Source Code
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These source-code files are part of a reconstructed copy of Luminary 96, the
original release of the Apollo 11 Lunar Module (LM) Apollo Guidance Computer
(AGC) software.
The reconstruction began with reconstructed source code for Luminary 97. Changes
between revisions 96 and 97 were backed out, as described by anomal report LNY-59.
transcribed from a digitized copy of that program. The reconstruction was
verified by matching memory-bank checksums to those listed in drawing 2021152D.
Note that page numbers in the reconstructed code match those on the Luminary 099
revision 001 printout, although the added code would likely have changed page
numbers for a real Luminary 96 listing.
Comments from the original source code are prefixed with a single '#' symbol,
whereas comments added later are prefixed by "##" or "###". Report any errors
noted by creating an
issue report at the Virtual AGC
project's GitHub repository.
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003448,000002: ## Copyright: Public domain.
003449,000003: ## Filename: ERASABLE_ASSIGNMENTS.agc
003450,000004: ## Purpose: A section of Luminary revision 96.
003451,000005: ## It is part of the reconstructed source code for the
003452,000006: ## original release of the flight software for the Lunar
003453,000007: ## Module's (LM) Apollo Guidance Computer (AGC) for Apollo 11.
003454,000008: ## The code has been recreated from a previously reconstructed
003455,000009: ## copy of Luminary 97 by undoing changes described in anomaly
003456,000010: ## report LNY-59. The code has been adapted such that the
003457,000011: ## resulting bugger words exactly match those specified for
003458,000012: ## Luminary 96 in NASA drawing 2021152D, which gives relatively
003459,000013: ## high confidence that the reconstruction is correct.
003460,000014: ## Reference: pp. 90-152
003461,000015: ## Assembler: yaYUL
003462,000016: ## Contact: Ron Burkey <info@sandroid.org>.
003463,000017: ## Website: www.ibiblio.org/apollo/index.html
003464,000018: ## Mod history: 2019-08-04 MAS Created from Luminary 97.
003465,000019:
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003467,000021: # CONVENTIONS AND NOTATIONS UTILIZED FOR ERASABLE ASSIGNMENTS.
003468,000022:
003469,000023: # EQUALS IS USED IN TWO WAYS. IT IS OFTEN USED TO CHAIN A GROUP
003470,000024: # OF ASSIGNMENTS SO THAT THE GROUP MAY BE MOVED WITH THE
003471,000025: # CHANGING OF ONLY ONE CARD. EXAMPLE.
003472,000026:
003473,000027: # X EQUALS START
003474,000028: # Y EQUALS X +SIZE.X
003475,000029: # Z EQUALS Y +SIZE.Y
003476,000030:
003477,000031: # (X, Y, AND Z ARE CONSECUTIVE AND BEGIN AT START. )
003478,000032: # (SIZE.X AND SIZE.Y ARE THE RESPECTIVE SIZES OF X AND Y,
003479,000033: # USUALLY NUMERIC, IE. 1, 2, 6, 18D ETC. )
003480,000034:
003481,000035: # EQUALS OFTEN IMPLIES THE SHARING OF REGISTERS (DIFFERENT NAMES
003482,000036: # AND DIFFERENT DATA). EXAMPLE.
003483,000037:
003484,000038: # X EQUALS Y
003485,000039:
003486,000040: # = MEANS THAT MULTIPLE NAMES HAVE BEEN GIVEN TO THE SAME DATA.
003487,000041: # (THIS IS LOGICAL EQUIVALENCE, NOT SHARING) EXAMPLE.
003488,000042:
003489,000043: # X = Y
003490,000044:
003491,000045: # THE SIZE AND UTILIZATION OF AN ERASABLE ARE OFTEN INCLUDED IN
003492,000046: # THE COMMENTS IN THE FOLLOWING FORM. M(SIZE)N.
003493,000047:
003494,000048: # M REFERS TO THE MOBILITY OF THE ASSIGNMENT.
003495,000049: # B MEANS THAT THE SYMBOL IS REFERENCED BY BASIC
003496,000050: # INSTRUCTIONS AND THUS IS E-BANK SENSITIVE.
003497,000051: # I MEANS THAT THE SYMBOL IS REFERENCED ONLY BY
003498,000052: # INTERPRETIVE INSTRUCTIONS, AND IS THUS E-BANK
003499,000053: # INSENSITIVE AND MAY APPEAR IN ANY E-BANK.
003500,000054:
003501,000055: # SIZE IS THE NUMBER OF REGISTERS INCLUDED BY THE SYMBOL.
003502,000056:
003503,000057: # N INDICATES THE NATURE OR PERMANENCE OF THE CONTENTS.
003504,000058: # PL MEANS THAT THE CONTENTS ARE PAD LOADED.
