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Apollo-11/Comanche055/FRESH_START_AND_RESTART.agc

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# Copyright: Public domain.
# Filename: FRESH_START_AND_RESTART.agc
# Purpose: Part of the source code for Comanche, build 055. It
# is part of the source code for the Command Module's
# (CM) Apollo Guidance Computer (AGC), Apollo 11.
# Assembler: yaYUL
# Reference: pp. 181-210
# Contact: Ron Burkey <info@sandroid.org>,
# Fabrizio Bernardini <fabrizio@spacecraft.it>
# Website: http://www.ibiblio.org/apollo.
# Mod history: 2009-05-16 FB Transcription Batch 2 Assignment.
# 2009-05-20 RSB Removed an extraneous "TC STARTSUB".
# 2009-05-21 RSB Changed a "TC BANKCALL" to "TC STOPRATE"
# in INITSUB.
#
# The contents of the "Comanche055" files, in general, are transcribed
# from scanned documents.
#
# Assemble revision 055 of AGC program Comanche by NASA
# 2021113-051. April 1, 1969.
#
# This AGC program shall also be referred to as Colossus 2A
#
# Prepared by
# Massachusetts Institute of Technology
# 75 Cambridge Parkway
# Cambridge, Massachusetts
#
# under NASA contract NAS 9-4065.
#
# Refer directly to the online document mentioned above for further
# information. Please report any errors to info@sandroid.org.
# Page 181
# PROGRAM DESCRIPTION 8 APRIL, 1967
# SUNDISK REV 120
# FUNCTIONAL DESCRIPTION
# SLAP1 MAN INITIATED FRESH START
# 1. EXECUTE STARTSUB
# 2. TURN OFF DSKY DISCRETE-LAMPS
# 3. CLEAR FAIL REGISTERS,SELF-CHECK ERROR COUNTER AND RESTART
# COUNTER
# 4. EXECUTE DOFSTART
# DOFSTART MACHINE INITIATED FRESH START
# 1. CLEAR SELF-CHECK REGISTERS, MODE REGISTER AND CDUZ REGISTER
# 2. CLEAR PHASE TABLE
# 3. INITIALIZE IMU FLAGS
# 4. INITIALIZE FLAGWORDS
# 5. TRANSFER CONTROL TO IDLE LOOP IN DUMMYJOB
# GOPROG HARDWARE RESTART
# 0. EXECUTE STARTSUB
# 1. TRANSFER CONTROL TO DOFSTART IF ANY OF THE FOLLOWING CONDITIONS
# EXIST.
# A. RESTART OCCURED DURING EXECUTION OF ERASCHK
# B. BOTH OSCILLATOR FAIL AND AGC WARNING ARE ON
# C. MARK REJECT AND EITHER NAV OR MAIN DSKY ERROR LIGHT RESET
# ARE ON.
# 2. SCHEDULE A T5RUPT PROGRAM FOR THE DAP
# 3. SET FLAGWRD5 BITS FOR INTWAKE ROUTINE
# 4. EXTINGUISH ALL DSKY LAMPS, EXCEPT FOR PROGRAM ALARM,GIMBAL LOCK AND
# NO ATT
# 5. INITIALIZE IMU FLAGS
# 6. IF ENGINE COMMAND IS ON (FLAGWRD5,BIT 7), SET ENGINE ON (CHAN-
# NEL 11, BIT 13)
# 7. TRANSFER CONTROL TO GOPROG3
# ENEMA SOFTWARE RESTART INITIATED BY MAJOR MODE CHANGE
# 1. EXECUTE STARTSB2
# 2. KILL PROGRAMS THAT WERE INTEGRATING OR WAITING FOR INTEGRATION
# ROUTINE
# 3. TRANSFER CONTROL TO GOPROG3
# GOPROG3 SUBROUTINE COMMON TO GOPROG AND ENEMA
# 1. TEST PHASE TABLES - IF INCORRECT, DISPLAY ALARM 1107 AND
# TRANSFER CONTROL TO DOFSTART
# 2. DISPLAY MAJOR MODE
# 3. IF ANY GROUPS WERE ACTIVE UPON RESTART,TRANSFER CONTROL TO THE
# Page 182
# RESTARTS SUBROUTINE TO RESCHEDULE PENDING TASKS, LONGCALLS, AND
# JOBS (P20 IS RESTARTED VIA FINDVAC)
# 4. IF NO GROUPS WERE ACTIVE UPON RESTART, DISPLAY ALARM CODE
# 1110 (RESTART WITH NO ACTIVE GROUPS).
# 5. TRANSFER CONTROL TO IDLE LOOP IN DUMMYJOB
# STARTSUB SUBROUTINE COMMON TO SLAP1 AND GOPROG
# 1. CLEAR OUTBIT CHANNELS 5 AND 6
# 2. INITIALIZE TIME5,TIME4,TIME3
# 3. TRANSFER CONTROL TO STARTSB2
# STARTSB2 SUBROUTINE COMMON TO STARTSUB AND ENEMA
# 1. INTIALIZE OUTBIT CHANNELS 11,12,13, AND 14
# 2. REPLACE ALL TASKS ON WAITLIST WITH ENDTASK
# 3. MAKE ALL EXECUTIVE REGISTERS AVAILABLE
# 4. MAKE ALL VAC AREAS AVAILABLE
# 5. CLEAR DSKY REGISTERS
# 6. ZERO NUMEROUS SWITCHES
# 7. INITIALIZE OPTICS FLAGS
# 8. INITIALIZE PIPA AND TELEMETRY FAIL FLAGS
# 9. INITIALIZE DOWN TELEMETRY
# INPUT/OUTPUT INITIALIZATION
# A. CALLING SEQUENCE
# SLAP1 - TC POSTJUMP OR VERB 36,ENTER
# CADR SLAP1
# ENEMA - TC POSTJUMP *** DO NOT CALL ENEMA WITHOUT ***
# CADR ENEMA *** CONSULTING P00H PEOPLE ***
# B. OUTPUT
# ERASABLE MEMORY INITIALIZATION
# PROGRAM ANALYSIS
# A. SUBROUTINES CALLED
# MR.KLEAN,WAITLIST,DSPMM,ALARM,RESTARTS,FINDVAC
# B. ALARMS
# 1107 PHASE TABLE ERROR
# 1110 RESTART WITH NO ACTIVE GROUPS
# Page 183
BANK 10
SETLOC FRANDRES
BANK
EBANK= LST1
COUNT 05/START
SLAP1 INHINT # FRESH START. COMES HERE FROM PINBALL.
TC STARTSUB # SUBROUTINE DOES MOST OF THE WORK.
