Apollo-11/Luminary099/SERVICER.s
2016-07-11 22:41:57 -05:00

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ArmAsm

# Copyright: Public domain.
# Filename: SERVICER.agc
# Purpose: Part of the source code for Luminary, build 099. It
# is part of the source code for the Lunar Module's
# (LM) Apollo Guidance Computer (AGC), Apollo 11.
# Assembler: yaYUL
# Reference: pp. 857-897
# Contact: Ron Burkey <info@sandroid.org>,
# Fabrizio Bernardini <fabrizio@spacecraft.it>
# Website: http://www.ibiblio.org/apollo.
# Mod history: 2009-06-01 FB Transcription Batch 4 Assignment.
# 2009-06-05 RSB Fixed a couple of typos, plus a goofy relative
# label reference from the original source.
#
# The contents of the "Luminary099" files, in general, are transcribed
# from scanned documents.
#
# Assemble revision 001 of AGC program Luminary099 by NASA
# 2021112-061. July 14, 1969.
#
# 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 857
BANK 37
SETLOC SERV1
BANK
EBANK= DVCNTR
# ************* PREREAD *******************
COUNT* $$/SERV
PREREAD CAF SEVEN # 5.7 SPOT TO SKIP LASTBIAS AFTER
TC GNUFAZE5 # RESTART.
CAF PRIO21
TC NOVAC
EBANK= NBDX
2CADR LASTBIAS # DO LAST GYRO COMPENSATION IN FREE FALL
BIBIBIAS TC PIPASR +3 # CLEAR + READ PIPS LAST TIME IN FRE5+F133
# DO NOT DESTROY VALUE OF PIPTIME1
CS FLAGWRD7
MASK SUPER011 # SET V37FLAG AND AVEGFLAG (BITS 5 AND 6
ADS FLAGWRD7 # OF FLAGWRD7)
CS DRFTBIT
MASK FLAGWRD2 # RESET DRIFTFLAG
TS FLAGWRD2
CAF FOUR # INITIALIZE DV MONITOR
TS PIPAGE
CAF ENDJBCAD # POINT OUTROUTE TO END-OF-JOB.
TS OUTROUTE
CAF PRIO22
TC FINDVAC # TO FIRST ENTRY TO AVERAGE G
EBANK= DVCNTR
2CADR NORMLIZE
CA TWO # 5.2SPOT FOR REREADAC AND NORMLIZE
GOREADAX TC GNUTFAZ5
CA 2SECS # WAIT TWO SECONDS FOR READACCS
TC VARDELAY
# Page 858
# ************* READACCS ****************
READACCS CS OCT37771 # THIS PIECE OF CODING ATTEMPTS TO
AD TIME5 # SYNCHRONIZE READACCS WITH THE DIGITAL
CCS A # AUTOPILOT SO THAT A PAXIS RUPT WILL
CS ONE # OCCUR APPROXIMATELY 70 MILLISECONDS
TCF +2 # FOLLOWING THE READACCS RUPT. THE 70 MS
CA ONE # OFFSET WAS CHOSEN SO THAT THE PAXIS
+2 ADS TIME5 # RUPT WOULD NOT OCCUR SIMULTANEOUSLY
# WITH ANY OF THE 8 SUBSEQUENT R10,R11
# INTERRUPTS -- THUS MINIMIZING THE POSS-
# IBILITY OF LOSING DOWNRUPTS.
TC PIPASR # READ THE PIPAS.
PIPSDONE CA FIVE
TC GNUFAZE5
REDO5.5 CAF ONE
TS PIPAGE
CA PRIO20
TC FINDVAC
EBANK= DVCNTR
2CADR SERVICER # SET UP SERVICER JOB
CA BIT9
EXTEND
WOR DSALMOUT # TURN ON TEST CONNECTOR OUTBIT
CA FLAGWRD7
MASK AVEGFBIT
EXTEND
BZF AVEGOUT # AVEGFLAG DOWN -- SET UP FINAL EXIT
CA FLAGWRD6
MASK MUNFLBIT
EXTEND
BZF MAKEACCS # MUNFLAG CLEAR -- BYPASS LR AND DISP.
CCS PHASE2
TCF MAKEACCS # PHASE 2 ACTIVATED -- AVOID MULTIPLE R10.
CAF SEVEN # SET PIPCTR FOR 4X/SEC RATE.
TS PIPCTR
CS TIME1 # SET TBASE2 .05 SECONDS IN THE PAST.
AD FIVE
AD NEG1/2
AD NEG1/2
XCH TBASE2
# Page 859
CAF DEC17 # 2.21SPOT FOR R10,R11
TS L
COM
DXCH -PHASE2
CAF OCT24 # FIRST R10,R11 IN .200 SECONDS
TC WAITLIST
EBANK= UNIT/R/
2CADR R10,R11
MAKEACCS CA FOUR
TCF GOREADAX # DO PHASE CHANGE AND RECALL READACCS
AVEGOUT EXTEND
DCA AVOUTCAD # SET UP FINAL SERVICER EXIT
DXCH AVGEXIT
CA FOUR # SET 5.4 SPOT FOR REREADAC AND SERVICER
TC GNUTFAZ5 # IF REREADAC IS CALLED, IT WILL EXIT
TC TASKOVER # END TASK WITHOUT CALLING READACCS
GNUTFAZ5 TS L # SAVE INPUT IN L
CS TIME1
TS TBASE5 # SET TBASE5
TCF +2
GNUFAZE5 TS L # SAVE INPUT IN L
CS L # -PHASE IN A, PHASE IN L.
DXCH -PHASE5 # SET -PHASE5,PHASE5
TC Q
EBANK= DVCNTR
AVOUTCAD 2CADR AVGEND
ENDJBCAD CADR SERVEXIT +2
OCT37771 OCT 37771
BANK 33
SETLOC SERVICES
BANK
COUNT* $$/SERV
# Page 860
# ************* SERVICER ****************
SERVICER TC PHASCHNG # RESTART REREADAC + SERVICER
OCT 16035
OCT 20000
EBANK= DVCNTR
2CADR GETABVAL
CAF PRIO31 # INITIALIZE 1/PIPADT IN CASE RESTART HAS
TS 1/PIPADT # CAUSED LASTBIAS TO BE SKIPPED.
TC BANKCALL # PIPA COMPENSATION CALL
CADR 1/PIPA
GETABVAL TC INTPRET
VLOAD ABVAL
DELV
EXIT
CA MPAC
TS ABDELV # ABDELV = CM/SEC*2(-14).
EXTEND
MP KPIP
DXCH ABDVCONV # ABDVCONV = M/CS * 2(-5).
EXTEND
DCA MASS
DXCH MASS1 # INITIALIZE MASS1 IN CASE WE SKIP MASSMON
MASSMON CS FLAGWRD8 # ARE WE ON THE SURFACE?
MASK SURFFBIT
EXTEND
BZF MOONSPOT # YES: BYPASS MASS MESS
CA FLGWRD10 # NO: WHICH VEX SHOULD BE USED?