003505,000059: # DSP MEANS THAT THE REGISTER IS USED FOR A DISPLAY.
003506,000060: # PRM MEANS THAT THE REGISTER IS PERMANENT, IE. IT
003507,000061: # IS USED DURING THE ENTIRE MISSION FOR ONE
003508,000062: # PURPOSE AND CANNOT BE SHARED.
003509,000063: # TMP MEANS THAT THE REGISTER IS USED TEMPORARILY OR
003510,000064: # IS A SCRATCH REGISTER FOR THE ROUTINE TO WHICH
003511,000065: # IT IS ASSIGNED. THAT IS, IT NEED NOT BE SET
003512,000066: # PRIOR TO INVOCATION OF THE ROUTINE NOR DOES IT
003513,000067: # CONTAIN USEFUL OUTPUT TO ANOTHER ROUTINE. THUS
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003515,000069: # IT MAY BE SHARED WITHANY OTHER ROUTINE WHICH
003516,000070: # IS NOT ACTIVE IN PARALLEL.
003517,000071: # IN MEANS INPUT TO THE ROUTINE AND IT IS PROBABLY
003518,000072: # TEMPORARY FOR A HIGHER-LEVEL ROUTINE/PROGRAM.
003519,000073: # OUT MEANS OUTPUT FROM THE ROUTINE, PROBABLY
003520,000074: # TEMPORARY FOR A HIGHER-LEVEL ROUTINE/PROGRAM.
003521,000075:
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003523,000077: # SPECIAL REGISTERS.
003524,000078:
003525,000079: 26,2022 A EQUALS 0
003526,000080: 26,2022 L EQUALS 1 # L AND Q ARE BOTH CHANNELS AND REGISTERS.
003527,000081: 26,2022 Q EQUALS 2
003528,000082: 26,2022 EBANK EQUALS 3
003529,000083: 26,2022 FBANK EQUALS 4
003530,000084: 26,2022 Z EQUALS 5 # ADJACENT TO FBANK AND BBANK FOR DXCH Z
003531,000085: 26,2022 BBANK EQUALS 6 # (DTCB) AND DXCH FBANK (DTCF).
003532,000086: # REGISTER 7 IS A ZERO-SOURCE, USED BY ZL.
003533,000087:
003534,000088: 26,2022 ARUPT EQUALS 10 # INTERRUPT STORAGE.
003535,000089: 26,2022 LRUPT EQUALS 11
003536,000090: 26,2022 QRUPT EQUALS 12
003537,000091: 26,2022 SAMPTIME EQUALS 13 # SAMPLED TIME 1 & 2.
003538,000092: 26,2022 ZRUPT EQUALS 15 # (13 AND 14 ARE SPARES.)
003539,000093: 26,2022 BANKRUPT EQUALS 16 # USUALLY HOLDS FBANK OR BBANK.
003540,000094: 26,2022 BRUPT EQUALS 17 # RESUME ADDRESS AS WELL.
003541,000095:
003542,000096: 26,2022 CYR EQUALS 20
003543,000097: 26,2022 SR EQUALS 21
003544,000098: 26,2022 CYL EQUALS 22
003545,000099: 26,2022 EDOP EQUALS 23 # EDITS INTERPRETIVE OPERATION CODE PAIRS.
003546,000100:
003547,000101: 26,2022 TIME2 EQUALS 24
003548,000102: 26,2022 TIME1 EQUALS 25
003549,000103: 26,2022 TIME3 EQUALS 26
003550,000104: 26,2022 TIME4 EQUALS 27
003551,000105: 26,2022 TIME5 EQUALS 30
003552,000106: 26,2022 TIME6 EQUALS 31
003553,000107: 26,2022 CDUX EQUALS 32
003554,000108: 26,2022 CDUY EQUALS 33
003555,000109: 26,2022 CDUZ EQUALS 34
003556,000110: 26,2022 CDUT EQUALS 35 # REND RADAR TRUNNION CDU
003557,000111: 26,2022 CDUS EQUALS 36 # REND RADAR SHAFT CDU
003558,000112: 26,2022 PIPAX EQUALS 37
003559,000113: 26,2022 PIPAY EQUALS 40
003560,000114: 26,2022 PIPAZ EQUALS 41
003561,000115: 26,2022 Q-RHCCTR EQUALS 42 # RHC COUNTER REGISTERS
003562,000116: 26,2022 P-RHCCTR EQUALS 43
003563,000117: 26,2022 R-RHCCTR EQUALS 44
003564,000118: 26,2022 INLINK EQUALS 45
003565,000119: 26,2022 RNRAD EQUALS 46
003566,000120: 26,2022 GYROCMD EQUALS 47
003567,000121: 26,2022 CDUXCMD EQUALS 50
003568,000122: 26,2022 CDUYCMD EQUALS 51
003569,000123: 26,2022 CDUZCMD EQUALS 52
003570,000124: 26,2022 CDUTCMD EQUALS 53 # RADAR TRUNNION COMMAND
003571,000125: 26,2022 CDUSCMD EQUALS 54 # RADAR SHAFT COMMAND
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003573,000127: 26,2022 THRUST EQUALS 55
003574,000128: 26,2022 LEMONM EQUALS 56
003575,000129: 26,2022 OUTLINK EQUALS 57
003576,000130: 26,2022 ALTM EQUALS 60
003577,000131:
003578,000132: # INTERPRETIVE REGISTERS ADDRESSED RELATIVE TO VAC AREA.
