Source Code
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These source-code files derive from a printout of Luminary 210 (Apollo 15-17
Lunar Module guidance computer program), from the personal library of
original AGC developer Don Eyles, digitally photographed at archive.org,
financially sponsored by Jim Lawton, and transcribed to source code by a
team of volunteers. This colorized, syntax-highlighted form was created
by assembling that transcribed source code. Note that the full page images
are available on the
Virtual AGC project page at archive.org, while reduced-size images
are presented at the VirtualAGC project website. Report or fix any
transcription errors at
the Virtual AGC project code repository. Notations on the program listing read, in part: GAP: ASSEMBLE REVISION 210 OF AGC PROGRAM LUMINARY BY NASA 2021112-161 17:11 MAR. 19,1971Note that the date is the date of the printout, not the date of the program revision. |
054129,000002: ## Copyright: Public domain.
054130,000003: ## Filename: POWERED_FLIGHT_SUBROUTINES.agc
054131,000004: ## Purpose: A section of Luminary revision 210.
054132,000005: ## It is part of the source code for the Lunar Module's (LM)
054133,000006: ## Apollo Guidance Computer (AGC) for Apollo 15-17.
054134,000007: ## This file is intended to be a faithful transcription, except
054135,000008: ## that the code format has been changed to conform to the
054136,000009: ## requirements of the yaYUL assembler rather than the
054137,000010: ## original YUL assembler.
054138,000011: ## Reference: pp. 1256-1264
054139,000012: ## Assembler: yaYUL
054140,000013: ## Contact: Ron Burkey <info@sandroid.org>.
054141,000014: ## Website: www.ibiblio.org/apollo/index.html
054142,000015: ## Mod history: 2016-11-17 JL Created from Luminary131 version.
054143,000016: ## 2016-12-08 RRB Updated for Luminary210.
054144,000017: ## 2016-12-11 HG Fix operands CDSPOTX,Y,Z -> CDUSPOTX,Y,Z
054145,000018: ## 2016-12-26 RSB Comment-text proofed using ProoferComments
054146,000019: ## and corrected errors found.
054147,000020: ## 2017-03-16 RSB Comment-text fixes identified in 5-way
054148,000021: ## side-by-side diff of Luminary 69/99/116/131/210.
054149,000022: ## 2017-03-17 RSB Comment-text fixes identified in diff'ing
054150,000023: ## Luminary 99 vs Comanche 55.
054151,000024:
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Page 1256 |
054153,000026: 14,3754 BANK 14 # SAME FBANK AS THE FINDCDUD SUB-PROGRAM
054154,000027: 23,2000 SETLOC POWFLITE
054155,000028: 23,2000 BANK
054156,000029:
054157,000030: 23,3522 0142 EBANK= DEXDEX
054158,000031: 23,3522 COUNT* $$/POWFL
054159,000032:
054160,000033: # CDUTRIG, CDUTRIG1, CDUTRIG2, AND CD*TR*GS ALL COMPUTE THE SINES AND
054161,000034: # COSINES OF THREE 2'S COMPLEMENT ANGLES AND PLACE THE RESULT, DOUBLE
054162,000035: # PRECISION, IN THE SAME ORDER AS THE INPUTS, AT SINCDU AND COSCDU. AN
054163,000036: # ADDITIONAL OUTPUT IS THE 1'S COMPLEMENT ANGLES AT CDUSPOT. THESE
054164,000037: # ROUTINES GO OUT OF THEIR WAY TO LEAVE THE MPAC AREA AS THEY FIND IT,
054165,000038: # EXCEPT FOR THE GENERALLY UNIMPORTANT MPAC +2. THEY DIFFER ONLY IN
054166,000039: # WHERE THEY GET THE ANGLES, AND IN METHOD OF CALLING.
054167,000040:
054168,000041: # CDUTRIG (AND CDUTRIG1, WHICH CAN BE CALLED IN BASIC) COMPUTE THE
054169,000042: # SINES AND COSINES FROM THE CURRENT CONTENTS OF THE CDU REGISTERS.