MASK APSFLBIT
CCS A
EXTEND # IF EXTEND IS EXECUTED, APSVEX --> A,
DCA APSVEX # OTHERWISE DPSVEX --> A
TS Q
EXTEND
DCA ABDVCONV
EXTEND
OCT10002 DV Q # WHERE APPROPRIATE VEX RESIDES
EXTEND
MP MASS
DAS MASS1
MOONSPOT CA KPIP1 # TP MPAC = ABDELV AT 2(14) CM/SEC
TC SHORTMP # MULTIPLY BY KPIP1 TO GET
# Page 861
DXCH MPAC # ABDELV AT 2(7) M/CS
DAS DVTOTAL # UPDATE DVTOTAL FOR DISPLAY
TC TMPTOSPT
TC BANKCALL
CADR QUICTRIG
CAF XNBPIPAD
TC BANKCALL
CADR FLESHPOT
TC INTPRET
AVERAGEG BON CALL
MUNFLAG
RVBOTH
CALCRVG
EXIT
GOSERV TC QUIKFAZ5
COPYCYCL TC COPYCYC
# CA ZERO # A IS ZERO ON RETURN FROM COPYCYC
TS PIPATMPX
TS PIPATMPY
TS PIPATMPZ
CS STEERBIT # CLEAR STEERSW PRIOR TO DVMON.
MASK FLAGWRD2
TS FLAGWRD2
CAF IDLEFBIT # IS THE IDLE FLAG SET?
MASK FLAGWRD7
CCS A
TCF NODVMON1 # IDLEFLAG = 1, HENCE SET AUXFLAG TO 0.
CS FLAGWRD6
MASK AUXFLBIT
CCS A
TCF NODVMON2 # AUXFLAG = 0, HENCE SET AUXFLAG TO 1.
DVMON CS DVTHRUSH
AD ABDELV
EXTEND
BZMF LOTHRUST
CS FLAGWRD2 # SET STEERSW.
MASK STEERBIT
ADS FLAGWRD2
DVCNTSET CAF ONE # ALLOW TWO PASSES MAXIMUM NOW THAT
# Page 862
TS DVCNTR # THRUST HAS BEEN DETECTED.
CA FLGWRD10 # BRANCH IF APSFLAG IS SET.
MASK APSFLBIT
CCS A
TCF USEJETS
CA BIT9 # CHECK GIMBAL FAIL BIT
EXTEND
RAND CHAN32
EXTEND
BZF USEJETS
USEGTS CS USEQRJTS
MASK DAPBOOLS
TS DAPBOOLS
TCF SERVOUT
NODVMON1 CS AUXFLBIT # SET AUXFLAG TO 0.
MASK FLAGWRD6
TS FLAGWRD6
TCF USEJETS
NODVMON2 CS FLAGWRD6 # SET AUXFLAG TO 1.
MASK AUXFLBIT
ADS FLAGWRD6
TCF USEJETS
LOTHRUST TC QUIKFAZ5
CCS DVCNTR
TCF DECCNTR
CCS PHASE4 # COMFAIL JOB ACTIVE?
TCF SERVOUT # YES: WON'T NEED ANOTHER.
TC PHASCHNG # 4.37SPOT FOR COMFAIL.
OCT 00374
CAF PRIO25
TC NOVAC
EBANK= WHICH
2CADR COMFAIL
TCF SERVOUT
DECCNTR TS DVCNTR1
TC QUIKFAZ5
CA DVCNTR1
TS DVCNTR
INHINT
TC IBNKCALL # IF THRUST IS LOW, NO STEERING IS DONE
# Page 863
CADR STOPRATE # AND THE DESIRED RATES ARE SET TO ZERO.
USEJETS CS DAPBOOLS
MASK USEQRJTS
ADS DAPBOOLS
SERVOUT RELINT
TC BANKCALL
CADR 1/ACCS
CA PRIORITY
MASK LOW9
TS PUSHLOC
ZL
DXCH FIXLOC # FIXLOC AND DVFIND
TC QUIKFAZ5
EXTEND # EXIT TO SELECTED ROUTINE WHETHER THERE
DCA AVGEXIT # IS THRUST OR NOT. THE STATE OF STEERSW
DXCH Z # WILL CONVEY THIS INFORMATION.
XNBPIPAD ECADR XNBPIP
BANK 32
SETLOC SERV2
BANK
COUNT* $$/SERV
AVGEND CA PIPTIME +1 # FINAL AVERAGE G EXIT
TS 1/PIPADT # SET UP FREE FALL GYRO COMPENSATION.
TC UPFLAG # SET DRIFT FLAG.
ADRES DRIFTFLG
TC BANKCALL
CADR PIPFREE
CS BIT9
EXTEND
WAND DSALMOUT
TC 2PHSCHNG
OCT 5 # GROUP 5 OFF
OCT 05022 # GROUP 2 ON
OCT 20000
TC INTPRET
SET CLEAR
NOR29FLG # SHUT OFF R29 WHEN SERVICER ENDS.
SWANDISP # SHUT OFF R10 WHEN SERVICER ENDS.
CLEAR CALL # RESET MUNFLAG.
MUNFLAG
# Page 864
AVETOMID
CLEAR EXIT
V37FLAG
AVERTRN CA OUTROUTE # RETURN TO DESIRED POINT.
TC BANKJUMP
OUTGOAVE = AVERTRN
DVCNTR1 = MASS1
# Page 865
SETLOC SERV3
BANK
COUNT* $$/SERV
SERVIDLE EXTEND # DISCONNECT SERVICER FROM ALL GUIDANCE
DCA SVEXTADR
DXCH AVGEXIT
CS FLAGWRD7 # DISCONNECT THE DELTA-V MONITOR
MASK IDLEFBIT
ADS FLAGWRD7
CAF LRBYBIT # TERMINATE R12 IS RUNNING.
TS FLGWRD11
EXTEND
DCA NEG0
DXCH -PHASE1
CA FLAGWRD6 # DO NOT TURN OFF PHASE 2 IF MUNFLAG SET.