STARTSW TCF SKIPSIM # PATCH....TCF STARTSIM...FOR SIMULATION
STARTSIM CAF BIT14
TC FINDVAC
SIM2CADR OCT 77777 # PATCH 2CADR (AND EBANK DESIGNATION) OF
OCT 77777 # SIMULATION START ADDRESS.
SKIPSIM CA DSPTAB +11D
MASK BITS4&6
AD BIT15
TS DSPTAB +11D # REQUESTED FRESH START.
CA ZERO # SAME STORY ON ZEROING FAILREG.
TS ERCOUNT
TS FAILREG
TS FAILREG +1
TS FAILREG +2
TS REDOCTR
CS PRIO12
TS DSRUPTSW
DOFSTART CAF ZERO # DO A FRESH START.
TS ERESTORE # ***** MUST NOT BE REMOVED FROM DOFSTART
TS SMODE # ***** MUST NOT BE REMOVED FROM DOFSTART
TS UPSVFLAG # UPDATE STATE VECTOR REQUEST FLAGWORD
EXTEND
WRITE CHAN5 # TURN OFF RCS JETS
EXTEND
WRITE CHAN6 # TURN OFF RCS JETS
EXTEND
WRITE DSALMOUT # ZERO CHANNEL 11
EXTEND
WRITE CHAN12 # ZERO CHANNEL 12
EXTEND
WRITE CHAN13 # ZERO CHANNEL 13
EXTEND
WRITE CHAN14 # ZERO CHANNEL 14
TS WTOPTION
TS DNLSTCOD
# Page 184
TS NVSAVE
TS EBANKTEM
TS RATEINDX
TS TRKMKCNT
TS VHFCNT
TS EXTVBACT
CS DSPTAB +11D
MASK BITS4&6
CCS A
TC +4
CA BITS4&6
EXTEND # THE IMU WAS IN COARSE ALIGN IN GIMBAL
WOR CHAN12 # LOCK, SO PUT IT BACK INTO COARSE ALIGN.
TC MR.KLEAN
CS ZERO
TS MODREG
CAF PRIO30
TS RESTREG
CAF IM30INIF # FRESH START IMU INITIALIZATION.
TS IMODES30
CAF NEGONE
TS OPTIND # KILL COARSE OPTICS
CAF OPTINITF
TS OPTMODES
CAF IM33INIT
TS IMODES33
EXTEND # LET T5 IDLE.
DCA T5IDLER
DXCH T5LOC
CA SWINIT
TS STATE
CA FLAGWRD1
MASK NOP01BIT # LEAVE NODOP01 FLAG UNTOUCHED
AD SWINIT +1
TS FLAGWRD1
CA SWINIT +2
TS STATE +2
CA FLAGWRD3
# Page 185
MASK BIT13 # REFSMMAT FLAG
AD SWINIT +3
TS FLAGWRD3
EXTEND
DCA SWINIT +4
DXCH STATE +4
EXTEND
DCA SWINIT +6
DXCH STATE +6
CA FLAGWRD8
MASK OCT6200 # CMOONFLG, LMOONFLG, AND SUFFLAG
AD SWINIT +8D
TS FLAGWRD8
CA SWINIT +9D
TS STATE +9D
EXTEND
DCA SWINIT +10D
DXCH STATE +10D
ENDRSTRT TC POSTJUMP
CADR DUMMYJOB +2 # DOES A RELINT. (IN A SWITCHED BANK.)
MR.KLEAN INHINT
EXTEND
DCA NEG0
DXCH -PHASE2
P00KLEAN EXTEND
DCA NEG0
DXCH -PHASE4
EXTEND
DCA NEG0
DXCH -PHASE1
V37KLEAN EXTEND
DCA NEG0
DXCH -PHASE3
EXTEND
DCA NEG0
DXCH -PHASE5
EXTEND
DCA NEG0
DXCH -PHASE6
TC Q
OCT6200 OCT 6200
# Page 186
# COMES HERE FROM LOCATION 4000, GOJAM, RESTART ANY PROGRAMS WHICH MAY HAVE BEEN RUNNING AT THE TIME.
GOPROG INCR REDOCTR # ADVANCE RESTART COUNTER.
LXCH Q
EXTEND
ROR SUPERBNK
DXCH RSBBQ
TC BANKCALL # STORE ERASABLES FOR DEBUGGING PURPOSES.
CADR VAC5STOR
CA BIT15 # TEST OSC FAIL BIT TO SEE IF WE HAVE
EXTEND # HAD A POWER TRANSIENT. IF SO, ATTEMPT
WAND CHAN33 # A RESTART. IF NOT, CHECK THE PRESENT
EXTEND # STATE OF AGC WARNING BIT.
BZF BUTTONS
CA BIT14 # IF AGC WARNING ON (BIT = 0), DO A
EXTEND # FRESH START ON THE ASSUMPTION THAT
RAND CHAN33 # WE ARE IN A RESTART LOOP.
EXTEND
BZF NONAVKEY +1
BUTTONS TC LIGHTSET # MAKE FRESH START CHECKS BEFORE ERESTORE.
# ERASCHK TEMPORARILY STORES THE CONTENTS OF TWO ERASABLE LOCATIONS, X
# AND X+1 INTO SKEEP5 AND SKEEP6. IT ALSO STORES X INTO SKEEP7 AND
# ERESTORE. IF ERASCHK IS INTERRUPTED BY A RESTART, C(ERESTORE) SHOULD
# EQUAL C(SKEEP7),AND SHOULD BE A + NUMBER LESS THAN 2000 OCT. OTHERWISE
# C(ERESTORE) SHOULD EQUAL +0.
CAF HI5
MASK ERESTORE
EXTEND
BZF +2 # IF ERESTORE NOT = +0 OR +N LESS THAN 2K,
TCF NONAVKEY +1 # DOUBT E MEMORY AND DO A FRESH START.
CS ERESTORE
EXTEND
BZF ELRSKIP -1
AD SKEEP7
EXTEND
BZF +2 # = SKEEP7, RESTORE E MEMORY.
TCF NONAVKEY +1 # NOT=SKEEP7, DOUBT EMEM, DO FRESH START
CA SKEEP4
TS EBANK # EBANK OF E MEMORY THAT WAS UNDER TEST.
EXTEND # (NOT DXCH SINCE THIS MIGHT HAPPEN AGAIN)
DCA SKEEP5
INDEX SKEEP7
DXCH 0000 # E MEMORY RESTORED.
CA ZERO
TS ERESTORE
# Page 187
TC STARTSUB # DO INITIALIZATION AFTER ERASE RESTORE.