054170,000043: # THE CONTENTS OF CDUTEMP, ETC., ARE NOT TOUCHED SO THAT THEY MAY
054171,000044: # CONTINUE TO FORM A CONSISTENT SET WITH THE LATEST PIPA READINGS.
054172,000045:
054173,000046: # CDUTRIG1 IS LIKE CDUTRIG EXCEPT THAT IT CAN BE CALLED IN BASIC.
054174,000047:
054175,000048: # CD*TR*GS FINDS CDU VALUES IN CDUSPOT RATHER THAN IN CDUTEMP. THIS
054176,000049: # ALLOWS USERS TO MAKE TRANSFORMATIONS USING ARBITRARY ANGLES, OR REAL
054177,000050: # ANGLES IN AN ORDER OTHER THAN X Y Z. A CALL TO THIS ROUTINE IS
054178,000051: # NECESSARY IN PREPARATION FOR A CALL TO AX*SR*T IN EITHER OF ITS TWO
054179,000052: # MODES (SMNB OR NBSM). SINCE AX*SR*T EXPECTS TO FIND THE SINES AND
054180,000053: # COSINES IN THE ORDER Y Z X THE ANGLES MUST HAVE BEEN PLACED IN CDUSPOT
054181,000054: # IN THIS ORDER. CD*TR*GS NEED NOT BE REPEATED WHEN AX*SR*T IS CALLED
054182,000055: # MORE THAN ONCE, PROVIDED THE ANGLES HAVE NOT CHANGED. NOTE THAT SINCE
054183,000056: # IT CLOBBERS BUF2 (IN THE SINE AND COSINE ROUTINES) CD*TR*GS CANNOT BE
054184,000057: # CALLED USING BANKCALL. SORRY.
054185,000058:
054186,000059: # CD*TR*G IS LIKE CD*TR*GS EXCEPT THAT IT CAN BE CALLED IN
054187,000060: # INTERPRETIVE.
054188,000061:
054189,000062: 23,3522 77776 CDUTRIG EXIT
054190,000063: 23,3523 03532 TC CDUTRIGS
054191,000064: 23,3524 06060 TC INTPRET
054192,000065: 23,3525 77616 RVQ
054193,000066:
054194,000067: 23,3526 77776 CD*TR*G EXIT
054195,000068: 23,3527 03540 TC CD*TR*GS
054196,000069: 23,3530 06060 TC INTPRET
054197,000070: 23,3531 77616 RVQ
054198,000071:
054199,000072: 23,3532 30032 CDUTRIGS CA CDUX
054200,000073: 23,3533 54771 TS CDUSPOT +4
054201,000074: 23,3534 30033 CA CDUY
054202,000075: 23,3535 54765 TS CDUSPOT
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Page 1257 |
054204,000077: 23,3536 30034 CA CDUZ
054205,000078: 23,3537 54767 TS CDUSPOT +2
054206,000079:
054207,000080: 23,3540 00006 CD*TR*GS EXTEND
054208,000081: 23,3541 22142 QXCH TEM2
054209,000082: 23,3542 34742 CAF FOUR
054210,000083: 23,3543 76263 TR*GL**P MASK SIX # MAKE IT EVEN AND SMALLER
054211,000084: 23,3544 54143 TS TEM3
054212,000085: 23,3545 50143 INDEX TEM3
054213,000086: 23,3546 30765 CA CDUSPOT
054214,000087: 23,3547 52155 DXCH MPAC # STORING 2'S COMP ANGLE, LOADING MPAC
054215,000088: 23,3550 52127 DXCH VBUF +4 # STORING MPAC FOR LATER RESTORATION
054216,000089: 23,3551 04704 TC USPRCADR
054217,000090: 23,3552 21606 CADR CDULOGIC
054218,000091: 23,3553 00006 EXTEND
054219,000092: 23,3554 30155 DCA MPAC
054220,000093: 23,3555 50143 INDEX TEM3
054221,000094: 23,3556 52766 DXCH CDUSPOT # STORING 1'S COMPLEMENT ANGLE
054222,000095: 23,3557 04704 TC USPRCADR
054223,000096: 23,3560 01517 CADR COSINE
054224,000097: 23,3561 52155 DXCH MPAC
054225,000098: 23,3562 50143 INDEX TEM3
054226,000099: 23,3563 52744 DXCH COSCDU # STORING COSINE
054227,000100: 23,3564 00006 EXTEND
054228,000101: 23,3565 50143 INDEX TEM3
054229,000102: 23,3566 30766 DCA CDUSPOT # LOADING 1'S COMPLEMENT ANGLE
