https://github.com/virtualagc/virtualagc
Tip revision: 7a9ecb86ff67a3d695b32b6dd0f7365a42048516 authored by Ron Burkey on 30 December 2017, 02:10:37 UTC
Experimental stuff related to triggering 1201 or 1202 alarms on demand.
Experimental stuff related to triggering 1201 or 1202 alarms on demand.
Tip revision: 7a9ecb8
ASCENT_GUIDANCE.agc
### FILE="Main.annotation"
## Copyright: Public domain.
## Filename: ASCENT_GUIDANCE.agc
## Purpose: The main source file for Luminary revision 069.
## It is part of the source code for the original release
## of the flight software for the Lunar Module's (LM) Apollo
## Guidance Computer (AGC) for Apollo 10. The actual flown
## version was Luminary 69 revision 2, which included a
## newer lunar gravity model and only affected module 2.
## This file is intended to be a faithful transcription, except
## that the code format has been changed to conform to the
## requirements of the yaYUL assembler rather than the
## original YUL assembler.
## Reference: pp. 844-857
## Assembler: yaYUL
## Contact: Ron Burkey <info@sandroid.org>.
## Website: www.ibiblio.org/apollo/index.html
## Mod history: 2016-12-13 MAS Created from Luminary 99.
## 2016-12-18 MAS Updated from comment-proofed Luminary 99 version.
## 2017-01-20 HG Transcribed
## 2017-01-23 HG Fix value of SIN5DEG .008716 -> 0.08716
## 2017-01-28 RSB Proofed comment text using octopus/prooferComments
## and fixed errors found.
## 2017-03-14 RSB Comment-text fixes identified in 5-way
## side-by-side diff of Luminary 69/99/116/131/210.
## Page 844
BANK 34
SETLOC ASCFILT
BANK
EBANK= DVCNTR
COUNT* $$/ASENT
ATMAG TC PHASCHNG
OCT 00035
TC PHASCHNG
OCT 05023
OCT 21000
TC INTPRET
BON
FLRCS
ASCENT
DLOAD DSU
ABDVCONV
MINABDV
BMN CLEAR
ASCTERM4
SURFFLAG
CLEAR SLOAD
RENDWFLG
BIT3H
DDV EXIT
ABDVCONV
DXCH MPAC
DXCH 1/DV3
DXCH 1/DV2
DXCH 1/DV1
DXCH 1/DV0
TC PHASCHNG
OCT 04023
TC INTPRET
DLOAD DAD
1/DV0
1/DV1
DAD DAD
1/DV2
1/DV3
DMP DMP
VE
2SEC(9)
SL3 PDDL
TBUP
SR1 DAD
DSU
6SEC(18)
## Page 845
STODL TBUP
VE
SR1 DDV
TBUP
STCALL AT
ASCENT
## Page 846
BANK 30
SETLOC ASENT
BANK
COUNT* $$/ASENT
ASCENT VLOAD ABVAL
R
STOVL /R/MAG
UNIT/R/ # UR*2(-1)
VXV UNIT
QAXIS
STORE ZAXIS1
DOT SL1
V # Z.V = ZDOT*2(-8).
STOVL ZDOT # ZDOT*2(-7)
ZAXIS1
VXV VSL1
UNIT/R/ # Z X UR = LAXIS*2(-2)
STORE LAXIS # LAXIS*2(-1)
DOT SL1
V # L.V = YDOT*2(-8).
STOVL YDOT # YDOT * 2(-7)
UNIT/R/
DOT SL1
V
STCALL RDOT # RDOT*2(-7)
YCOMP
VLOAD
GDT1/2 # LOAD GDT1/2*2(-7) M/CS.
V/SC DOT
2SEC(18)
UNIT/R/ # G.UR*2(9) = GR*2(9).
PDVL VXV # STORE IN PDL(0) (2)
UNIT/R/ # LOAD UNIT/R/ *2(-1).
V # UR*2(-1) X V*2(-7) = H/R*2(-8).
VSQ DDV # H(2)/R(2)*2(-16).
/R/MAG # H(2)/R(3)*2(9).
SL1 DAD
STADR
STODL GEFF # GEFF*2(10)M/CS/CS.
ZDOTD
DSU
ZDOT
STORE DZDOT # DZDOT = (ZDOTD - ZDOT) * 2(7)M/CS.
VXSC PDDL
ZAXIS1
## Page 847
YDOTD
DSU
YDOT
STORE DYDOT # DYDOT = (YDOTD - YDOT)*2(7)M/CS.
VXSC PDDL
LAXIS
RDOTD
DSU
RDOT
STORE DRDOT # DRDOT = (RDOTD - RDOT)*2(7)M/CS.