ELRSKIP CA FLAGWRD6 # RESTART AUTOPILOTS
EXTEND
MP BIT3 # BITS 15,14 00 T5IDLOC
MASK SIX # 01 REDORCS
EXTEND # 10 REDOTVC
INDEX A # 11 REDOSAT
DCA T5IDLER
DXCH T5LOC
CS INTFLBIT
MASK RASFLAG
TS RASFLAG
CA OPTMODES
MASK OPTINITR
AD BIT7
TS OPTMODES
CAF BIT6
MASK IMODES33
AD IM33INIT
TS IMODES33
CA 9,6,4 # LEAVE PROG ALARM,GIMBAL LOCK, NO ATT
MASK DSPTAB +11D # LAMPS INTACT ON HARDWARE RESTART
AD BIT15
XCH DSPTAB +11D
MASK BIT4 # IF NO ATT LAMP WAS ON, LEAVE ISS IN
EXTEND # COURSE ALIGN
BZF NOCOARSE
TC IBNKCALL # IF NO ATT LAMP ON, RETURN ISS TO
CADR SETCOARS # COARSE ALIGN.
CAF SIX
TC WAITLIST
EBANK= CDUIND
2CADR CA+ECE
NOCOARSE CAF IFAILINH # LEAVE FAILURE INHIBITS INTACT ON
MASK IMODES30 # HARDWARE RESTART. RESET ALL
AD IM30INIR # FAILURE CODES.
TS IMODES30
CS FLAGWRD5
MASK ENGONBIT
CCS A
TCF GOPROG3
CAF BIT13
EXTEND
# Page 188
WOR DSALMOUT # TURN ENGINE ON
TCF GOPROG3
ENEMA INHINT
TC LIGHTSET # EXIT TO DOFSTART IF ERROR RESET AND
TC STARTSB2 # MARK REJECT DEPRESSED SIMULTANEOUSLY
CS INTMASK # RESET INTEGRATION BITS
MASK RASFLAG
TS RASFLAG
CS FLAGWRD6 # IS TVC ON
MASK OCT60000
EXTEND
BZMF GOPROG3 # NO
CAF .5SEC # YES, CALL TVCEXEC TASK WHICH WAS KILLED
TC WAITLIST # IN STARTSB2.
EBANK= BZERO
2CADR TVCEXEC
GOPROG3 CAF NUMGRPS # VERIFY PHASE TABLE AGREEMENTS
PCLOOP TS MPAC +5
DOUBLE
EXTEND
INDEX A
DCA -PHASE1 # COMPLEMENT INTO A, DIRECT INTO L.
EXTEND
RXOR LCHAN # RESULT MUST BE -0 FOR AGREEMENT.
CCS A
TCF PTBAD # RESTART FAILURE.
TCF PTBAD
TCF PTBAD
CCS MPAC +5 # PROCESS ALL RESTART GROUPS.
TCF PCLOOP
TS MPAC +6 # SET TO +0.
TC MMDSPLAY # DISPLAY MAJOR MODE
INHINT # RELINT DONE IN MMDSPLAY
CAE FLAGWRD6 # IS RCS DAP RUNNING (BITS 15 14 OF
MASK OCT60000 # FLAGWORD6 = 01)
EXTEND # YES, DO STOPRATE
BZMF NXTRST -1 # NO, SKIP TO NXTRST -1
CAF EBANK6 # STOPRATE IS DONE IN EBANK 6
TS EBANK
TC STOPRATE # ZERO DELCDUS, WBODYS, AND BIASES THUS
# STOPPING AUTOMATIC MANEUVERING
CAF EBANK3
TS EBANK
# Page 189
CAF NUMGRPS # SEE IF ANY GROUPS RUNNING.
NXTRST TS MPAC +5
DOUBLE
INDEX A
CCS PHASE1
TCF PACTIVE # PNZ - GROUP ACTIVE.
TCF PINACT # +0 - GROUP NOT RUNNING.
PACTIVE TS MPAC
INCR MPAC # ABS OF PHASE.
INCR MPAC +6 # INDICATE GROUP DEMANDS PRESENT.
CA RACTCADR
TC SWCALL # MUST RETURN TO SWRETURN.
PINACT CCS MPAC +5 # PROCESS ALL RESTART GROUPS.
TCF NXTRST
CCS MPAC +6 # NO, CHECK PHASE ACTIVITY FLAG
TCF ENDRSTRT # PHASE ACTIVE
CAF BIT15 # IS MODE -0
MASK MODREG
EXTEND
BZF GOTOPOOH # NO
TCF ENDRSTRT # YES
PTBAD TC ALARM # SET ALARM TO SHOW PHASE TABLE FAILURE.
OCT 1107
TCF DOFSTART # IN R2).
# ******** ****** ******
#
# DO NOT USE GOPROG2 OR ENEMA WITHOUT CONSULTING P00H PEOPLE
#
GOPROG2 EQUALS ENEMA
OCT10000 = BIT13
OCT30000 = PRIO30
OCT7777 OCT 7777
RACTCADR CADR RESTARTS
LIGHTSET CAF BIT7 # DOFSTART IF MARK REJECT AND EITHER
EXTEND # ERROR LIGHT RESET BUTTONS ARE DEPRESSED
RAND NAVKEYIN
EXTEND
BZF NONAVKEY # NO MARK REJECT
CAF OCT37
EXTEND
RAND NAVKEYIN # NAV DSKY KEYCODES,MARK,MARK REJECT
AD -ELR
EXTEND
BZF NONAVKEY +1
EXTEND
# Page 190
READ MNKEYIN # MAIN DSKY KEYCODES
AD -ELR
EXTEND
BZF +2
NONAVKEY TC Q
TC STARTSUB
TCF DOFSTART
STARTSUB CAF LDNPHAS1 # SET POINTER SO NEXT 20MS DOWNRUPT WILL
TS DNTMGOTO # CAUSE THE CURRENT DOWNLIST TO BE
# INTERRUPTED AND START SENDING FROM THE
# BEGINNING OF THE CURRENT DOWNLIST.
CAF POSMAX
TS TIME3 # 37777 TO TIME3.
AD MINUS2
TS TIME4 # 37775 TO TIME4.
AD NEGONE
TS TIME5 # 37774 TO TIME5.
STARTSB2 CAF OCT77603 # TURN OFF UPLINK ACTY, TEMP CAUTION, KR,
EXTEND # FLASH, OP. ERROR, LEAVE OTHERS UNCHANGED
WAND DSALMOUT
CAF OCT74777 # TURN OFF TEST ALARMS, STANDBY ENABLE.
EXTEND
WAND CHAN13
CS PRIO25 # CLEAR R21MARK, P21FLAG, AND SKIPVHF BIT.
MASK FLAGWRD2
AD SKIPVBIT # NOW SET SKIPVHF FLAG.