MASK MUNFLBIT
CCS A
TCF +4
EXTEND
DCA NEG0
DXCH -PHASE2
+4 EXTEND
DCA NEG0
DXCH -PHASE3
EXTEND
DCA NEG0
DXCH -PHASE6
CAF OCT33 # 4.33SPOT FOR GOP00FIX
TS L
COM
DXCH -PHASE4
TCF WHIMPER # PERFORM A SOFTWARE RESTART AND PROCEED
# TO GOTOP00H WHILE SERVICER CONTINUES TO
# RUN, ALBEIT IN A GROUND STATE WHERE
# ONLY STATE-VECTOR DEPENDENT FUNCTIONS
# ARE MAINTAINED.
EBANK= DVCNTR
# Page 866
SVEXTADR 2CADR SERVEXIT
BANK 32
SETLOC SERV
BANK
COUNT* $$/SERV
SERVEXIT TC PHASCHNG
OCT 00035
+2 TCF ENDOFJOB
BANK 23
SETLOC NORMLIZ
BANK
COUNT* $$/SERV
# Page 867
NORMLIZE TC INTPRET
VLOAD BOFF
RN1
MUNFLAG
NORMLIZ1
VSL6 MXV
REFSMMAT
STCALL R
MUNGRAV
VLOAD VSL1
VN1
MXV
REFSMMAT
STOVL V
V(CSM)
VXV UNIT
R(CSM)
STORE UHYP
ASCSPOT EXIT
EXTEND # MAKE SURE GROUP 2 IS OFF
DCA NEG0
DXCH -PHASE2
TC POSTJUMP
CADR NORMLIZ2
BANK 33
SETLOC SERVICES
BANK
COUNT* $$/SERV
NORMLIZ1 CALL
CALCGRAV
EXIT
NORMLIZ2 CA EIGHTEEN
TC COPYCYC +1 # DO NOT COPY MASS IN NORMLIZE
TC ENDOFJOB
COPYCYC CA OCT24 # DEC 20
+1 INHINT
+2 MASK NEG1 # REDUCE BY 1 IF ODD
TS ITEMP1
EXTEND
INDEX ITEMP1
DCA RN1
INDEX ITEMP1
# Page 868
DXCH RN
CCS ITEMP1
TCF COPYCYC +2
TC Q # RETURN UNDER INHINT
EIGHTEEN DEC 18
# Page 869
# ************* PIPA READER *****************
# MOD NO. 00 BY D. LICKLY, DEC. 9 1966
#
# FUNCTIONAL DESCRIPTION
# SUBROUTINE TO READ PIPA COUNTERS, TRYING TO BE VERY CAREFUL SO THAT WILL BE RESTARTABLE.
# PIPA READINGS ARE STORED IN THE VECTOR DELV. THE HIGH ORDER PART OF EACH COMPONENT CONTAINS THE PIPA READING,
# RESTARTS BEGIN AT REREADAC.
#
# AT THE END OF THE PIPA READER THE CDUS ARE READ AND STORED AS A
# VECTOR IN CDUTEMP. THE HIGH ORDER PART OF EACH COMPONENT CONTAINS
# THE CDU READING IN 25 COMP IN THE ORDER CDUX,Y,Z. THE THRUST
# VECTOR ESTIMATOR IN FINDCDUD REQUIRES THE CDUS BE READ AT PIPTIME.
#
# CALLING SEQUENCE AND EXIT
# CALL VIA TC, ISWCALL, ETC.
# EXIT IS VIA Q.
#
# INPUT
# INPUT IS THROUGH THE COUNTERS PIPAX, PIPAY, PIPAZ, AND TIME2.
#
# OUTPUT
# HIGH ORDER COMPONENTS OF THE VECTOR DELV CONTAIN THE PIPA READINGS.
# PIPTIME CONTAINS TIME OF PIPA READING.
#
# DEBRIS (ERASABLE LOCATIONS DESTROYED BY PROGRAM)
# TEMX, TEMY, TEMZ, PIPAGE
BANK 37
SETLOC SERV1
BANK
COUNT* $$/SERV
PIPASR EXTEND
# Page 870
DCA TIME2
DXCH PIPTIME1 # CURRENT TIME POSITIVE VALUE
+3 CS ZERO # INITIALIZE THESE AT NEG. ZERO.
TS TEMX
TS TEMY
TS TEMZ
CA ZERO
TS DELVZ
TS DELVZ +1
TS DELVY
TS DELVY +1
TS DELVX +1
TS PIPAGE # SHOW PIPA READING IN PROGRESS
REPIP1 EXTEND
DCS PIPAX # X AND Y PIPS READ
DXCH TEMX
DXCH PIPAX # PIPAS SET TO NEG ZERO AS READ.
TS DELVX
LXCH DELVY
REPIP3 CS PIPAZ # REPEAT PROCESS FOR Z PIP
XCH TEMZ
XCH PIPAZ
DODELVZ TS DELVZ
REPIP4 EXTEND # COMPUTE GUIDANCE PERIOD
DCA PIPTIME1
DXCH PGUIDE
EXTEND
DCS PIPTIME
DAS PGUIDE
CA CDUX # READ CDUS INTO HIGH ORDER CDUTEMPS
TS CDUTEMPX
CA CDUY
TS CDUTEMPY
CA CDUZ
TS CDUTEMPZ
CA DELVX
TS PIPATMPX
CA DELVY
TS PIPATMPY
CA DELVZ
TS PIPATMPZ
TC Q
# Page 871
REREADAC CCS PIPAGE
TCF READACCS # PIP READING NOT STARTED. GO TO BEGINNING
CAF DONEADR # SET UP RETURN FROM PIPASR
TS Q
CCS DELVZ
TCF REPIP4 # Z DONE, GO DO CDUS
TCF +3 # Z NOT DONE, CHECK Y.
TCF REPIP4
TCF REPIP4
ZL
CCS DELVY
TCF +3
TCF CHKTEMX # Y NOT DONE, CHECK X.
TCF +1
LXCH PIPAZ # Y DONE, ZERO Z PIP.
CCS TEMZ
CS TEMZ # TEMZ NOT = -0, CONTAINS -PIPAZ VALUE.
TCF DODELVZ
TCF -2
LXCH DELVZ # TEMZ = -0, L HAS ZPIP VALUE.
TCF REPIP4
CHKTEMX CCS TEMX # HAS THIS CHANGED
CS TEMX # YES
TCF +3 # YES
TCF -2 # YES
TCF REPIP1 # NO
TS DELVX
CS TEMY
TS DELVY
CS ZERO # ZERO X AND Y PIPS
DXCH PIPAX # L STILL ZERO FROM ABOVE
TCF REPIP3
DONEADR GENADR PIPSDONE
# Page 872
BANK 33
SETLOC SERVICES
BANK
COUNT* $$/SERV
TMPTOSPT CA CDUTEMPY # THIS SUBROUTINE, CALLED BY AN RTB FROM
TS CDUSPOTY # INTERPRETIVE, LOADS THE CDUS CORRESPON-
CA CDUTEMPZ # DING TO PIPTIME INTO THE CDUSPOT VECTOR.
TS CDUSPOTZ
CA CDUTEMPX
TS CDUSPOTX
TC Q
# LRHTASK IS A WAITLIST TASK SET BY READACCS DURING THE DESCENT BRAKING
# PHASE WHEN THE ALT TO THE LUNAR SURFACE IS LESS THAN 25,000 FT. THIS
# TASK CLEARS THE ALTITUDE MEASUREMENT MADE DISCRETE AND INITIATES THE
# LANDING RADAR MEASUREMENT JOB (LRHJOB) TO TAKE A ALTITUDE MEASUREMENT
# 50 MS PRIOR TO THE NEXT READACCS TASK.
BANK 21
SETLOC R10
BANK
COUNT* $$/SERV
LRHTASK CS FLGWRD11
MASK LRBYBIT
EXTEND
BZF GRP2OFF # LR BYPASS SET -- BYPASS ALL LR READING.
CA READLBIT
MASK FLGWRD11 # IS READLR FLAG SET?
EXTEND
BZF GRP2OFF # NO. BYPASS LR READ.
CS FLGWRD11
MASK NOLRRBIT # IS LR READ INHIBITED?
EXTEND
BZF GRP2OFF # YES. BYPASS LR READ.
CA PRIO32 # LR READ OK. SET JOB TO DO IT
TC NOVAC # ABOUT 50 MS. PRIOR TO PIPA READ.