003579,000133:
003580,000134: 26,2022 LVSQUARE EQUALS 34D # SQUARE OF VECTOR INPUT TO ABVAL AND UNIT
003581,000135: 26,2022 LV EQUALS 36D # LENGTH OF VECTOR INPUT TO UNIT.
003582,000136: 26,2022 X1 EQUALS 38D # INTERPRETIVE SPECIAL REGISTERS RELATIVE
003583,000137: 26,2022 X2 EQUALS 39D # TO THE WORK AREA.
003584,000138: 26,2022 S1 EQUALS 40D
003585,000139: 26,2022 S2 EQUALS 41D
003586,000140: 26,2022 QPRET EQUALS 42D
003587,000141:
003588,000142: # INPUT/OUTPUT CHANNELS
003589,000143:
003590,000144: # *** CHANNEL ZERO IS TO BE USED IN AN INDEXED OPERATION ONLY. ***
003591,000145: 26,2022 0000001 LCHAN EQUALS L
003592,000146: 26,2022 0000002 QCHAN EQUALS Q
003593,000147: 26,2022 HISCALAR EQUALS 3
003594,000148: 26,2022 LOSCALAR EQUALS 4
003595,000149: 26,2022 CHAN5 EQUALS 5
003596,000150: 26,2022 CHAN6 EQUALS 6
003597,000151: 26,2022 SUPERBNK EQUALS 7 # SUPER-BANK.
003598,000152: 26,2022 OUT0 EQUALS 10
003599,000153: 26,2022 DSALMOUT EQUALS 11
003600,000154: 26,2022 CHAN12 EQUALS 12
003601,000155: 26,2022 CHAN13 EQUALS 13
003602,000156: 26,2022 CHAN14 EQUALS 14
003603,000157: 26,2022 MNKEYIN EQUALS 15
003604,000158: 26,2022 NAVKEYIN EQUALS 16
003605,000159: 26,2022 CHAN30 EQUALS 30
003606,000160: 26,2022 CHAN31 EQUALS 31
003607,000161: 26,2022 CHAN32 EQUALS 32
003608,000162: 26,2022 CHAN33 EQUALS 33
003609,000163: 26,2022 DNTM1 EQUALS 34
003610,000164: 26,2022 DNTM2 EQUALS 35
003611,000165:
003612,000166: # END OF CHANNEL ASSIGNMENTS
003613,000167:
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003615,000169: # INTERPRETIVE SWITCH BIT ASSIGNMENTS
003616,000170:
003617,000171: # ** FLAGWORDS AND BITS NOW ASSIGNED AND DEFINED IN THEIR OWN LOG SECTION. **
003618,000172:
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003620,000174: # GENERAL ERASABLE ASSIGNMENTS.
003621,000175:
003622,000176: 0061 SETLOC 61
003623,000177: # INTERRUPT TEMPORARY STORAGE POOL. (11D)
003624,000178:
003625,000179: # (ITEMP1 THROUGH RUPTREG4)
003626,000180:
003627,000181: # ANY OF THESE MAY BE USED AS TEMPORARIES DURING INTERRUPT OR WITH INTERRUPT INHIBITED. THE ITEMP SERIES
003628,000182: # IS USED DURING CALLS TO THE EXECUTIVE AND WAITLIST - THE RUPTREGS ARE NOT.
003629,000183:
003630,000184: 0061 ITEMP1 ERASE
003631,000185: 0062 0061 WAITEXIT EQUALS ITEMP1
003632,000186: 0062 0061 EXECTEM1 EQUALS ITEMP1
003633,000187:
003634,000188: 0062 ITEMP2 ERASE
003635,000189: 0063 0062 WAITBANK EQUALS ITEMP2
003636,000190: 0063 0062 EXECTEM2 EQUALS ITEMP2
003637,000191:
003638,000192: 0063 ITEMP3 ERASE
003639,000193: 0064 0063 RUPTSTOR EQUALS ITEMP3
003640,000194: 0064 0063 WAITADR EQUALS ITEMP3
003641,000195: 0064 0063 NEWPRIO EQUALS ITEMP3
003642,000196:
003643,000197: 0064 ITEMP4 ERASE
003644,000198: 0065 0064 LOCCTR EQUALS ITEMP4
003645,000199: 0065 0064 WAITTEMP EQUALS ITEMP4
003646,000200:
003647,000201: 0065 ITEMP5 ERASE
003648,000202: 0066 0065 NEWLOC EQUALS ITEMP5
003649,000203:
003650,000204: 0066 ITEMP6 ERASE
003651,000205: # NEWLOC+1 EQUALS ITEMP6 DP ADDRESS.