VXSC VAD
UNIT/R/
VAD VSL1
STADR
STORE VGVECT # VG = (DRDOT)R + (DYDOT)L + (DZDOT)Z.
BON
FLZONE0
PREBRET1
CALL
ASCRSTRT
DLOAD DMP # LOAD TGO
TGO # TGO GEFF
GEFF
VXSC VSL1
UNIT/R/ # TGO GEFF UR
BVSU
VGVECT # COMPENSATED FOR GEFF
STORE VGVECT # STORE FOR DOWNLINK
MXV VSL1 # GET VGBODY FOR N85 DISPLAY
XNBPIP
STOVL VGBODY
VGVECT
ABVAL BOFF # MAGNITUDE OF VGVECT
FLRCS # IF FLRCS=0,DO NORMAL GUIDANCE
MAINENG
DDV # USE TGO=VG/AT WITH RCS
AT/RCS
STCALL TGO # THIS WILL BE USED ON NEXT CYCLE
ASCTERM2
MAINENG DDV PUSH # VG/VE IN PDL(0) (2)
VE
DMP BDSU # 1-KT VG/VE
KT1
NEARONE
DMP DMP # TBUP VG(1-KT VG/VE)/VE (0)
TBUP # = TGO
DSU # COMPENSATE FOR TAILOFF
TTO
STORE TGO
SR DCOMP
## Page 848
11D
STODL TTOGO # TGO*2(-28)CS
TGO
BON DSU
IDLEFLAG
T2TEST
4SEC(17) # ( TGO - 4 )*2(-17)CS.
BMN
ENGOFF
T2TEST DLOAD
TGO
DSU BMN # IF TGO - T2 NEG., GO TO CMPONENT
T2A
CMPONENT
DLOAD DSU
TBUP
TGO
DDV CALL # 1-TGO/TBUP
TBUP
LOGSUB
SL PUSH # -L IN PDL(0) (2)
5
BDDV BDSU # -TGO/L*2(-17)
TGO
TBUP # TBUP + TGO/L = D12*2(-17)
PUSH BON # STORE IN PDL(2) (4)
FLPC # IF FLPC = 1, GO TO CONST
NORATES
DLOAD DSU
TGO
T3
BPL SET # FLPC=1
RATES
FLPC
NORATES DLOAD
HI6ZEROS
STORE PRATE # B = 0
STORE YRATE # D = 0
GOTO
CONST # GO TO CONST
RATES DLOAD DSU
TGO
02D # TGO - D12 = D21*2(-17)
PUSH SL1 # IN PDL(4) (6)
BDSU SL3 # (1/2TGO - D21)*2(-13) = E * 2(-13)
TGO # (8)
PDDL DMP # IN PDL(6)
TGO
RDOT # RDOT TGO * 2(-24)
DAD DSU # R + RDOT TGO
## Page 849
/R/MAG # R + RDOT TGO - RCO
RCO # MPAC = -DR*2(-24).
PDDL DMP # -DR IN PDL(8) (10)
DRDOT
04D # D21 DRDOT*2(-24)
DAD SL2 # (D21 DRDOT-DR)*2(-22) (8)
DDV DDV
06D # (D21 DRDOT-DR)/E*2(-9)
TGO
STORE PRATE # B * 2(8)
BMN DLOAD # B>0 NOT PERMITTED
CHKBMAG
HI6ZEROS
STCALL PRATE
PROK
CHKBMAG SR4 DDV # B*2(4)
TBUP # (B / TAU) * 2(21)
DSU BPL
PRLIMIT # ( B/ TAU) * 2(21) MAX.