TS FLAGWRD2
EBANK= LST1
CAF STARTEB
TS EBANK # SET FOR E3
CAF NEG1/2 # INITIALIZE WAITLIST DELTA-TS.
TS LST1 +7
TS LST1 +6
TS LST1 +5
TS LST1 +4
TS LST1 +3
TS LST1 +2
TS LST1 +1
TS LST1
CS ENDTASK
TS LST2
TS LST2 +2
TS LST2 +4
# Page 191
TS LST2 +6
TS LST2 +8D
TS LST2 +10D
TS LST2 +12D
TS LST2 +14D
TS LST2 +16D
CS ENDTASK +1
TS LST2 +1
TS LST2 +3
TS LST2 +5
TS LST2 +7
TS LST2 +9D
TS LST2 +11D
TS LST2 +13D
TS LST2 +15D
TS LST2 +17D
CS ZERO # MAKE ALL EXECUTIVE REGISTER SETS
TS PRIORITY # AVAILABLE.
TS PRIORITY +12D
TS PRIORITY +24D
TS PRIORITY +36D
TS PRIORITY +48D
TS PRIORITY +60D
TS PRIORITY +72D
TS DSRUPTSW
TS NEWJOB # SHOWS NO ACTIVE JOBS.
CAF VAC1ADRC # MAKE ALL VAC AREAS AVAILABLE.
TS VAC1USE
AD LTHVACA
TS VAC2USE
AD LTHVACA
TS VAC3USE
AD LTHVACA
TS VAC4USE
AD LTHVACA
TS VAC5USE
CAF TEN # BLANK DSKY REGISTERS (PROGRAM,VERB,NOUN,
# R1,R2,R3)
DSPOFF TS MPAC
CS BIT12
INDEX MPAC
TS DSPTAB
CCS MPAC
TCF DSPOFF
TS DELAYLOC
# Page 192
TS DELAYLOC +1
TS DELAYLOC +2
TS DELAYLOC +3
TS R1SAVE
TS INLINK
TS DSPCNT
TS CADRSTOR
TS REQRET
TS CLPASS
TS DSPLOCK
TS MONSAVE # KILL MONITOR
TS MONSAVE1
TS VERBREG
TS NOUNREG
TS DSPLIST
TS MARKSTAT
TS IMUCADR
TS OPTCADR
TS RADCADR
TS ATTCADR
TS LGYRO
TS FLAGWRD4 # KILL INTERFACE DISPLAYS
CAF NOUTCON
TS NOUT
CAF BIT14
MASK EXTVBACT
TS EXTVBACT
CAF LESCHK # SELF CHECK GO-TO REGISTER.
TS SELFRET
CS VD1
TS DSPCOUNT
TC Q
T5IDLOC CA L # T5RUPT COMES HERE EVERY 163.84 SECS
TCF NOQRSM +1 # WHEN NOBODY IS USING IT.
EBANK= OGANOW
T5IDLER 2CADR T5IDLOC
EBANK= OGANOW
2CADR REDORCS
EBANK= OGANOW
2CADR REDOTVC
EBANK= OGANOW
2CADR REDOSAT
# Page 193
IFAILINH OCT 435
LDNPHAS1 GENADR DNPHASE1
LESCHK GENADR SELFCHK
VAC1ADRC ADRES VAC1USE
LTHVACA DEC 44
INTMASK OCT 20100
OCT77603 OCT 77603
OCT74777 OCT 74777
STARTEB ECADR LST1
NUMGRPS EQUALS FIVE
-ELR OCT -22 # -ERROR LIGHT RESET KEY CODE.
IM30INIF OCT 37411 # INHIBITS IMU FAIL FOR 5 SEC AND PIP ISSW
IM30INIR OCT 37000
IM33INIT = PRIO16 # NO PIP OR TM FAIL SIGNALS.