054230,000103: 23,3567 04704 TC USPRCADR
054231,000104: 23,3570 01531 CADR SINE +1 # SINE +1 EXPECTS ARGUMENT IN A AND L
054232,000105: 23,3571 52127 DXCH VBUF +4 # BRINGING UP PRIOR MPAC TO BE RESTORED
054233,000106: 23,3572 52155 DXCH MPAC
054234,000107: 23,3573 50143 INDEX TEM3
054235,000108: 23,3574 52736 DXCH SINCDU
054236,000109: 23,3575 10143 CCS TEM3
054237,000110: 23,3576 13543 TCF TR*GL**P
054238,000111: 23,3577 00142 TC TEM2
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Page 1258 |
054240,000113: # ****************************************************************************************************************
054241,000114: # QUICTRIG, INTENDED FOR GUIDANCE CYCLE USE WHERE TIME IS CRITICAL, IS A MUCH FASTER VERSION OF CD*TR*GS.
054242,000115: # QUICTRIG COMPUTES AND STORES THE SINES AND COSINES OF THE 2'S COMPLEMENT ANGLES AT CDUSPOT, CDUSPOT +2,
054243,000116: # AND CDUSPOT +4. UNLIKE CD*TR*GS, QUICTRIG DOES NOT LEAVE THE 1'S COMPLEMENT VERSIONS OF THE ANGLES IN
054244,000117: # CDUSPOT. QUICTRIG'S EXECUTION TIME IS 4.1 MS; THIS IS 10 TIMES AS FAST AS CD*TR*GS. QUICTRIG MAY BE
054245,000118: # CALLED FROM INTERPRETIVE AS AN RTB OP-CODE, OR FROM BASIC VIA BANKCALL OR IBNKCALL.
054246,000119:
054247,000120: 23,3600 00004 QTPROLOG INHINT
054248,000121: 23,3601 30032 CA CDUX
054249,000122: 23,3602 54771 TS CDUSPOTX
054250,000123: 23,3603 30033 CA CDUY
054251,000124: 23,3604 54765 TS CDUSPOTY
054252,000125: 23,3605 30034 CA CDUZ
054253,000126: 23,3606 54767 TS CDUSPOTZ
054254,000127:
054255,000128: 23,3607 00004 QUICTRIG INHINT # INHINT SINCE DAP USES THE SAME TEMPS
054256,000129: 23,3610 00006 EXTEND
054257,000130: 23,3611 22061 QXCH ITEMP1
054258,000131: 23,3612 34742 CAF FOUR
054259,000132: 23,3613 76263 +4 MASK SIX
054260,000133: 23,3614 54062 TS ITEMP2
054261,000134: 23,3615 50062 INDEX ITEMP2
054262,000135: 23,3616 30765 CA CDUSPOT
054263,000136: 23,3617 05024 TC SPSIN
054264,000137: 23,3620 00006 EXTEND
054265,000138: 23,3621 74727 MP BIT14 # SCALE DOWN TO MATCH INTERPRETER OUTPUTS
054266,000139: 23,3622 50062 INDEX ITEMP2
054267,000140: 23,3623 52736 DXCH SINCDU
054268,000141: 23,3624 50062 INDEX ITEMP2
054269,000142: 23,3625 30765 CA CDUSPOT
054270,000143: 23,3626 05023 TC SPCOS
054271,000144: 23,3627 00006 EXTEND
054272,000145: 23,3630 74727 MP BIT14
054273,000146: 23,3631 50062 INDEX ITEMP2
054274,000147: 23,3632 52744 DXCH COSCDU
054275,000148: 23,3633 10062 CCS ITEMP2
054276,000149: 23,3634 13613 TCF QUICTRIG +4
054277,000150: 23,3635 30061 CA ITEMP1
054278,000151: 23,3636 00003 RELINT
054279,000152: 23,3637 00000 TC A
054280,000153:
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Page 1259 |
054282,000155: # ****************************************************************************************************************
054283,000156: # THESE INTERFACE ROUTINES MAKE IT POSSIBLE TO CALL AX*SR*T, ETC., IN
054284,000157: # INTERPRETIVE. LATER, WHERE POSSIBLE, THEY WILL BE ELIMINATED.