EBANK= HMEAS
2CADR LRHJOB
GRP2OFF EXTEND
DCA NEG0
DXCH -PHASE2
TCF R10,R11A
BANK 33
SETLOC SERVICES
BANK
# Page 873
COUNT* $$/SERV
# HIGATASK IS ENTERED APPROXIMATELY 6 SECS PRIOR TO HIGATE DURING THE
# DESCENT PHASE. HIGATASK SETS THE HIGATE FLAG (BIT11) AND THE LR INHIBIT
# FLAG (BIT10) IN LRSTAT. THE HIGATJOB IS SET UP TO REPOSITION THE LR
# ANTENNA FROM POSITION 1 TO POSITION 2. IF THE REPOSITIONING IS
# SUCCESSFUL THE ALT BEAM AND VELOCITY BEAMS ARE TRANSFORMED TO THE NEW
# ORIENTATION IN NB COORDINATES AND STORED IN ERASABLE.
HIGATASK INHINT
CS PRIO3 # SET HIGATE AND LR INHIBIT FLAGS
MASK FLGWRD11
AD PRIO3
TS FLGWRD11
CAF PRIO32
TC FINDVAC # SET LR POSITIONING JOB (POS2)
EBANK= HMEAS
2CADR HIGATJOB
TCF CONTSERV # CONTINUE SERVICER
# Page 874
# MUNRETRN IS THE RETURN LOC FROM SPECIAL AVE G ROUTINE (MUNRVG)
MUNRETRN EXIT
CS FLGWRD11
MASK LRBYBIT
EXTEND
BZF COPYCYC1 # BYPASS LR LOGIC IF BIT15 IS SET.
CA READLBIT # SEE IF ALT < 35000 FT LAST CYCLE
MASK FLGWRD11
EXTEND
BZF 35KCHK # ALT WAS > 35000 FT LAST CYCLE CHK NOW
CAF XORFLBIT # WERE WE BELOW 30000 FT LAST PASS?
MASK FLGWRD11
EXTEND
BZF XORCHK # NO -- TEST THIS PASS
HITEST CAF PSTHIBIT # CHECK FOR HIGATE
MASK FLGWRD11
EXTEND
BZF HIGATCHK # NOT AT HIGATE LAST CYCLE -- CHK THIS CYCLE
POS2CHK CAF BIT7 # VERIFY LR IN POS2
EXTEND
RAND CHAN33
EXTEND
BZF UPDATCHK # IT IS -- CHECK FOR LR UPDATE
CAF BIT13
EXTEND
RAND CHAN12
EXTEND
BZF LRPOSALM # LR NOT IN POS2 OR REPOSITIONING -- BAD
TCF CONTSERV # LR BEING REPOSITIONED -- CONTINUE SERV
HIGATCHK CA TTF/8 # IS TTF > CRITERION? (TTF IS NEGATIVE)
AD RPCRTIME
EXTEND
BZMF POS1CHK # NO
CA EBANK4 # MUST SWITCH EBANKS
XCH EBANK
TS L # SAVE IN L
EBANK= XNBPIP
CS XNBPIP # UXBXP IN GSOP CH5
EBANK= DVCNTR
LXCH EBANK # RESTORE EBANK
AD RPCRTQSW # QSW - UXBXP
# Page 875
EXTEND
BZMF HIGATASK # IF UXBXP > QSW, THEN REPOSITION
POS1CHK CAF BIT6 # HIGATE NOT IN SIGHT -- DO POS1 CHK
EXTEND
RAND 33
EXTEND
BZF UPDATCHK # LR IN POS1 -- CHECK FOR LR UPDATE
LRPOSALM TC ALARM # LR NOT IN PROPER POS-ALARM-BYPASS UPDATE
OCT 511 # AND CONTINUE SERVICER
CONTSERV INHINT
CS BITS4-7
MASK FLGWRD11 # CLEAR LR MEASUREMENT MADE DISCRETES.
TS FLGWRD11
TC IBNKCALL # SET LR LITES PROPERLY
CADR R12LITES
# Page 876
COPYCYC1 TC QUIKFAZ5
R29? CA FLAGWRD3
MASK NR29&RDR
CCS A # IS NOR29FLG OR READRFLG SET?
TCF R29NODES # YES, SO DON'T DESIGNATE.
CA RADMODES # NO, SO R29 IS CALLED FOR.
MASK OCT10002 # IS THE RR NOT ZEROING ITS CDUS, AND
CCS A # IS THE RENDEZVOUS RADAR IN AUTO MODE?
TCF R29NODES # NO, SO DON'T DESIGNATE.
CA RADMODES
MASK PRIO22
CCS A # IS RR REPOSITIONING OR REMODING?
TCF NOR29NOW # YES: COME BACK IN 2 SECONDS & TRY AGAIN.
TCF R29
R29NODES INHINT # R29 NOT ALLOWED THIS CYCLE.
CS DESIGBIT # SHOW THAT DESIGNATION IS OFF.
MASK RADMODES
TS RADMODES
NOR29NOW TC INTPRET # INTPRET DOES A RELINT.
VLOAD ABVAL # MPAC = ABVAL( NEW SM. POSITION VECTOR )
R1S
PUSH DSU # (2)
/LAND/
STORE HCALC # NEW HCALC*2(24)M.
STORE HCALC1
DMPR RTB
ALTCONV
SGNAGREE
STOVL ALTBITS # ALTITUDE FOR R10 IN BIT UNITS.
UNIT/R/
VXV UNIT
UHYP
STOVL UHZP # DOWNRANGE HALF-UNIT VECTOR FOR R10.
R1S
VXM VSR4
REFSMMAT
STOVL RN1 # TEMP. REF. POSITION VECTOR*2(29)M.
V1S
VXM VSL1
REFSMMAT
STOVL VN1 # TEMP. REF. VELOCITY VECTOR 2(7) M/CS.
UNIT/R/
VXV ABVAL
# Page 877
V1S
SL1 DSQ
DDV
DMPR RTB
ARCONV1
SGNAGREE
COPYCYC2 EXIT # LEAVE ALTITUDE RATE COMPENSATION IN MPAC
INHINT
CA UNIT/R/ # UPDATE RUNIT FOR R10.
TS RUNIT
CA UNIT/R/ +2
TS RUNIT +1
CA UNIT/R/ +4
TS RUNIT +2
CA MPAC # LOAD NEW DALTRATE FOR R10.
TS DALTRATE
EXTEND
DCA R1S
DXCH R
EXTEND
DCA R1S +2
DXCH R +2
EXTEND
DCA R1S +4
DXCH R +4
EXTEND
DCA V1S
DXCH V
EXTEND
DCA V1S +2
DXCH V +2
EXTEND
DCA V1S +4
DXCH V +4
TCF COPYCYCL # COMPLETE THE COPYCYCL.