9,6,4 OCT 450
OPTINITF OCT 130
OPTINITR OCT 430
SWINIT OCT 0
OCT 0
OCT 0
OCT 0
OCT 0
OCT 00200
OCT 0
OCT 0
OCT 0
OCT 0
OCT 0
OCT 0
# Page 194
# PROGRAM NAME GOTOPOOH ASSEMBLY SUNDISK
# LOG SECTION FRESH START AND RESTART
# FUNCTIONAL DESCRIPTION
# 1. DISPLAY MAJOR MODE NUMBER 00 IN DSKY REGISTER R1 AND R3. FLASH V50 N07 ON DSKY. (M M CHANGE REQUEST)
# 2. PERMIT A CURRENT PENDING REQUEST (FLASH ON DSKY) TO BE REPLACED (WITHOUT AN ABORT) BY THE MAJOR MODE
# CHANGE REQUEST.
# INPUT/OUTPUT INFORMATION
# A. CALLING SEQUENCE TC GOTOPOOH
# B. ERASABLE INITIALIZATION NONE
# C. OUTPUT FLASH VERB 50 NOUN 07 ON DSKY
# D. DEBRIS L
# PROGRAM ANALYSIS
# A. SUBROUTINES CALLED GOPERF3, LINUS
# B. NORMAL EXIT TCF ENDOFJOB
# C. ALARM AND ABORT EXITS NONE
BLOCK 02
SETLOC FFTAG10
BANK
COUNT 02/P00
GOTOPOOH TC PHASCHNG # RESTART GOTOPOOH
OCT 14
TC POSTJUMP
CADR GOP00FIX
BANK 10
SETLOC VERB37
BANK
COUNT 04/P00
GOP00FIX TC INITSUB
TC CLEARMRK +2
CAF V37N99
TC BANKCALL
CADR GOFLASH
TCF -3
# Page 195
TCF -4
TCF -5
V37N99 VN 3799
# Page 196
# PROGRAM NAME V37 ASSEMBLY SUNDISK
# LOG SECTION FRESH START AND RESTART
# FUNCTIONAL DESCRIPTION
# 1. CHECK IF NEW PROGRAM ALLOWED. IF BIT 1 OF FLAGWRD2(NODOFLAG) ISSET, AN ALARM 1520 IS CALLED.
# 2. CHECK FOR VALIDITY OF PROGRAM SELECTED. IF AN INVALID PROGRAM IS SELECTED, THE OPERATOR ERROR LIGHT IS
# SET AND CURRENT ACTIVITY, IF ANY, CONTINUES.
# 3. SERVICER IS TERMINATED IF IT HAS BEEN RUNNING.
# 4. INSTALL IS EXECUTED TO AVOID INTERRUPTING INTEGRATION.
# 5. THE ENGINE IS TURNED OFF AND THE DAP IS INITIALIZED FOR COAST.
# 6. TRACK, UPDATE AND TARG1 FLAGS ARE SET TO ZERO.
# 7. DISPLAY SYSTEM IS RELEASED.
# 8. THE FOLLOWING ARE PERFORMED FOR EACH OF THE THREE CASES.
# A. PROGRAM SELECTED IS P00.
# 1. RENDEZVOUS FLAG IS RESET (KILL P20).
# 2. STATINT1 IS SCHEDULED BY SETTING RESTART GROUP 2.
# 3. MAJOR MODE 00 IS STORED IN THE MODE REGISTER(MODREG).
# 4. SUPERBANK 3 IS SELECTED.
# 5. NODOFLAG IS RESET.
# 6. ALL RESTART GROUPS EXCEPT GROUP 2 ARE CLEARED. CONTROL ISTRANSFERRED TO RESTART PROGRAM (GOPROG2)
# WHICH CAUSES ALL CURRENT ACTIVITY TO BE DISCONTINUED AND A 9 MINUTE INTEGRATION CYCLE TO BE
# INITIATED.
# B. PROGRAM SELECTES IS P20.
# 1. IF THE CURRENT MAJOR MODE IS THE SAME AS THE SELECTED NEWPROGRAM. THE PROGRAM IS RE-INITIALIZED
# VIA V37XEQ, ALL RESTART GROUPS, EXCEPT GROUP 4 ARE CLEARED.
# 2. IF THE CURRENT MAJOR MODE IS NOT EQUAL TO THE NEW REQUEST, A CHECK IS MADE TO SEE IF THE REQUEST-
# ED MAJOR MODE HAS BEEN RUNNING THE BACKGROUND,
# AND IF IT HAS, NO NEW PROGRAM IS SCHEDULED, THE EXISTING
# P20 IS RESTARTED TO CONTINUE, AND ITS MAJOR MODE IS SET.
# 3. CONTROL IS TRANSFERRED TO GOPROG2.
# C. PROGRAM SELECTED IS NEITHER P00 NOR P20
# 1. V37XEQ IS SCHEDULED (AS A JOB) BY SETTING RESTART GROUP 4
# 2. ALL CURRENT ACTIVITY EXCEPT RENDEZVOUS AND TRACKING IS DISCONTINUED BY CLEARING ALL RESTART
# GROUPS. GROUP 2 IS CLEARED. IF THE RENDEZVOUS FLAG IS ON P20 IS RESTARTED IN GOPROG2 VIA REDOP20,
# TO CONTINUE.
# INPUT/OUTPUT INFORMATION
# A. CALLING SEQUENCE
# CONTROL IS DIRECTED TO V37 BY THE VERBFAN ROUTINE.
# VERBFAN GOES TO C(VERBTAB+C(VERBREG)). VERB 37 = MMCHANG.
# MMCHANG EXECUTES A TC POSTJUMP, CADR V37.
# B. ERASABLE INITIALIZATION NONE
# C. OUTPUT
# MAJOR MODE CHANGE
# Page 197
#
# D. DEBRIS
# MMNUMBER, MPAC +1, MINDEX, BASETEMP +C(MINDEX), FLAGWRD0, FLAGWRD1, FLAGWRD2, MODREG, GOLOC -1,
# GOLOC, GOLOC +1, GOLOC +2, BASETEMP, -PHASE2, PHASE2, -PHASE4
# PROGRAM ANALYSIS
# A. SUBROUTINES CALLED
# ALARM, RELDSP, PINBRNCH, INTSTALL, ENGINOF2, ALLCOAST, V37KLEAN, GOPROG2, FALTON, FINDVAC, SUPERSW,
# DSPMM
# B. NORMAL EXIT TC ENDOFJOB
# C. ALARMS 1520 (MAJOR MODE CHANGE NOT PERMITTED)
BLOCK 02
SETLOC FFTAG10
BANK
COUNT 02/V37
OCT24 MM 20
OCT31 MM 25
BANK 27
SETLOC VERB37
BANK
COUNT 04/V37
V37 TS MMNUMBER # SAVE MAJOR MODE
CAF PRIO30 # RESTART AT PINBALL PRIORITY
TS RESTREG
CA IMODES30 # IS IMU BEING INITIALIZED
MASK BIT6
CCS A
TCF CANTR00
CAF BIT13 # IS ENGINE ON
EXTEND
RAND DSALMOUT
CCS A
TCF R00TOP00 # YES, SET UP FOR P00
CS FLAGWRD6 # NO, IS TVC DAP ON
MASK OCT60000
EXTEND
BZMF ISITP00 # NO, CONTINUE WITH R00
R00TOP00 INHINT
CAF EBANK6
# Page 198
TS EBANK
EBANK= DAPDATR1
CAE CSMMASS
TS MASSTMP
TC IBNKCALL
CADR SPSOFF
TC IBNKCALL
CADR MASSPROP
CAF 3.1SEC
TC IBNKCALL
CADR RCSDAPON +1
TC IBNKCALL
CADR TVCZAP # DISABLE TVC
CAF ZERO
TS MMNUMBER