054285,000158:
054286,000159: # THESE INTERFACE ROUTINES ARE PERMANENT. ALL RESTORE USER'S EBANK
054287,000160: # SETTING. ALL ARE STRICT INTERPRETIVE SUBROUTINES, CALLED USING "CALL",
054288,000161: # RETURNING VIA QPRET. ALL EXPECT AND RETURN THE VECTOR TO BE TRANSFOR-
054289,000162: # MED INTERPRETER-STYLE IN MPAC; COMPONENTS AT MPAC, MPAC +3, AND MPAC +5.
054290,000163:
054291,000164: # TRG*SMNB AND TRG*NBSM BOTH EXPECT TO SEE THE 2'S COMPLEMENT ANGLES
054292,000165: # AT CDUSPOT (ORDER Y Z X, AT CDUSPOT, CDUSPOT +2, AND CDUSPOT +4; ODD
054293,000166: # LOCATIONS NEED NOT BE ZEROED). TRG*NBSM DOES THE NB TO SM TRANSFOR-
054294,000167: # MATION; TRG*SMNB, VICE VERSA.
054295,000168:
054296,000169: # CDU*NBSM DOES ITS TRANSFORMATION USING THE PRESENT CONTENTS OF
054297,000170: # THE CDU COUNTERS. OTHERWISE IT IS LIKE TRG*NBSM.
054298,000171:
054299,000172: # CDU*SMNB IS THE COMPLEMENT OF CDU*NBSM.
054300,000173:
054301,000174: 23,3640 77776 CDU*SMNB EXIT
054302,000175: 23,3641 03532 TC CDUTRIGS
054303,000176: 23,3642 13645 TCF C*MM*N1
054304,000177:
054305,000178: 23,3643 77776 TRG*SMNB EXIT
054306,000179: 23,3644 03540 TC CD*TR*GS
054307,000180: 23,3645 07553 C*MM*N1 TC MPACVBUF # AX*SR*T EXPECTS VECTOR IN VBUF
054308,000181: 23,3646 46266 CS THREE # SIGNAL FOR SM TO NB TRANSFORMATION
054309,000182: 23,3647 03667 C*MM*N2 TC AX*SR*T
054310,000183: 23,3650 06060 TC INTPRET
054311,000184: 23,3651 43575 VLOAD RVQ
054312,000185: 23,3652 00123 VBUF
054313,000186:
054314,000187: 23,3653 77776 CDU*NBSM EXIT
054315,000188: 23,3654 03532 TC CDUTRIGS
054316,000189: 23,3655 13660 TCF C*MM*N3
054317,000190:
054318,000191: 23,3656 77776 TRG*NBSM EXIT
054319,000192: 23,3657 03540 TC CD*TR*GS
054320,000193: 23,3660 07553 C*MM*N3 TC MPACVBUF # FOR AX*SR*T
054321,000194: 23,3661 36266 CA THREE # SIGNAL FOR NB TO SM TRANSFORMATION
054322,000195: 23,3662 13647 TCF C*MM*N2
054323,000196:
054324,000197: # *NBSM* AND *SMNB* EXPECT TO SEE THE SINES AND COSINES (AT SINCDU
054325,000198: # AND COSCDU) RATHER THAN THE ANGLES THEMSELVES. OTHERWISE THEY ARE
054326,000199: # LIKE TRG*NBSM AND TRG*SMNB.