# Page 878
# ALTCHK COMPARES CURRENT ALTITUDE (IN HCALC) WITH A SPECIFIED ALTITUDE FROM A TABLE BEGINNING AT ALTCRIT.
# ITS CALLING SEQUENCE IS AS FOLLOWS:-
#
# L CAF N
# L+1 TC BANKCALL
# L+2 CADR ALTCHK
# L+3 RETURN HERE IF HCALC STILL > SPECIFIED CRITERION. C(L) = +0.
# L+4 RETURN HERE IF HCALC < OR = SPECIFIED CRITERION. C(A) = C(L) = +0
#
# ALTCHK MUST BE BANKCALLED EVEN FROM ITS OWN BANK. N IS THE LOCATION, RELATIVE TO THE TAG ALTCRIT,
# OF THE BEGINNING OF THE DP CONSTANT TO BE USED AS A CRITERION.
ALTCHK EXTEND
INDEX A
DCA ALTCRIT
DXCH MPAC +1
EXTEND
DCS HCALC
DAS MPAC +1
TC BRANCH +4
CAF ZERO # BETTER THAN A NOOP, PERHAPS
INCR BUF2
TCF SWRETURN
ALTCRIT = 25KFT
25KFT 2DEC 7620 B-24 # (0)
50KFT 2DEC 15240 B-24 # (2)
50FT 2DEC 15.24 B-24 # (4)
30KFT 2DEC 9144 B-24 # (6)
2KFT/SEC DEC 6.096 B-7 # 2000 FT/SEC AT 2(7) M/CS
# (A remark was likely to be needed here to explain XORCHK) 4/Jun/09,FB
XORCHK CAF SIX # ARE WE BELOW 30000 FT?
TC BANKCALL
CADR ALTCHK
TCF HITEST # CONTINUE LR UPDATE
TC UPFLAG # YES: INHIBIT X-AXIS OVERRIDE
ADRES XOVINFLG
TC UPFLAG
ADRES XORFLG
TCF HITEST # CONTINUE LR UPDATE
35KCHK CAF TWO # ARE WE BELOW 35000 FT?
# Page 879
TC BANKCALL
CADR ALTCHK
TCF CONTSERV
TC UPFLAG
ADRES READLR # SET READLR FLAG TO ENABLE LR READING.
TCF CONTSERV
# Page 880
# ***************************************************************
CALCGRAV UNIT PUSH # SAVE UNIT/R/ IN PUSHLIST (18)
STORE UNIT/R/
LXC,1 SLOAD # RTX2 = 0 IF EARTH ORBIT, =2 IF LUNAR.
RTX2
RTX2
DCOMP BMN
CALCGRV1
VLOAD DOT # (12)
UNITZ
UNIT/R/
SL1 PUSH # (14)
DSQ BDSU
DP1/20
PDDL DDV
RESQ
34D # (RN)SQ
STORE 32D # TEMP FOR (RE/RN)SQ
DMP DMP
20J
VXSC PDDL
UNIT/R/
DMP DMP
2J
32D
VXSC VSL1
UNITZ
VAD STADR
STORE UNITGOBL
VAD PUSH # MPAC = UNIT GRAVITY VECTOR. (18)
CALCGRV1 DLOAD NORM # PERFORM A NORMALIZATION ON RMAGSQ IN
34D # ORDER TO BE ABLE TO SCALE THE MU FOR
X2 # MAXIMUM PRECISION.
BDDV* SLR*
-MUDT,1
0 -21D,2
VXSC STADR
STORE GDT1/2 # SCALED AT 2(+7) M/CS
RVQ
CALCRVG VLOAD VXM
DELV
REFSMMAT
VXSC VSL1
KPIP1
STORE DELVREF
VSR1 PUSH
VAD PUSH # (DV-OLDGDT)/2 TO PD SCALED AT 2(+7) M/CS.
# Page 881
GDT/2
VAD PDDL
VN
PGUIDE
SL VXSC
6D
VAD STQ
RN
31D
STCALL RN1 # TEMP STORAGE OF RN SCALED 2(+29) M
CALCGRAV
VAD VAD
VAD
VN
STCALL VN1 # TEMP STORAGE OF VN SCALED 2(+7) M/CS
31D
DP1/20 2DEC 0.05
SHIFT11 2DEC 1 B-11
# Page 882
#*****************************************************************************
# MUNRVG IS A SPECIAL AVERAGE G INTEGRATION ROUTINE USED BY THRUSTING
# PROGRAMS WHICH FUNCTION IN THE VICINITY OF AN ASSUMED SPHERICAL MOON.
# THE INPUT AND OUTPUT QUANTITIES ARE REFERENCED TO THE STABLE MEMBER
# COORDINATE SYSTEM.
RVBOTH VLOAD PUSH
G(CSM)
VAD PDDL
V(CSM)
PGUIDE
DDV VXSC
SHIFT11
VAD
R(CSM)
STCALL R1S
MUNGRAV
VAD VAD
V(CSM)
STADR
STORE V1S
EXIT
TC QUIKFAZ5
TC INTPRET
VLOAD
GDT1/2
STOVL G(CSM)
R1S
STOVL R(CSM)
V1S
STORE V(CSM)
EXIT
TC QUIKFAZ5
TC INTPRET
MUNRVG VLOAD VXSC
DELV
KPIP2
PUSH VAD # 1ST PUSH: DELV IN UNITS OF 2(8) M/CS
GDT/2
PUSH VAD # 2ND PUSH: (DELV + GDT)/2, UNITS OF 2(7)
V # (12)
PDDL DDV
PGUIDE
SHIFT11
VXSC
VAD
R
STCALL R1S # STORE R SCALED AT 2(+24) M
MUNGRAV
# Page 883
VAD VAD
VAD
V
STORE V1S # STORE V SCALED AT 2(+7) M/CS.
ABVAL
STOVL ABVEL # STORE SPEED FOR LR AND DISPLAYS.
UNIT/R/
DOT SL1
V1S
STOVL HDOTDISP # HDOT = V. UNIT(R)*2(7) M/CS.
R1S
VXV VSL2
WM
STODL DELVS # LUNAR ROTATION CORRECTION TERM*2(5) M/CS.
36D
DSU
/LAND/
STCALL HCALC # FOR NOW, DISPLAY WHETHER POS OR NEG
MUNRETRN
MUNGRAV UNIT # AT 36D HAVE ABVAL(R), AT 34D R.R
STODL UNIT/R/
34D
SL BDDV
6D
-MUDTMUN
DMP VXSC
SHIFT11
UNIT/R/
STORE GDT1/2 # 1/2GDT SCALED AT 2(7) M/CS.
RVQ
1.95SECS DEC 195
7.5 2DEC .02286 B-6 # 7.5 FT/SEC AT 2(6) M/CS
2SEC(18) 2DEC 200 B-18
2SEC(28) 2OCT 0000000310 # 2SEC AT 2(28)
4SEC(28) 2DEC 400 B-28
BITS4-7 OCT 110
# Page 884
UPDATCHK CAF NOLRRBIT # SEE IF LR UPDATE INHIBITED.
MASK FLGWRD11
CCS A
TCF CONTSERV # IT IS -- NO LR UPDATE
CAF RNGEDBIT # NO INHIBIT -- SEE ALT MEAS. THIS CYCLE.