RELINT
CAF FIVE
TC BANKCALL
CADR DELAYJOB
CAF ZERO
EXTEND
WRITE 5
EXTEND
WRITE 6
ISITP00 CA MMNUMBER
EXTEND
BZF ISSERVON # YES, CHECK SERVICER STATUS
CS FLAGWRD2 # NO, IS NODO V37 FLAG SET
MASK NODOBIT
CCS A
TCF CHECKTAB # NO
CANTR00 TC ALARM
OCT 1520
V37BAD TC RELDSP # RELEASES DISPLAY FROM ASTRONAUT
TC POSTJUMP # BRING BACK LAST NORMAL DISPLAY IF THERE
CADR PINBRNCH # WAS ONE. OY
CHECKTAB CA NOV37MM # THE NO. OF MM
AGAINMM TS MPAC +1
NDX MPAC +1
CA PREMM1 # OBTAIN WHICH MM THIS IS FOR
MASK LOW7
COM
AD MMNUMBER
CCS A
CCS MPAC +1 # IF GR, SEE IF ANY MORE IN LIST
# Page 199
TCF AGAINMM # YES, GET NEXT ONE
TCF V37NONO # LAST TIME OR PASSED MM
CA MPAC +1
TS MINDEX # SAVE INDEX FOR LATER
ISSERVON CS FLAGWRD7 # V37 FLAG SET - I.E. IS SERVICER GOING
MASK V37FLBIT
CCS A
TCF CANV37 # NO
INHINT
CS AVEGBIT # YES TURN OFF AVERAGE G FLAG AND WAIT
MASK FLAGWRD1 # FOR SERVICER TO RETURN TO CANV37
TS FLAGWRD1
TCF ENDOFJOB
CANV37 CAF R00AD
TS TEMPFLSH
TC PHASCHNG
OCT 14
ROC TC INTPRET
CALL # WAIT FOR INTEGRATION TO FINISH
INTSTALL
DUMMYAD EXIT
CS OCT1400 # CLEAR CAUTION RESET
EXTEND # AND TEST CONNECTOR OUTBIT
WAND 11
CAF OCT44571 # CLEAR ENABLE OPTICS ERROR COUNTER, STAR
EXTEND # TRAKERS ON BIT, TVC ENABLE, ZERO OPTICS,
WAND 12 # DISENGAGE OPTICS DAP, SIVB IN J SEQUENCE
# START, AND SIVB CUTOFF BIT.
CS OCT600 # CLEAR UNUSED BITS
EXTEND
WAND 13
TC INITSUB
TC CLEARMRK
TC DOWNFLAG
ADRES STIKFLAG
# Page 200
TC BANKCALL
CADR UPACTOFF # TURN OFF UPLINK ACTIV LIGHT
TC DOWNFLAG
ADRES VHFRFLAG
TC DOWNFLAG
ADRES R21MARK
CCS MMNUMBER # IS THIS A P00H REQUEST
TCF NOUVEAU # NO, PICK UP NEW PROGRAM
COUNT 04/P00
P00H TC RELDSP # RELEASE DISPLAY SYSTEM
CAF PRIO5 # SET VARIABLE RESTART REGISTER FOR P00.
TS PHSPRDT2
INHINT
CS NODOBIT # TURN OFF NODOFLAG
MASK FLAGWRD2
TS FLAGWRD2
CA FIVE # SET 2.5 RESTART FOR STATEINT1
TS L
COM
DXCH -PHASE2
CS BIT7-8 # RESET IMUSE + KILL P20 BY TURNING OFF
MASK FLAGWRD0
TS FLAGWRD0 # RENDFLG
CAF DNLADP00
COUNT 04/V37
SEUDOP00 TS DNLSTCOD # SET UP APPROPRIATE DOWNLIST.
# (OLD ONE WILL BE FINISHED FIRST)
CS OCT01120 # TURN OFF TRACK, TARG1, UPDATE FLAGS
TS EBANKTEM
MASK FLAGWRD1
TS FLAGWRD1
GROUPKIL TC IBNKCALL # KILL GROUPS 3(5,6
CADR V37KLEAN
CCS MMNUMBER # IS IT P00H
TCF RENDV00 # NO
# Page 201
TC IBNKCALL
CADR P00KLEAN # REDUNDANT EXCEPT FOR GROUP 4.
GOMOD CA MMNUMBER
TS MODREG
GOGOPROG TC POSTJUMP
CADR GOPROG2
RENDV00 CS MMNUMBER # IS NEW PROG = 20
AD OCT24 # 20
EXTEND
BZF RENDN00 # YES
TCF P00FIZZ
RENDN00 CS MMNUMBER
AD MODREG
EXTEND
BZF KILL20
CA FLAGWRD0 # IS RENDEZVOO FLAG SET
MASK RNDVZBIT
CCS A
TCF STATQUO
P00FIZZ CAF RNDVZBIT
MASK FLAGWRD0
CCS A
TCF REV37
KILL20 EXTEND # NO, KILL GROUPS 1 + 2
DCA NEG0
DXCH -PHASE1
EXTEND
DCA NEG0
DXCH -PHASE2
REV37 CAF V37QCAD # SET RESTART POINT
TS TEMPFLSH
TCF GOGOPROG
STATQUO CS FLAGWRD1 # SET TRACKFLAG AND UPDATE FLAG
MASK OCT120
ADS FLAGWRD1
EXTEND # KILL GROUP 4
DCA NEG0
DXCH -PHASE4
# Page 202
TCF GOMOD
NOUVEAU CAF RNDVZBIT
MASK FLAGWRD0
CCS A
TCF +3
TC DOWNFLAG # NO, RESET IMUSE FLAG.
ADRES IMUSE # BIT 8 FLAG 0
+3 INDEX MINDEX
CAF DNLADMM1 # OBTAIN NEW DOWNLIST ADDRESS
INHINT
TCF SEUDOP00
V37NONO TC FALTON # COME HERE IF MM REQUESTED DOESNT EXIST
TCF V37BAD
OCT00010 EQUALS BIT4
V37XEQ INHINT
INDEX MINDEX
CAF PREMM1
TS MMTEMP # OBTAIN PRIORITY BITS 15 - 11
TS CYR # SHIFT RIGHT TO BITS 14 - 10
CA CYR
MASK PRIO37
TS PHSPRDT4 # PRESET GROUP4 RESTART PRIORITY
TS NEWPRIO # STORE PRIO FOR SPVAC
CA MMTEMP # OBTAIN EBANK - BITS 8, 9, 10 OF MMTEMP.
EXTEND
MP BIT8
MASK LOW3
TS L
INDEX MINDEX
CAF FCADRMM1
TS BASETEMP
MASK HI5
ADS L
CA BASETEMP # OBTAIN GENADR PORTION OF 2CADR.
MASK LOW10
AD BIT11
TC SPVAC
V37XEQC CA MMTEMP # UPON RETURN FROM FINDVAC PLACE THE
MASK LOW7 # NEW MM IN MODREG (THE LOW 7 BITS OF
TC NEWMODEA # PHSBRDT1)
# Page 203
# FOR SUNDISK ONLY
TC RELDSP # RELEASE DISPLAY
TC ENDOFJOB # AND EXIT
INITSUB EXTEND
QXCH MPAC +1
CAF EBANK6 # SET E6 FOR DEADBAND CODING
TS EBANK # WILL BE RESET IN STARTSB2.
INHINT
TC STOPRATE
CA FLAGWRD9 # RESTORE DEADBAND
MASK MAXDBBIT
CCS A
TCF SETMAXER # MAX DB SELECTED
TC BANKCALL # MIN DB SELECTED
CADR SETMINDB
TCF RAKE
SETMAXER TC BANKCALL
CADR SETMAXDB
RAKE CAF ELEVEN # THIS PART CLEARS FLAGWORD BITS.
+1 TS MPAC # LOOP COMES HERE.
INDEX MPAC
CS FLAGTABL
INDEX MPAC
MASK FLAGWRD0
INDEX MPAC # PUT REVISED FLAGWORD BACK.
TS FLAGWRD0
CCS MPAC
TCF RAKE +1 # GET THE NEXT FLAGWORD.