054327,000200:
054328,000201: # NOTE THAT JUST AS CD*TR*GS NEED BE CALLED ONLY ONCE FOR EACH SERIES
054329,000202: # OF TRANSFORMATIONS USING THE SAME ANGLES, SO TOO ONLY ONE OF TRG*NBSM
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Page 1260 |
054331,000204: # AND TRG*SMNB NEED BE CALLED FOR EACH SERIES. FOR SUBSEQUENT TRANSFOR-
054332,000205: # MATIONS USE *NBSM* AND *SMNB*.
054333,000206:
054334,000207: 23,3663 77776 *SMNB* EXIT
054335,000208: 23,3664 13645 TCF C*MM*N1
054336,000209:
054337,000210: 23,3665 77776 *NBSM* EXIT
054338,000211: 23,3666 13660 TCF C*MM*N3
054339,000212:
054340,000213: # AX*SR*T COMBINES THE OLD SMNB AND NBSM. FOR THE NB TO SM
054341,000214: # TRANSFORMATION, ENTER WITH +3 IN A. FOR SM TO NB, ENTER WITH -3.
054342,000215: # THE VECTOR TO BE TRANSFORMED ARRIVES, AND IS RETURNED, IN VBUF.
054343,000216: # AX*SR*T EXPECTS TO FIND THE SINES AND COSINES OF THE ANGLES OF ROTATION
054344,000217: # AT SINCDU AND COSCDU, IN THE ORDER Y Z X. A CALL TO CD*TR*GS, WITH
054345,000218: # THE 2'S COMPLEMENT ANGLES (ORDER Y Z X) AT CDUSPOT, WILL TAKE CARE OF
054346,000219: # THIS. HERE IS A SAMPLE CALLING SEQUENCE:-
054347,000220: # TC CDUTRIGS
054348,000221: # CS THREE ("CA THREE" FOR NBSM)
054349,000222: # TC AX*SR*T
054350,000223: # THE CALL TO CD*TR*GS NEED NOT BE REPEATED, WHEN AX*SR*T IS CALLED MORE
054351,000224: # THAN ONCE, UNLESS THE ANGLES HAVE CHANGED.
054352,000225:
054353,000226: # AX*SR*T IS GUARANTEED SAFE ONLY FOR VECTORS OF MAGNITUDE LESS THAN
054354,000227: # UNITY. A LOOK AT THE CASE IN WHICH A VECTOR OF GREATER MAGNITUDE
054355,000228: # HAPPENS TO LIE ALONG AN AXIS OF THE SYSTEM TO WHICH IT IS TO BE TRANS-
054356,000229: # FORMED CONVINCES ONE THAT THIS IS A RESTRICTION WHICH MUST BE ACCEPTED.