MASK FLGWRD11
EXTEND
BZF VMEASCHK # NO ALT MEAS THIS CYCLE -- CHECK FOR VEL
POSUPDAT CA FIXLOC # SET PUSHLIST TO ZERO
TS PUSHLOC
TC INTPRET
VLOAD VXM
HBEAMNB
XNBPIP # HBEAM SM AT 2(2)
PDVL VSL2 # STORE HBEAM IN PD 0-5
V1S # SCALE V AT 2(5) M/CS
VAD DOT
DELVS # V RELATIVE TO SURFACE AT 2(5) M/CS
0D # V ALONG HBEAM AT 2(7) M/CS.
DMP EXIT
RADSKAL # SCALE TO RADAR COUNTS X 5
CS FLGWRD12 # TEST LR ALTITUDE SCALE FACTOR
MASK ALTSCBIT
EXTEND
BZF +3 # BRANCH IF HIGH SCALE
CA SKALSKAL # RESCALE IF LOW SCALE
TC SHORTMP
+3 TC INTPRET
DAD SL # CORRECT HMEAS FOR DOPPLER EFFECT
HMEAS
7D
DMP VXSC # SLANT RANGE AT 2(21), PUSH UP FOR HBEAM
HSCAL # SLANT RANGE VECTOR AT 2(23) M
DOT DSU
UNIT/R/ # ALTITUDE AT 2(24) M
HCALC # DELTA H AT 2(24) M
STORE DELTAH
EXIT
CA FLGWRD11
MASK PSTHIBIT
EXTEND # DO NOT PERFORM DATA REASONABLENESS TEST
BZF NOREASON # UNTIL AFTER HIGATE
# Page 885
TC INTPRET
ABS DSU
DELQFIX # ABS(DELTAH) - DQFIX 50 FT NOM
SL3 DSU # SCALE TO 2(21)
HCALC # ABS(DELTAH) - (50 + HCALC/8) AT 2(21)
EXIT
INCR LRLCTR
TC BRANCH
TCF HFAIL # DELTA H TOO LARGE
TCF HFAIL # DELTA H TOO LARGE
TC DOWNFLAG # TURN OFF ALT FAIL LAMP
ADRES HFLSHFLG
NOREASON CS FLGWRD11
MASK LRINHBIT
CCS A
TCF VMEASCHK # UPDATE INHIBITED -- TEST VELOCITY ANYWAY
TC INTPRET # DO POSITION UPDATE
DLOAD SR4
HCALC # RESCALE H TO 2(28)M
EXIT
EXTEND
DCA DELTAH # STORE DELTAH IN MPAC AND
DXCH MPAC # BRING HCALC INTO A,L
TC ALSIGNAG
EXTEND # IF HIGH PART OF HCALC IS NON-ZERO, THEN
BZF +2 # HCALC > HMAX,
TCF VMEASCHK # SO UPDATE IS BYPASSED
TS MPAC +2 # FOR LATER SHORTMP
CS L # -H AT 2(14) M
AD LRHMAX # HMAX - H
EXTEND
BZMF VMEASCHK # IF H >HMAX, BYPASS UPDATE
EXTEND
MP LRWH # WH(HMAX - H)
EXTEND
DV LRHMAX # WH(1 - H/HMAX)
TS MPTEMP
TC SHORTMP2 # DELTAH (WH)(1 - H/HMAX) IN MPAC
TC INTPRET # MODE IS DP FROM ABOVE
SL1
VXSC VAD
UNIT/R/ # DELTAR = DH(WH)(1 - H/HMAX) UNIT/R/
R1S
STCALL GNUR
MUNGRAV
EXIT
# Page 886
TC QUIKFAZ5
CA ZERO
RUPDATED TC GNURVST
VMEASCHK TC QUIKFAZ5 # RESTART AT NEXT LOCATION
CS FLGWRD11
MASK VELDABIT # IS V READING AVAILABLE?
CCS A
TCF VALTCHK # NO: SEE IF V READING TO BE TAKEN
VELUPDAT CS VSELECT # PROCESS VELOCITY DATA
TS L
ADS L # -2 VSELECT IN L
AD L
AD L # -6 VSELECT IN A
INDEX FIXLOC
DXCH X1 # X1 = -6 VSELECT, X2 = -2 VSELECT
CA EBANK4
TS EBANK
EBANK= LRXCDU
CA LRYCDU # STORE LRCDUS IN CDUSPOTS
TS CDUSPOT
CA LRZCDU
TS CDUSPOT +2
CA LRXCDU
TS CDUSPOT +4
TC BANKCALL
CADR QUICTRIG # GET SINES AND COSINES FOR NBSM
CA FIXLOC
TS PUSHLOC # SET PD TO ZERO
TC INTPRET
VLOAD* CALL
VZBEAMNB,1 # CONVERT VBEAM FROM NB TO SM
*NBSM*
PDDL SL # STORE IN PD 0-5
VMEAS # LOAD VELOCITY MEASUREMENT
12D
DMP* PUSH # SCALE TO M/CS AT 2(6)
VZSCAL,2 # AND STORE IN PD 6-7
EXIT
CS ONE
TS MODE # CHANGE STORE MODE TO VECTOR
CA PIPTEM # STORE DELV IN MPAC
# Page 887
ZL
DXCH MPAC
CA PIPTEM +1
ZL
DXCH MPAC +3
CA PIPTEM +2
ZL
DXCH MPAC +5
CA EBANK7
TS EBANK # RESTORE EBANK 7
EBANK= DVCNTR
TC INTPRET
VXSC PDDL
KPIP1 # SCALE DELV TO 2(7) M/CS AND PUSH
LRVTIME # TIME OF DELV AT 2(28) CS
DSU DDV
PIPTIME # TU - T(N-1)
2SEC(28)
VXSC VSL1 # G(N-1)(TU - T(N-1))
GDT/2 # SCALED AT 2(7) M/CS
VAD VAD # PUSH UP FOR DELV
V # VU = V(N-1) + DELVU + G(N-1) DTU
VSL2 VAD # SCALE TO 2(5) M/CS AND SUBTRACT
DELVS # MOON ROTATION.
PUSH ABVAL # STORE IN PD
SR4 DAD # ABS(VM)/8 + 7.5 AT 2(6)
7.5
STOVL 20D # STORE IN 20D AND PICK UP VM
DOT BDSU # V(EST) AT 2(6)
0 # DELTAV = VMEAS - V(EST)
PUSH ABS
DSU EXIT # ABS(DV) - (7.5 + ABS(VM)/8))
20D
INCR LRMCTR
TC BRANCH
TCF VFAIL # DELTA V TOO LARGE. ALARM
TCF VFAIL # DELTA V TOO LARGE. ALARM
TC DOWNFLAG # TURN OFF VEL FAIL LAMP
ADRES VFLSHFLG
CA FLGWRD11
MASK VXINHBIT
EXTEND
BZF VUPDAT # IF VX INHIBIT RESET, INCORPORATE DATA.
# Page 888
TC DOWNFLAG
ADRES VXINH # RESET VX INHIBIT
CA VSELECT
AD NEG2 # IF VSELECT = 2 (X AXIS).