RELINT
TC UPFLAG # NOW SET IMPULSW
ADRES IMPULSW
CA NEGONE
TS OPTIND
TC MPAC +1 # RETURN FROM INITSUB
FLAGTABL OCT 0
OCT 00040 # IDLEFAIL
OCT 06000 # P21FLAG, STEERSW
OCT 0
OCT 0
OCT 04140 # V59FLAG, ENGONFLG, 3AXISFLG
OCT 10000 # STRULLSW
OCT 16000
OCT 0
# Page 204
OCT 42000 # SWTOVER, V94FLAG
OCT 0
OCT 0
SETLOC VAC5LOC
BANK
VAC5STOR CA ZERO # INITIALIZE INDEX REGISTERS
TS ITEMP1
TS ITEMP2
V5LOOP1 EXTEND # LOOP TO STORE LOCS, BANKSETS, AND PRIOS.
INDEX ITEMP1
DCA LOC
INDEX ITEMP2
DXCH VAC5
INDEX ITEMP1
CA PRIORITY
INDEX ITEMP2
TS VAC5 +2
CS ITEMP2 # HAVE WE STORED THEM ALL?
AD EIGHTEEN
EXTEND
BZF V5OUT1 # YES, GET PHASE INFORMATION.
CA TWELVE # NO, INCREMENT INDEXES AND LOOP.
ADS ITEMP1
CA THREE
ADS ITEMP2
TCF V5LOOP1
EBANK= PHSNAME1
V5OUT1 CA EBANK3 # PHSNAME REGISTERS ARE IN EBANK3.
TS EBANK
CA ELEVEN # GET PHASE 2CADRS.
TC GENTRAN
ADRES PHSNAME1
ADRES VAC5 +21D
CA ZERO # NOW INITIALIZE INDEXES AGAIN.
TS ITEMP1
TS ITEMP2
V5LOOP2 INDEX ITEMP1 # LOOP TO GET PHASE TABLES.
CA PHASE1
INDEX ITEMP2
TS VAC5 +33D
# Page 205
CS ITEMP2 # DO WE HAVE THEM ALL?
AD FIVE
EXTEND
BZF V5OUT2 # YES, GO FINISH UP.
CA TWO # NO, INCREMENT INDEXES AND LOOP.
ADS ITEMP1
INCR ITEMP2
TCF V5LOOP2
V5OUT2 CA MPAC +3
TS VAC5 +39D
EXTEND
DCA NEWLOC
DXCH VAC5 +40D
CA NEWJOB
TS VAC5 +22D
CA NEWPRIO
TS VAC5 +26D
TC SWRETURN
EIGHTEEN OCT 22
SETLOC VERB37
BANK
NEG7 EQUALS OCT77770
OCT44571 OCT 44571 # CONSTANTS TO CLEAR CHANNEL BITS IN V37
OCT600 OCT 600
EBANK= PACTOFF
P00DAPAD 2CADR T5IDLOC
MMTEMP EQUALS PHSPRDT3
BASETEMP EQUALS TBASE4
BIT7-8 OCT 300
OCT01120 OCT 01120
V37QCAD CADR V37XEQ +3
R00AD CADR DUMMYAD
EBANK= DAPDATR1
RCSADDR4 2CADR RCSATT
3.1SEC OCT 37312 # 2.5 + 0.6 SEC
# FOR VERB 37 TWO TABLES ARE MAINTAINED. EACH TABLE HAS AN ENTRY FOR EACH
# MAJOR MODE THAT CAN BE STARTED FROM THE KEYBOARD. THE ENTRIES ARE PUT
# INTO THE TABLE WITH THE ENTRY FOR THE HIGHEST MAJOR MODE COMING FIRST,
# Page 206
# TO THE LOWEST MAJOR MODE WHICH IS THE LAST ENTRY IN EACH TABLE.
# THE FCADRMM TABLE CONTAINS THE FCADR OF THE STARTING JOB OF
# THE MAJOR MODE. FOR EXAMPLE,
# FCADRMM1 FCADR P79 # START OF P 79
# FCADR PROG18 # START OF P 18
# FCADR P01 # START OF P 01
FCADRMM1 EQUALS
FCADR P79
FCADR P78
FCADR P77
FCADR P76
FCADR P75
FCADR P74
FCADR P73
FCADR P72
FCADR P62
FCADR P61
FCADR P54
FCADR P53
FCADR PROG52
FCADR P51
FCADR P47CSM
FCADR P41CSM
FCADR P40CSM
FCADR P39
FCADR P38
FCADR P37
FCADR P35
FCADR P34
FCADR P33
FCADR P32
FCADR P31
FCADR P30
FCADR P23
FCADR PROG22
FCADR PROG21
FCADR PROG20
FCADR P17
FCADR P06
FCADR GTSCPSS1 # GYROCOMPASS STANDARD LEAD IN.
# THE PREMM TABLE CONTAINS THE E-BANK,MAJOR MODE, AND PRIORITY
# INFORMATION, IT IS IN THE FOLLOWING FORM,
# PPP PPE EEM MMM MMM
#
# Page 207
# WHERE THE 7 M BITS CONTAIN THE MAJOR MODE NUMBER
# 3 E BITS CONTAIN THE E-BANK NUMBER
# 5 P BITS CONTAIN THE PRIORITY AT WHICH THE JOB IS
# TO BE STARTED
# FOR EXAMPLE,
# PREMM1 OCT 67213 # PRIORITY 33
# # E-BANK 5
# # MAJOR MODE 11
# OCT 25437 # PRIORITY 12
# # E-BANK 6
# # MAJOR MODE 31
PREMM1 EQUALS
OCT 27117 # MM 79 EBANK 4 PRIO 13
OCT 27116 # MM 78 EBANK 4 PR23 13
OCT 27115 # MM 77 EBANK 4 PRIO 13
OCT 27714 # MM 76 EBANK 4 PRIO 13
OCT 27113 # MM 75 EBANK 4 PRIO 13
OCT 27112 # MM 74 EBANK 4 PRIO 13
OCT 27111 # MM 73 EBANK 4 PRIO 13
OCT 27110 # MM 72 EBANK 4 PRIO 13
OCT 27476 # MM 62 EBANK 6 PRIO 13
OCT 27475 # MM 61 EBANK 6 PRIO 13
OCT 27266 # MM 54 EBANK 5 PRIO 13
OCT 27265 # MM 53 EBANK 5 PRIO 13
OCT 27264 # MM 52 EBANK 5 PRIO 13
OCT 27263 # MM 51 EBANK 5 PRIO 13
OCT 27657 # MM 47 EBANK 7 PRIO 13
OCT 27451 # MM 41 EBANK 6 PRIO 13
OCT 27450 # MM 40 EBANK 6 PRIO 13
OCT 27047 # MM 39 EBANK 4 PRIO 13
OCT 27046 # MM 38 EBANK 4 PRIO 13
OCT 27645 # MM 37 EBANK 7 PRIO 13
OCT 27043 # MM 35 EBANK 4 PRIO 13