054357,000230:
054358,000231: 23,3667 54142 AX*SR*T TS DEXDEX # WHERE IT BECOMES THE INDEX OF INDEXES
054359,000232: 23,3670 00006 EXTEND
054360,000233: 23,3671 22145 QXCH RTNSAVER
054361,000234:
054362,000235: 23,3672 10142 R*TL**P CCS DEXDEX # +3 --> 0 -3 --> 2
054363,000236: 23,3673 40142 CS DEXDEX # THUS: +2 --> 1 -2 --> 1
054364,000237: 23,3674 66266 AD THREE # +1 --> 2 -1 --> 0
054365,000238: 23,3675 00006 EXTEND
054366,000239: 23,3676 50000 INDEX A
054367,000240: 23,3677 33756 DCA INDEXI
054368,000241: 23,3700 52144 DXCH DEXI
054369,000242:
054370,000243: 23,3701 34744 CA ONE
054371,000244: 23,3702 54130 TS BUF
054372,000245: 23,3703 00006 EXTEND
054373,000246: 23,3704 50143 INDEX DEX1
054374,000247: 23,3705 40123 DCS VBUF
054375,000248: 23,3706 13710 TCF LOOP1 # REALLY BE A SUBTRACT, AND VICE VERSA
054376,000249:
054377,000250: 23,3707 52131 LOOP2 DXCH BUF # LOADING VECTOR COMPONENT, STORING INDEX
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Page 1261 |
054379,000252: 23,3710 52155 LOOP1 DXCH MPAC
054380,000253: 23,3711 33754 CA SINSLOC
054381,000254: 23,3712 60143 AD DEX1
054382,000255: 23,3713 54116 TS ADDRWD
054383,000256:
054384,000257: 23,3714 07130 TC DMPSUB # MULTIPLY BY SIN(CDUANGLE)
054385,000258: 23,3715 10142 CCS DEXDEX
054386,000259: 23,3716 52155 DXCH MPAC # NBSM CASE
054387,000260: 23,3717 13722 TCF +3
054388,000261: 23,3720 00006 EXTEND # SMNB CASE
054389,000262: 23,3721 40155 DCS MPAC
054390,000263: 23,3722 52160 DXCH TERM1TMP
054391,000264:
054392,000265: 23,3723 36263 CA SIX # SINCDU AND COSCDU (EACH 6 WORDS) MUST
054393,000266: 23,3724 26116 ADS ADDRWD # BE CONSECUTIVE AND IN THAT ORDER
054394,000267:
054395,000268: 23,3725 00006 EXTEND
054396,000269: 23,3726 50130 INDEX BUF
054397,000270: 23,3727 50143 INDEX DEX1
054398,000271: 23,3730 30123 DCA VBUF
054399,000272: 23,3731 52155 DXCH MPAC
054400,000273: 23,3732 07130 TC DMPSUB # MULTIPLY BY COS(CDUANGLE)
054401,000274: 23,3733 52155 DXCH MPAC
054402,000275: 23,3734 20160 DAS TERM1TMP
054403,000276: 23,3735 52160 DXCH TERM1TMP
054404,000277: 23,3736 20001 DDOUBL
054405,000278: 23,3737 50130 INDEX BUF
054406,000279: 23,3740 50143 INDEX DEX1
054407,000280: 23,3741 52123 DXCH VBUF
054408,000281: 23,3742 52131 DXCH BUF # LOADING INDEX, STORING VECTOR COMPONENT
054409,000282:
054410,000283: 23,3743 10000 CCS A # 'CAUSE THAT'S WHERE THE INDEX NOW IS
054411,000284: 23,3744 13707 TCF LOOP2
054412,000285:
054413,000286: 23,3745 00006 EXTEND
054414,000287: 23,3746 26142 DIM DEXDEX # DECREMENT MAGNITUDE PRESERVING SIGN
054415,000288:
054416,000289: 23,3747 10142 TSTPOINT CCS DEXDEX # ONLY THE BRANCHING FUNCTION IS USED
054417,000290: 23,3750 13672 TCF R*TL**P
054418,000291: 23,3751 00145 TC RTNSAVER
054419,000292: 23,3752 13672 TCF R*TL**P
054420,000293: 23,3753 00145 TC RTNSAVER
054421,000294:
054422,000295: 23,3754 00735 SINSLOC ADRES SINCDU # FOR USE IN SETTING ADDRWD
054423,000296:
054424,000297: 23,3755 00004 INDEXI DEC 4 B-14 # ********** DON'T **********
054425,000298: 23,3756 00002 DEC 2 B-14 # ********** TOUCH **********
054426,000299: 23,3757 00000 DEC 0 B-14 # ********** THESE **********
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Page 1262 |
054428,000301: 23,3760 00004 DEC 4 B-14 # ********** CONSTANTS **********
054429,000302:
054430,000303: # ****************************************************************************************************************
054431,000304:
054432,000305: 10,2030 BANK 10
054433,000306: 10,2000 SETLOC FLESHLOC
054434,000307: 10,2000 BANK
054435,000308: 10,2030 COUNT* $$/POWFL
054436,000309:
054437,000310: # ROUTINE FLESHPOT COMPUTES THE BODY-STABLE MEMBER TRANSFORMATION MATRIX (COMMONLY CALLED XNB) AND STORES
054438,000311: # IT IN THE LOCATIONS SPECIFIED BY THE ECADR ENTERING IN A.
