION - CRAI8 14-72 {7}
SUB 9C4E0 "Sxx9C4E0_RZA9F082_14.2.7.1_DSDRPM_TOT"                        # SAME AS RZASA Sub_9F082     #14.2.7.1  Dsdrpm_tot IDLE SPEED CONTROL, DESIRED RPM (TOT) CALCULATION - CRAI8 14-75 {7}
SUB 9C508 "Sxx9C508_RZA9F0AA_14.2.8.1_DSDRPM_AC"                         # SAME AS RZASA Sub_9F0AA     #14.2.8.1  Dsdrpm_ac IDLE SPEED CONTROL, A/C PERFORMANCE RPM CALCULATION - CRAI8 14-78 {7}
SUB 9C561 "Sxx9C561_RZA9F104_14.2.9.1_DSDRPM_TSL"                        # SAME AS RZASA Sub_9F104     #14.2.9.1  Dsdrpm_tsl IDLE SPEED CONTROL, DESIRED RPM, TRANSMISSION SPIN LOSS CALC - CRAI8 14-82 {7}






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############################### Code SCANs ################################ {0}



SCA 02004
SCA 02D90
#SCA 02D9A SUBROUTINE FOUND AT ADDRESS
#SCA 03502 SUBROUTINE FOUND AT ADDRESS
#SCA 0490F SUBROUTINE FOUND AT ADDRESS
#SCA 0563A SUBROUTINE FOUND AT ADDRESS
#SCA 057A7
#SCA 057E9 SUBROUTINE FOUND AT ADDRESS
SCA 05819
SCA 05849
SCA 0586B
#SCA 0592F SUBROUTINE FOUND AT ADDRESS
SCA 059B7
SCA 059C5
SCA 05A59
SCA 05AF2
SCA 05C12
#SCA 05CCA SUBROUTINE FOUND AT ADDRESS
#SCA 05D17 SUBROUTINE FOUND AT ADDRESS
SCA 05D87
SCA 05DE6
SCA 05E41
SCA 05E90
SCA 05EBC
#SCA 05EE9 SUBROUTINE FOUND AT ADDRESS
SCA 05EF1
#SCA 066C5 SUBROUTINE FOUND AT ADDRESS
#SCA 0673C SUBROUTINE FOUND AT ADDRESS
#SCA 0676C SUBROUTINE FOUND AT ADDRESS
#SCA 067E1 SUBROUTINE FOUND AT ADDRESS
#SCA 067F3 SUBROUTINE FOUND AT ADDRESS
#SCA 0685B SUBROUTINE FOUND AT ADDRESS
#SCA 06881 SUBROUTINE FOUND AT ADDRESS
#SCA 068CF SUBROUTINE FOUND AT ADDRESS
#SCA 0692E SUBROUTINE FOUND AT ADDRESS
#SCA 06957 SUBROUTINE FOUND AT ADDRESS
#SCA 0697D SUBROUTINE FOUND AT ADDRESS
#SCA 069A7 SUBROUTINE FOUND AT ADDRESS
#SCA 069E9 SUBROUTINE FOUND AT ADDRESS
#SCA 06B02 SUBROUTINE FOUND AT ADDRESS
#SCA 06CF1 SUBROUTINE FOUND AT ADDRESS
#SCA 06DDB SUBROUTINE FOUND AT ADDRESS
#SCA 06E83 SUBROUTINE FOUND AT ADDRESS
#SCA 08518 SUBROUTINE FOUND AT ADDRESS
#SCA 085F7 SUBROUTINE FOUND AT ADDRESS
#SCA 086B4 SUBROUTINE FOUND AT ADDRESS
#SCA 0872B SUBROUTINE FOUND AT ADDRESS
SCA 0877C
#SCA 087D9 SUBROUTINE FOUND AT ADDRESS
#SCA 08AE6 SUBROUTINE FOUND AT ADDRESS

SCA 09782

#SCA 0B33A
#SCA 0B344
#SCA 0B34E
#SCA 0B358 SUBROUTINE FOUND AT ADDRESS
#SCA 0B3C4 SUBROUTINE FOUND AT ADDRESS
#SCA 0B430
#SCA 0B438 SUBROUTINE FOUND AT ADDRESS
#SCA 0B45D SUBROUTINE FOUND AT ADDRESS
#SCA 0B482
#SCA 0B492   # SUBROUTINE FOUND AT ADDRESS
#SCA 0B6D8
#SCA 0B6DF
#SCA 0B6EA
#SCA 0B6EE
#SCA 0B6F2
#SCA 0B6F6
#SCA 0B6FA
SCA 0B717
SCA 0E098
SCA 824E5
#SCA 825CE   # SUBROUTINE FOUND AT ADDRESS
#SCA 825DD
#SCA 825FE
#SCA 8260E
#SCA 82628
#SCA 82630
#SCA 8263C
#SCA 82644
SCA 83997
#SCA 8436A   # SUBROUTINE FOUND AT ADDRESS
#SCA 849B2   # SUBROUTINE FOUND AT ADDRESS
SCA 855F2
SCA 855FF     # SAD V4.07.16B HAS PROBLEM WITH 855FC
SCA 865C9
SCA 868BF
SCA 868CD
SCA 868D6
SCA 869DF
#SCA 86A87   # SUBROUTINE FOUND AT ADDRESS
SCA 86AD9
#SCA 86B0F   # SUBROUTINE FOUND AT ADDRESS
#SCA 8846D   # SUBROUTINE FOUND AT ADDRESS # SAME AS RZASA L_88B87
#SCA 8CBC3   # SUBROUTINE FOUND AT ADDRESS
SCA 8F83D
SCA 8F843
SCA 8F879
SCA 8F87F
SCA 8F8A3
SCA 8F8A9
SCA 8F8B5
SCA 8F8C7
SCA 8F8CD
SCA 8F8E5
#SCA 8F8F1
#SCA 8F8F7
SCA 8F915
SCA 8F91B
SCA 8F921
SCA 8F92D
SCA 8F933
SCA 8F93F
SCA 8F96F
SCA 8F97B
SCA 8F981
SCA 8F987
SCA 8F988
SCA 8F993
SCA 8F99F
SCA 8F9A5
SCA 8F9C9
SCA 8F9CF
SCA 8F9DB
SCA 8F9E1
SCA 8F9E7
SCA 8F9ED
SCA 8F9F3
SCA 8F9F9
SCA 8F9FF
#SCA 8FA05
#SCA 8FA0B
SCA 8FA11
#SCA 8FA17
SCA 8FA1D
#SCA 8FA23
SCA 958B1
SCA 958BB
#SCA 95935 SUBROUTINE FOUND AT ADDRESS
#SCA 9593A SUBROUTINE FOUND AT ADDRESS
SCA 95990
SCA 95996
#SCA 95A01 SUBROUTINE FOUND AT ADDRESS
#SCA 9614A SUBROUTINE FOUND AT ADDRESS
#SCA 9624A SUBROUTINE FOUND AT ADDRESS
#SCA 96831 SUBROUTINE FOUND AT ADDRESS
#SCA 96C8B SUBROUTINE FOUND AT ADDRESS
SCA 99673


############################# End Code SCANs ############################## {0}