OCT 27042 # MM 34 EBANK 4 PRIO 13
OCT 27041 # MM 33 EBANK 4 PRIO 13
OCT 27040 # MM 32 EBANK 4 PRIO 13
OCT 27637 # MM 31 EBANK 7 PRIO 13
OCT 27636 # MM 30 EBANK 7 PRIO 13
OCT 27227 # MM 23 EBANK 5 PRIO 13
OCT 27226 # MM 22 EBANK 5 PRIO 13
OCT 27025 # MM 21 EBANK 4 PRIO 13
OCT 27424 # MM 20 EBANK 6 PRIO 13
OCT 27021 # MM 17 EBANK 6 PRIO 13
OCT 27006 # MM 06 EBANK 4 PRIO 13
OCT 41201 # MM 01 EBANK 5 PRIO 20
# Page 208
# THE FOLLOWING LIST IS FOR THE PURPOSE OF VERIFYING THAT THE EBA
EBANK= TIG # EBANK SETTING REQUIRED BY MM 76
EBANK= KT # EBANK SETTING REQUIRED BY MM 75
EBANK= SUBEXIT # EBANK SETTING REQUIRED BY MM 74
EBANK= SUBEXIT # EBANK SETTING REQUIRED BY MM 73
EBANK= SUBEXIT # EBANK SETTING REQUIRED BY MM 72
EBANK= AOG # EBANK SETTING REQUIRED BY MM 62
EBANK= AOG # EBANK SETTING REQUIRED BY MM 61
EBANK= BESTI # EBANK SETTING REQUIRED BY MM 54
EBANK= STARIND # EBANK SETTING REQUIRED BY MM 53
EBANK= BESTI # EBANK SETTING REQUIRED BY MM 52
EBANK= STARIND # EBANK SETTING REQUIRED BY MM 51
EBANK= P40TMP # EBANK SETTING REQUIRED BY MM 47
EBANK= DAPDATR1 # EBANK SETTING REQUIRED BY MM 41
EBANK= KMPAC # EBANK SETTING REQUIRED BY MM 40
EBANK= KT # EBANK SETTING REQUIRED BY MM 35
EBANK= SUBEXIT # EBANK SETTING REQUIRED BY MM 34
EBANK= SUBEXIT # EBANK SETTING REQUIRED BY MM 33
EBANK= SUBEXIT # EBANK SETTING REQUIRED BY MM 32
EBANK= +MGA # EBANK SETTING REQUIRED BY MM 30
EBANK= LANDMARK # EBANK SETTING REQUIRED BY MM 23
EBANK= MARKINDX # EBANK SETTING REQUIRED BY MM 22
EBANK= WHOCARES # EBANK SETTING REQUIRED BY MM 21
EBANK= ESTROKER # EBANK SETTING REQUIRED BY MM 20
EBANK= TIME2SAV # EBANK SETTING REQUIRED BY MM 06
EBANK= QPLACE # EBANK SETTING REQUIRED BY MM 01
# NOTE, THE FOLLOWING CONSTANT IS THE NUMBER OF ENTRIES IN EACH OF
# ---- THE ABOVE LISTS-1(IE, THE NUMBER OF MAJOR MODES(EXCEPT P00)
# THAT CAN BE CALLED FROM THE KEYBOARD MINUS ONE)
EPREMM1 EQUALS # END OF PREMM1 TABLE
SETLOC PREMM1 # THIS CODING WILL AUTOMATICALLY CHANGE
NO.MMS =MINUS EPREMM1 # THE "NOV37MM" CONSTANT AS ENTRIES ARE
SETLOC VERB37 # INSERTED(IN) OR DELETED(FROM) THE
BANK # "PREMM1" TABLE.
NOV37MM ADRES NO.MMS -1 # ITEMS IN "PREMM1"TABLE - 1. *DON'T MOVE*
DNLADMM1 EQUALS
ADRES RENDEZVU # P79
ADRES RENDEZVU # P78
ADRES RENDEZVU # P77
ADRES RENDEZVU # P76
ADRES RENDEZVU # P75
ADRES RENDEZVU # P74
ADRES RENDEZVU # P73
# Page 209
ADRES RENDEZVU # P72
ADRES ENTRYUPD # P62
ADRES POWERED # P61
ADRES COSTALIN
ADRES COSTALIN
ADRES COSTALIN # P52
ADRES COSTALIN # P51
ADRES POWERED # P47
ADRES POWERED # P41
ADRES POWERED # P40
ADRES RENDEZVU # P39
ADRES RENDEZVU # P38
ADRES RENDEZVU # P37
ADRES RENDEZVU # P35
ADRES RENDEZVU # P34
ADRES RENDEZVU # P33
ADRES RENDEZVU # P32
ADRES RENDEZVU
ADRES RENDEZVU # P30
ADRES RENDEZVU # P23
ADRES P22DNLST # P22
ADRES RENDEZVU # P21
ADRES RENDEZVU # P20
ADRES RENDEZVU # P17
ADRES COSTALIN # P06
ADRES COSTALIN # P01
DNLADP00 = ZERO
COSTALIN = 0
ENTRYUPD = 1
RENDEZVU = 2
POWERED = 3
P22DNLST = 4
# ORBITAL INTEGRATION CONSTANTS
# THESE CONSTANTS ARE USED IN COMPUTING THE SETTING OF MIDFLAG.
RMM 2DEC 2538.09 E3 B-27 # 800 KM ABOVE LUNAR SURFACE
RME 2DEC 7178165 B-29 # 800 KM ABOVE EQ. RADIUS
BANK 13
SETLOC INTINIT
BANK
COUNT* $$/INTIN
EBANK= RRECTCSM
STATEUP SET BOF # EXTRAPOLATE CM STATE VECTOR
VINTFLAG
# Page 210
ORBWFLAG # ALSO 6X6 W-MATRIX IF VALID
+3 # FOR ORBITAL NAVIGATION
SET
DIM0FLAG
CLEAR CALL
PRECIFLG
INTEGRV
BON DLOAD
SURFFLAG
STATEND
TETCSM
STCALL TDEC1
INTSTALL
CLEAR CALL # EXTRAPOLATE LM STATE VECTOR
VINTFLAG
SETIFLGS # AND 6X6 W-MATRIX IF VALID
BOF SET
RENDWFLG # FOR RENDEZVOUS NAVIGATION
+2
DIM0FLAG
SET CALL
PRECIFLG
INTEGRV
STATEND CLRGO
NODOFLAG
ENDINT
# THISVINT IS CALLED BY MIDTOAV1 AND2
THISVINT SET RVQ
VINTFLAG
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