EXTEND # BYPASS UPDATE
BZF ENDVDAT
VUPDAT CS FLGWRD11
MASK LRINHBIT
CCS A
TCF VALTCHK # UPDATE INHIBITED
TS MPAC +1
CA ABVEL # STORE E7 ERASABLES NEEDED IN TEMPS
TS ABVEL*
CA VSELECT
TS VSELECT*
CA EBANK5
TS EBANK # CHANGE EBANKS
EBANK= LRVF
CS LRVF
AD ABVEL* # IF V < VF, USE WVF
EXTEND
BZMF USEVF
CS ABVEL*
AD LRVMAX # VMAX - V
EXTEND
BZMF WSTOR -1 # IF V > VMAX, W = 0
EXTEND
INDEX VSELECT*
MP LRWVZ # WV(VMAX - V)
EXTEND
DV LRVMAX # WV( 1 - V/VMAX )
TCF WSTOR
USEVF INDEX VSELECT*
CA LRWVFZ # USE APPROPRIATE CONSTANT WEIGHT
TCF WSTOR
-1 CA ZERO
WSTOR TS MPAC
CS BIT7 # (=64D)
AD MODREG
EXTEND
# Page 889
BZMF +3 # IF IN P65,P66,P67, USE ANOTHER CONSTANT
CA LRWVFF
TS MPAC
+3 CA EBANK7
TS EBANK # CHANGE EBANKS
EBANK= ABVEL
TC INTPRET
DMP VXSC # W(DELTA V)(VBEAMSM) UP 6-7, 0-5
VAD
V1S # ADD WEIGHTED DELTA V TO VELOCITY
STORE GNUV
EXIT
TC QUIKFAZ5 # DO NOT RE-UPDATE
CA SIX
VUPDATED TC GNURVST # STORE NEW VELOCITY VECTOR
ENDVDAT = VALTCHK
VALTCHK TC QUIKFAZ5 # DO NOT REPEAT ABOVE
CAF READVBIT # TEST READVEL TO SEE IF VELOCITY READING
MASK FLGWRD11 # IS DESIRED.
CCS A
TCF READV # YES -- READ VELOCITY
CS ABVEL # NO -- SEE IF VELOCITY < 2000 FT/SEC
AD 2KFT/SEC
EXTEND
BZMF CONTSERV # V > 2000 FT/SEC DO NOT READ VEL
TC UPFLAG # V < 2000 FT/SEC SET READVEL AND READ.
ADRES READVEL
READV CAF PRIO32 # SET UP JOB TO READ VELOCITY BEAMS.
TC NOVAC
EBANK= HMEAS
2CADR LRVJOB
TCF CONTSERV # CONTINUE WITH SERVICER
GNURVST TS BUF # STORE GNUR (=GNUV) IN R1S OR V1S
EXTEND # A = 0 FOR R, A = 6 FOR V
DCA GNUR
INDEX BUF
DXCH R1S
EXTEND
# Page 890
DCA GNUR +2
INDEX BUF
DXCH R1S +2
EXTEND
DCA GNUR +4
INDEX BUF
DXCH R1S +4
TC Q
QUIKFAZ5 CA EBANK3
XCH EBANK # SET EBANK 3
DXCH L # Q TO A, A TO L
EBANK= PHSNAME5
TS PHSNAME5
LXCH EBANK
EBANK= DVCNTR
TC A
HFAIL CS LRRCTR
EXTEND
BZF NORLITE # IF R = 0, DO NOT TURN ON TRK FAIL
AD LRLCTR
MASK NEG3
EXTEND # IF L-R LT 4, DO NOT TURN ON TRK FAIL
BZF +2
TCF NORLITE
TC UPFLAG # AND SET BIT TO TURN ON TRACKER FAIL LITE
ADRES HFLSHFLG
NORLITE CA LRLCTR
TS LRRCTR # SET R = L
TCF VMEASCHK
VFAIL CS LRSCTR # DELTA Q LARGE
EXTEND # IF S = 0, DO NOT TURN ON TRACKER FAIL
BZF NOLITE
AD LRMCTR # M-S
MASK NEG3 # TEST FOR M-S > 3
EXTEND # IF M-S > 3, THEN TWO OR MORE OF THE
BZF +2 # LAST FOUR V READINGS WERE BAD,
TCF NOLITE # SO TURN ON VELOCITY FAIL LIGHT
TC UPFLAG # AND SET BIT TO TURN ON TRACKER FAIL LITE
ADRES VFLSHFLG
# Page 891
NOLITE CA LRMCTR # SET S = M
TS LRSCTR
CCS VSELECT # TEST FOR Z COMPONENT
TCF ENDVDAT # NOT Z, DO NOT SET VX INHIBIT
TC UPFLAG # Z COMPONENT - SET FLAG TO SKIP X
ADRES VXINH # COMPONENT, AS ERROR MAY BE DUE TO CROSS
TCF ENDVDAT # LOBE LOCK UP NOT DETECTED ON X AXIS.
# Page 892
# ********************************************************************************
# LRVJOB IS SET WHEN THE LEM IS BELOW 15000 FT DURING THE LANDING PHASE
# THIS JOB INITIALIZES THE LANDING RADAR READ ROUTINE FOR 5 VELOCITY
# SAMPLES AND GOES TO SLEEP WHILE THE SAMPLING IS DONE -- ABOUT 500 MS.
# WITH A GOODEND RETURN THE DATA IS STORED IN VMEAS AND BIT7 OF LRSTAT
# IS SET. THE GIMBAL ANGLES ARE READ ABOUT MIDWAY IN THE SAMPLINGS.
170MS EQUALS ND1
LRVJOB CA 170MS # SET TASK TO READ CDUS + PIPAS
TC WAITLIST
EBANK= LRVTIME
2CADR RDGIMS
CCS VSELECT # SEQUENCE LR VEL BEAM SELECTOR
TCF +2
CAF TWO # IF ZERO, RESET TO TWO
DOUBLE # 2XVSELECT USED FOR VBEAM INDEX IN LRVEL
TC BANKCALL # GO INITIALIZE LR VEL READ ROUTINE
CADR LRVEL
TC BANKCALL # PUT LRVJOB TO SLEEP ABOUT 500 MS
CADR RADSTALL
TCF VBAD
CCS STILBADV # IS DATA GOOD JUST PRESENT?
TCF VSTILBAD # JUST GOOD -- MUST WAIT 4 SECONDS.
INHINT
EXTEND # GOOD RETURN -- STOW AWAY VMEAS
DCA SAMPLSUM
DXCH VMEAS
CA EBANK4 # FOR DOWNLINK
TS EBANK
EBANK= LRVTIME
EXTEND
DCA LRVTIME
DXCH LRVTIMDL
EXTEND
DCA LRXCDU
DXCH LRXCDUDL
CA LRZCDU
TS LRZCDUDL
CA EBANK7
TS EBANK
EBANK= VSELECT
CS FLGWRD11 # SET BIT TO INDICATE VELOCITY
MASK VELDABIT # MEASUREMENT MADE
# Page 893
ADS FLGWRD11
ENDLRV CCS VSELECT # UPDATE VSELECT
TCF +2
CA TWO
TS VSELECT
TCF ENDOFJOB
VBAD CAF TWO # SET STILBAD TO WAIT 4 SECONDS
VSTILBAD TS STILBADV
TCF ENDLRV
# LRHJOB IS SET BY LRHTASK WHEN LEM IS BELOW 25000 FT. THIS JOB
# INITIALIZES THE LR READ ROUTINE FOR AN ALT MEASUREMENT AND GOES TO
# SLEEP WHILE THE SAMPLING IS DONE -- ABOUT 95 MS. WITH A GOODEND RETURN
# THE ALT DATA IS STORED IN HMEAS AND BIT7 OF LRSTAT IS SET.
BANK 34
SETLOC R12STUFF
BANK
COUNT* $$/SERV
LRHJOB TC BANKCALL # INITIATE LR ALT MEASUREMENT
CADR LRALT
TC BANKCALL # LRHJOB TO SLEEP ABOUT 95MS
CADR RADSTALL
TCF HBAD
CCS STILBADH # IS DATA GOOD JUST PRESENT?