PROK
DLOAD DMP
PRLIMIT
TBUP # B MAX. * 2(4)
SL4 # BMAX*2(8)
STORE PRATE
PROK DLOAD
TGO
DMP DAD # YDOT TGO
YDOT
Y # Y + YDOT TGO
DSU PDDL # Y + YDOT TGO - YCO
YCO # MPAC = - DY*2(-24.) IN PDL(8) (10)
DYDOT
DMP DAD # D21 DYDOT - DY (8)
04D
DDV DDV
TGO # (D21 DYDOT - DY)/ E TGO*2(6) (6)
SL2 SETPD # MPAC = D*2(8)
04D # (4)
STORE YRATE
CONST DLOAD DMP # LOAD B*2(8)
PRATE # B D12*2(-9)
02D
PDDL DDV # D12 B IN PDL(4) (6)
DRDOT # LOAD DRDOT*2(-7)
00D # -DRDOT/L*2(-7)
SR2 DSU # (-DRDOT/L-D12 B)=A*2(-9) (4)
STADR
STODL PCONS
YRATE # D*2(8)
## Page 850
DMP PDDL # D12 D,EXCH WITH -L IN PDL(0) (2,2)
BDDV SR2 # -DYDOT/L*2(-9)
DYDOT
DSU # (-DYDOT/L-D12 D)=C*2(-9)
00D
STORE YCONS
CMPONENT CALL
ASCRSTRT
SETPD DLOAD
00D
100CS
DMP
PRATE # B(T-T0)*2(-9)
DAD DDV # (A+B(T-T0))*2(-9)
PCONS # (A+B(T-T0))/TBUP*2(8)
TBUP
SL1 DSU
GEFF # ATR*2(9)
STODL ATR
100CS
DMP DAD
YRATE
YCONS # (C+D(T-T0))*2(-9)
DDV SL1
TBUP
STORE ATY # ATY*2(9)
VXSC PDDL # ATY UY*2(8) (6)
LAXIS
ATR
VXSC VAD # (0)
UNIT/R/
VSL1 PUSH # AH*2(9) IN PDL(0) (6)
ABVAL PDDL # AH(2) IN PDL(34)
AT # AHMAG IN PDL(6) (8)
DSQ DSU # (AT(2)-AH(2))*2(18)
34D # =ATP2*2(18)
PDDL PUSH # (12)
AT
DSQ DSU # (AT(2)KR(2)-AH(2))*2(18) (10)
34D # =ATP3*2(18)
BMN DLOAD # IF ATP3 NEG,GO TO NO-ATP
NO-ATP # LOAD ATP2, IF ATP3 POS
8D
SQRT GOTO # ATP*2(9)
AIMER
NO-ATP DLOAD BDDV # KR AT/AH = KH (8)
6D
VXSC # KH AH*2(9)
00D
STODL 00D # STORE NEW AH IN PDL(0)
## Page 851
HI6ZEROS
AIMER SIGN
DZDOT
STORE ATP
VXSC
ZAXIS1 # ATP ZAXIS *2(8).
VSL1 VAD # AT*2(9)
00D
STORE UNFC/2 # WILL BE OVERWRITTEN IF IN VERT. RISE.
SETPD BON
00D
FLPI
P12RET
CALL
ASCRSTRT
BON
FLVR
CHECKALT
MAINLINE VLOAD VCOMP
UNIT/R/
STODL UNWC/2
TXO
DSU BPL
PIPTIME
ASCTERM
CLRXFLAG CLEAR CLEAR
NOR29FLG # START R29 IN ASCENT PHASE.
XOVINFLG # ALLOW X-AXIS OVERRIDE
ASCTERM EXIT
EXTEND
DCA NEG0
DXCH -PHASE3
CA FLAGWRD9
MASK FLRCSBIT
CCS A
TCF ASCTERM3
TC INTPRET
CALL
FINDCDUW -2
ASCTERM1 EXIT
+1 EXTEND
DCA NEG0
DXCH -PHASE3
ABRTDISP CA FLAGWRD9 # INSURE THAT THE NOUN 63 DISPLAY IS
MASK FLRCSBIT # BYPASSED IF WE ARE IN THE RCS TRIMMING
CCS A # MODE OF OPERATION
TCF ASCTERM3
CA FLAGWRD8 # BYPASS DISPLAYS IF ENGINE FAILURE IS
MASK FLUNDBIT # INDICATED.
CCS A
## Page 852
TCF ASCTERM3
CAF V06N63*
TC BANKCALL
CADR GODSPR
TCF ASCTERM3
ASCTERM2 EXIT
TC PHASCHNG
OCT 00003
ASCTERM3 TCF ENDOFJOB
ASCTERM4 EXIT
INHINT
TC IBNKCALL # NO GUIDANCE THIS CYCLE -- HENCE ZERO
CADR ZATTEROR # THE DAP ATTITUDE ERRORS.
TCF ASCTERM1 +1
CHECKALT DLOAD DSU
/R/MAG
/LAND/
DSU BMN # IF H LT 25K CHECK Z AXIS ORIENTATION.
25KFT
CHECKYAW
EXITVR DLOAD DAD
PIPTIME
10SECS
STORE TXO
CLRGO
FLVR
MAINLINE
ASCRSTRT STQ EXIT
TEMPR60
CA FLPIBIT
AD FLZONBIT
MASK FLAGWRD9
CCS A
TCF +3
TC PHASCHNG
OCT 04023
+3 TC INTPRET
GOTO
TEMPR60
BANK 27
SETLOC ASENT1
BANK
SETXFLAG = CHECKYAW
CHECKYAW SET
XOVINFLG # PROHIBIT X-AXIS OVERRIDE
## Page 853
DLOAD VXSC
ATY
LAXIS
PDDL VXSC
ATP
ZAXIS1
VAD UNIT
PUSH DOT
YNBPIP
ABS DSU
SIN5DEG
BPL DLOAD
KEEPVR
RDOT
DSU BPL
40FPS
EXITVR
KEEPVR VLOAD STADR # RECALL LOSVEC FROM PUSHLIST
STOVL UNWC/2
UNIT/R/
STCALL UNFC/2
ASCTERM
ENGOFF RTB
LOADTIME
DSU DAD
PIPTIME
TTOGO
DCOMP EXIT
TC TPAGREE # FORCE SIGN AGREEMENT ON MPAC, MPAC +1.