054439,000312:
054440,000313: 10,2030 77776 CALCSMSC EXIT
054441,000314: 10,2031 04607 TC BANKCALL
054442,000315: 10,2032 20036 CADR FLESHPOT -1
054443,000316: 10,2033 06060 TC INTPRET
054444,000317: 10,2034 77616 RVQ
054445,000318:
054446,000319: 10,2035 02664 XNBECADR ECADR XNB
054447,000320:
054448,000321: 10,2036 32035 -1 CAF XNBECADR
054449,000322:
054450,000323: 10,2037 54142 FLESHPOT TS TEM2
054451,000324: 10,2040 56003 XCH EBANK
054452,000325: 10,2041 56142 XCH TEM2
054453,000326: 10,2042 74350 MASK LOW8
054454,000327: 10,2043 65000 AD OCT1400
054455,000328: 10,2044 54141 TS TEM1
054456,000329:
054457,000330: 10,2045 00006 EXTEND
054458,000331: 10,2046 30744 DCA COSCDUY
054459,000332: 10,2047 52155 DXCH MPAC
054460,000333: 10,2050 07124 TC DMP
054461,000334: 10,2051 00745 ADRES COSCDUZ
054462,000335: 10,2052 52155 DXCH MPAC
054463,000336: 10,2053 20001 DDOUBL
054464,000337: 10,2054 50141 INDEX TEM1
054465,000338: 10,2055 52001 DXCH 0 # = COSY COSZ
054466,000339:
054467,000340: 10,2056 00006 EXTEND
054468,000341: 10,2057 30740 DCA SINCDUZ
054469,000342: 10,2060 50141 INDEX TEM1
054470,000343: 10,2061 52003 DXCH 2 # = SINZ
054471,000344:
054472,000345: 10,2062 00006 EXTEND
054473,000346: 10,2063 40736 DCS SINCDUY
054474,000347: 10,2064 52155 DXCH MPAC
054475,000348: 10,2065 07130 TC DMPSUB # ADDRWD SET TO COSCDUZ
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Page 1263 |
054477,000350: 10,2066 52155 DXCH MPAC
054478,000351: 10,2067 20001 DDOUBL
054479,000352: 10,2070 50141 INDEX TEM1
054480,000353: 10,2071 52005 DXCH 4 # = - SINY COSZ
054481,000354:
054482,000355: 10,2072 00006 EXTEND
054483,000356: 10,2073 40742 DCS SINCDUX
054484,000357: 10,2074 52155 DXCH MPAC
054485,000358: 10,2075 07130 TC DMPSUB # ADDRWD SET TO COSCDUZ STILL
054486,000359: 10,2076 52155 DXCH MPAC
054487,000360: 10,2077 20001 DDOUBL
054488,000361: 10,2100 52160 DXCH MPAC +3
054489,000362:
054490,000363: 10,2101 00006 EXTEND
054491,000364: 10,2102 40742 DCS SINCDUX
054492,000365: 10,2103 52155 DXCH MPAC
054493,000366: 10,2104 07124 TC DMP
054494,000367: 10,2105 00737 ADRES SINCDUZ
054495,000368: 10,2106 00006 EXTEND
054496,000369: 10,2107 40155 DCS MPAC
054497,000370: 10,2110 52162 DXCH MPAC +5
054498,000371: 10,2111 07124 TC DMP
054499,000372: 10,2112 00735 ADRES SINCDUY
054500,000373: 10,2113 52155 DXCH MPAC
054501,000374: 10,2114 20001 DDOUBL
054502,000375: 10,2115 20001 DDOUBL
054503,000376: 10,2116 52162 DXCH MPAC +5
054504,000377:
054505,000378: 10,2117 52155 DXCH MPAC
054506,000379: 10,2120 07124 TC DMP
054507,000380: 10,2121 00743 ADRES COSCDUY