TCF HSTILBAD # JUST GOOD -- MUST WAIT 4 SECONDS.
INHINT
EXTEND
DCA SAMPLSUM # GOOD RETURN -- STORE AWAY LRH DATA
DXCH HMEAS # LRH DATA 1.079 FT/BIT
EXTEND # FOR DOWNLINK
DCA PIPTIME1
DXCH MKTIME
EXTEND
DCA CDUTEMPY # CDUY,Z = AIG,AMG
DXCH AIG
CA CDUTEMPX # CDUX = AOG
TS AOG
CS FLGWRD11 # SET BIT TO INDICATE RANGE
MASK RNGEDBIT # MEASUREMENT MADE.
ADS FLGWRD11
ENDLRH TC ENDOFJOB # TERMATE LRHJOB
# Page 894
HBAD CA FLAGWRD5
MASK RNGSCBIT # IS BAD RETURN DUE TO SCALE CHANGE?
EXTEND
BZF HSTILBAD -1 # NO RESET HSTILBAD
TC DOWNFLAG # YES RESET SCALE CHANGE BIT AND IGNORE
ADRES RNGSCFLG
TC ENDOFJOB
CAF TWO # SET STILBAD TO WAIT 4 SECONDS
HSTILBAD TS STILBADH
TC ENDOFJOB
BANK 34
SETLOC SERV4
BANK
COUNT* $$/SERV
# RDGIMS IS A TASK SET UP BY LRVJOB TO PICK UP THE IMU CDUS AND TIME
# AT ABOUT THE MIDPOINT OF THE LR VEL READ ROUTINE WHEN 5 VEL SAMPLES
# ARE SPECIFIED.
EBANK= LRVTIME
RDGIMS EXTEND
DCA TIME2 # PICK UP TIME2, TIME1
DXCH LRVTIME # AND SAVE IN LRVTIME
EXTEND
DCA CDUX # PICK UP CDUX AND CDUY
DXCH LRXCDU # AND SAVE IN LRXCDU AND LRYCDU
CA CDUZ
TS LRZCDU # SAVE CDUZ IN LRZCDU
CA PIPAX
TS PIPTEM # SAVE PIPAX IN PIPTEM
EXTEND
DCA PIPAY # PICK UP PIPAY AND PIPAZ
DXCH PIPTEM +1 # AND SAVE IN PIPTEM +1 AND PIPTEM +2
TC TASKOVER
BANK 33
SETLOC SERVICES
BANK
COUNT* $$/SERV
EBANK= DVCNTR
# Page 895
# HIGATJOB IS SET APPROXIMATELY 6 SECONDS PRIOR TO HIGH GATE DURING
# THE DESCENT BURN PHASE OF LUNAR LANDING. THIS JOB INITIATES THE
# LANDING RADAR REPOSITIONING ROUTINE AND GOES TO SLEEP UNTIL THE
# LR ANTENNA MOVES FROM POSITION 1 TO POSITION 2. IF THE LR ANTENNA
# ACHIEVES POSITION 2 WITHIN 22 SECONDS THE ALTITUDE AND VELOCITY
# BEAM VECTORS ARE RECOMPUTED TO REFLECT THE NEW ORIENTATION WITH
# RESPECT TO THE NB. BIT10 OF LRSTAT IS CLEARED TO ALLOW LR
# MEASUREMENTS AND THE JOB TERMINATES.
HIGATJOB TC BANKCALL # START LRPOS2 JOB
CADR LRPOS2
TC BANKCALL # PUT HIGATJOB TO SLEEP UNTIL JOB IS DONE
CADR RADSTALL
TCF POSALARM # BAD END ALARM
POSGOOD CA PRIO23 # REDUCE PRIORITY FOR INTERPRETIVE COMPS.
TC PRIOCHNG
TC SETPOS2 # LR IN POS2 -- SET UP TRANSFORMATIONS
TC DOWNFLAG
ADRES NOLRREAD # RESET NOLRREAD FLAG TO ENABLE LR READING
TC ENDOFJOB
POSALARM CA OCT523
TC BANKCALL
CADR PRIOLARM # FLASH ALARM CODE
TCF GOTOP00H # TERMINATE
TCF +3 # PROCEED -- TRY AGAIN
TCF ENDOFJOB # V 32 E TERMINATE R12
TC ENDOFJOB
+3 CA BIT7 # SEE IF IN POS2 YET
EXTEND
RAND CHAN33
EXTEND
BZF POSGOOD # POS2 ACHIEVED SET UP ANTENNA BEAMS
TCF POSALARM # STILL DIDN'T MAKE IT REALARM
OCT523 OCT 00523
SETPOS1 TC MAKECADR # MUST BE CALLED BY BANKCALL
TS LRADRET1 # SAVE RETURN CADR. SINCE BUP2 CLOBBERED
CAF TWO
TS STILBADH # INITIALIZE STILBAD
TS STILBADV # INITIALIZE STILBAD
CA ZERO # INDEX FOR LRALPHA, LRBETA IN POS 1.
# Page 896
TS LRLCTR # SET L,M,R, ANS S TO ZERO
TS LRMCTR
TS LRRCTR
TS LRSCTR
TS VSELECT # INITIALIZE VSELECT
TC SETPOS # CONTINUE WITH COMPUTATIONS.
CA LRADRET1
TC BANKJUMP # RETURN TO CALLER
SETPOS2 CA TWO # INDEX FOR POS2
SETPOS XCH Q # SAVE INDEX IN Q
TS LRADRET # SAVE RETURN
CA EBANK5
TS EBANK
EBANK= LRALPHA
EXTEND
INDEX Q
DCA LRALPHA # LRALPHA IN A, LRBETA IN L
TS CDUSPOT +4 # ROTATION ABOUT X
LXCH CDUSPOT # ROTATION ABOUT Y
CA ZERO
TS CDUSPOT +2 # ZERO ROTATION ABOUT Z.
CA EBANK7
TS EBANK
EBANK= LRADRET
TC INTPRET
VLOAD CALL
UNITY # CONVERT UNITY(ANTENNA) TO NB
TRG*SMNB
STOVL VYBEAMNB
UNITX # CONVERT UNITX(ANTENNA) TO NB
CALL
*SMNB*
STORE VXBEAMNB
VXV VSL1
VYBEAMNB
STOVL VZBEAMNB # Z = X * Y
HBEAMANT
CALL
*SMNB* # CONVERT TO NB
STORE HBEAMNB
EXIT
# Page 897
TC LRADRET