CAF EBANK7
TS EBANK
EBANK= TGO
BIT3H INHINT # USED AS A CONSTANT
CCS MPAC +1
TCF +3 # C(A) = DT - 1 BIT
TCF +2 # C(A) = 0
CAF ZERO # C(A) = 0
AD BIT1 # C(A) = 1 BIT OR DT.
TS ENGOFFDT
TC TWIDDLE
ADRES ENGOFF1
TC PHASCHNG
OCT 47014
-GENADR ENGOFFDT
EBANK= TGO
2CADR ENGOFF1
## Page 854
TC INTPRET
SET GOTO
IDLEFLAG # DISABLE DELTA-V MONITOR
T2TEST
ENGOFF1 TC IBNKCALL # SHUT OFF THE ENGINE.
CADR ENGINOF2
CAF PRIO17 # SET UP A JOB FOR THE ASCENT GUIDANCE
TC FINDVAC # POSTBURN LOGIC.
EBANK= WHICH
2CADR CUTOFF
TC PHASCHNG
OCT 07024
OCT 17000
EBANK= TGO
2CADR CUTOFF
TCF TASKOVER
CUTOFF TC UPFLAG # SET FLRCS FLAG.
ADRES FLRCS
-5 CAF V16N63
TC BANKCALL
CADR GOFLASH
TCF TERMASC
TCF CUTOFF1
TCF -5
CUTOFF1 INHINT
TC IBNKCALL # ZERO ATTITUDE ERRORS BEFORE REDUCING DB.
CADR ZATTEROR
TC IBNKCALL
CADR SETMINDB
TC PHASCHNG
OCT 04024
-5 CAF V16N85C
TC BANKCALL
CADR GOFLASH
TCF TERMASC
TCF +2 # PROCEED
TCF -5
TERMASC TC PHASCHNG
OCT 04024
INHINT # RESTORE DEADBAND DESIRED BY ASTRONAUT.
## Page 855
TC IBNKCALL
CADR RESTORDB
TC DOWNFLAG # DISALLOW ABORTS AT THIS TIME.
ADRES LETABORT
TCF GOTOPOOH
YCOMP VLOAD DOT
UNIT/R/
QAXIS
SL1 ARCSIN
DMP DMP
RCO
2PI/8
SL3
STORE Y
RVQ
V16N63 VN 1663
V16N85C VN 1685
BANK 30
SETLOC ASENT
BANK
## Page 856
# ASCENT GUIDANCE CONSTANTS
100CS EQUALS 2SEC(18)
T2A EQUALS 2SEC(17)
4SEC(17) 2DEC 400 B-17
2SEC(17) 2DEC 200 B-17
T3 2DEC 1000 B-17
40FPS 2DEC .12192 B-7 # 40 FT/SEC EXPRESSED IN M/CS.
6SEC(18) 2DEC 600 B-18
BIT4H OCT 10
2SEC(9) 2DEC 200 B-9
V06N63* VN 0663
V06N76 VN 0676
V06N33A VN 0633
KT1 2DEC 0.5000
PRLIMIT 2DEC -.0639 # (B/TBUP)MIN=-.1FT.SEC(-3)
SIN5DEG 2DEC .08716 B-2
MINABDV 2DEC .0356 B-5 # 10 PERCENT BIGGER THAN GRAVITY
1/DV0 = MASS1
## Page 857
# THE LOGARITHM SUBROUTINE
BANK 24
SETLOC FLOGSUB
BANK
# INPUT ..... X IN MPAC
# OUTPUT ..... -LOG(X) IN MPAC
LOGSUB NORM BDSU
MPAC +6
NEARONE
EXIT
TC POLY
DEC 6
2DEC .0000000060
2DEC -.0312514377
2DEC -.0155686771
2DEC -.0112502068
2DEC -.0018545108
2DEC -.0286607906
2DEC .0385598563
2DEC -.0419361902
CAF ZERO
TS MPAC +2
EXTEND
DCA CLOG2/32
DXCH MPAC
DXCH BUF +1
CA MPAC +6
TC SHORTMP
DXCH MPAC +1
DXCH MPAC
DXCH BUF +1
DAS MPAC
TC INTPRET
DCOMP RVQ
CLOG2/32 2DEC .0216608494