054508,000381: 10,2122 52155 DXCH MPAC
054509,000382: 10,2123 20001 DDOUBL
054510,000383: 10,2124 20001 DDOUBL
054511,000384: 10,2125 52131 DXCH BUF
054512,000385:
054513,000386: 10,2126 00006 EXTEND
054514,000387: 10,2127 30744 DCA COSCDUY
054515,000388: 10,2130 52155 DXCH MPAC
054516,000389: 10,2131 07124 TC DMP
054517,000390: 10,2132 00747 ADRES COSCDUX
054518,000391: 10,2133 52155 DXCH MPAC
054519,000392: 10,2134 20001 DDOUBL
054520,000393: 10,2135 20162 DAS MPAC +5
054521,000394:
054522,000395: 10,2136 00006 EXTEND
054523,000396: 10,2137 30736 DCA SINCDUY
054524,000397: 10,2140 52155 DXCH MPAC
054525,000398: 10,2141 07130 TC DMPSUB # ADDRWD SET TO COSCDUX
054526,000399: 10,2142 52155 DXCH MPAC
054527,000400:
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Page 1264 |
054529,000402: 10,2143 20001 DDOUBL
054530,000403: 10,2144 20131 DAS BUF
054531,000404:
054532,000405: 10,2145 52131 DXCH BUF
054533,000406: 10,2146 52155 DXCH MPAC
054534,000407:
054535,000408: 10,2147 00006 EXTEND
054536,000409: 10,2150 30155 DCA MPAC
054537,000410: 10,2151 50141 INDEX TEM1
054538,000411: 10,2152 52015 DXCH 14 # = SINY COSX + SINX SINZ COSY
054539,000412:
054540,000413: 10,2153 00006 EXTEND
054541,000414: 10,2154 30160 DCA MPAC +3
054542,000415: 10,2155 50141 INDEX TEM1
054543,000416: 10,2156 52017 DXCH 16 # = - SINX COSZ
054544,000417:
054545,000418: 10,2157 00006 EXTEND
054546,000419: 10,2160 30162 DCA MPAC +5
054547,000420: 10,2161 50141 INDEX TEM1
054548,000421: 10,2162 52021 DXCH 20 # = COSX COSY - SINX SINY SINZ
054549,000422:
054550,000423: 10,2163 30141 CA TEM1
054551,000424: 10,2164 54116 TS ADDRWD
054552,000425: 10,2165 00006 EXTEND
054553,000426: 10,2166 30006 DCA Z
054554,000427: 10,2167 64742 AD FOUR
054555,000428: 10,2170 52165 DXCH LOC
054556,000429: 10,2171 34735 CAF BIT8
054557,000430: 10,2172 54023 TS EDOP
054558,000431: 10,2173 17501 TCF VXV
054559,000432: 10,2174 52155 DXCH MPAC
054560,000433: 10,2175 20001 DDOUBL
054561,000434: 10,2176 50141 INDEX TEM1
054562,000435: 10,2177 52007 DXCH 6
054563,000436:
054564,000437: 10,2200 52160 DXCH MPAC +3
054565,000438: 10,2201 20001 DDOUBL
054566,000439: 10,2202 50141 INDEX TEM1
054567,000440: 10,2203 52011 DXCH 10
054568,000441:
054569,000442: 10,2204 52162 DXCH MPAC +5
054570,000443: 10,2205 20001 DDOUBL
054571,000444: 10,2206 50141 INDEX TEM1
054572,000445: 10,2207 52013 DXCH 12
054573,000446:
054574,000447: 10,2210 30142 CA TEM2
054575,000448: 10,2211 54003 TS EBANK
054576,000449: 10,2212 14622 TCF SWRETURN
054577,000450:
End of include-file POWERED_FLIGHT_SUBROUTINES.agc. Parent file is MAIN.agc