003652,000206:
003653,000207: 0067 SETLOC 67
003654,000208: 0067 NEWJOB ERASE # MUST BE AT LOC 67 DUE TO WIRING.
003655,000209:
003656,000210: 0070 RUPTREG1 ERASE
003657,000211: 0071 RUPTREG2 ERASE
003658,000212: 0072 RUPTREG3 ERASE
003659,000213: 0073 RUPTREG4 ERASE
003660,000214: 0074 0073 KEYTEMP1 EQUALS RUPTREG4
003661,000215: 0074 0073 DSRUPTEM EQUALS RUPTREG4
003662,000216:
003663,000217: # FLAGWORD RESERVATIONS. (16D)
003664,000218:
003665,000219: 0074 STATE ERASE +15D # FLAGWORD REGISTERS.
003666,000220:
003667,000221: # P25 RADAR STORAGE. (MAY BE UNSHARED IN E7) (TEMP OVERLAY) (2D) OVERLAYS FLGWRD 14 & 15
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003669,000223: 0114 0112 LASTYCMD EQUALS STATE +14D # B(1)PRM THESE ARE CALLED BY T4RUPT
003670,000224: 0114 0113 LASTXCMD EQUALS LASTYCMD +1 # B(1)PRM THEY MUST BE CONTIGUOUS, Y FIRST
003671,000225:
003672,000226: # EXEC TEMPORARIES WHICH MAY BE USED BETWEEN CCS NEWJOBS. (32D) (INTB15+ THROUGH RUPTMXTM)
003673,000227: 0114 INTB15+ ERASE # REFLECTS 15TH BIT OF INDEXABLE ADDRESSES
003674,000228: 0115 0114 DSEXIT = INTB15+ # RETURN FOR DSPIN
003675,000229: 0115 0114 EXITEM = INTB15+ # RETURN FOR SCALE FACTOR ROUTINE SELECT
003676,000230: 0115 0114 BLANKRET = INTB15+ # RETURN FOR 2BLANK
003677,000231:
003678,000232: 0115 INTBIT15 ERASE # SIMILAR TO ABOVE.
003679,000233: 0116 0115 WRDRET = INTBIT15 # RETURN FOR 5BLANK
003680,000234: 0116 0115 WDRET = INTBIT15 # RETURN FOR DSPWD
003681,000235: 0116 0115 DECRET = INTBIT15 # RETURN FOR PUTCOM(DEC LOAD)
003682,000236: 0116 0115 21/22REG = INTBIT15 # TEMP FOR CHARIN
003683,000237:
003684,000238: # THE REGISTERS BETWEEN ADDRWD AND PRIORITY MUST STAY IN THE FOLLOWING ORDER FOR INTERPRETIVE TRACE.
003685,000239:
003686,000240: 0116 ADDRWD ERASE # 12 BIT INTERPRETIVE OPERAND SUB-ADDRESS.
003687,000241: 0117 POLISH ERASE # HOLDS CADR MADE FROM POLISH ADDRESS.
003688,000242: 0120 0117 UPDATRET = POLISH # RETURN FOR UPDATNN, UPDATVB
003689,000243: 0120 0117 CHAR = POLISH # TEMP FOR CHARIN
003690,000244: 0120 0117 ERCNT = POLISH # COUNTER FOR ERROR LIGHT RESET
003691,000245: 0120 0117 DECOUNT = POLISH # COUNTER FOR SCALING AND DISPLAY (DEC)
003692,000246:
003693,000247: 0120 FIXLOC ERASE # WORK AREA ADDRESS.
003694,000248: 0121 OVFIND ERASE # SET NON-ZERO ON OVERFLOW.
003695,000249:
003696,000250: 0122 VBUF ERASE +5 # TEMPORARY STORAGE USED FOR VECTORS.
003697,000251: 0130 0122 SGNON = VBUF # TEMP FOR +,- ON
003698,000252: 0130 0122 NOUNTEM = VBUF # COUNTER FOR MIXNOUN FETCH
003699,000253: 0130 0122 DISTEM = VBUF # COUNTER FOR OCTAL DISPLAY VERBS
003700,000254: 0130 0122 DECTEM = VBUF # COUNTER FOR FETCH (DEC DISPLAY VERBS)
003701,000255:
003702,000256: 0130 0123 SGNOFF = VBUF +1 # TEMP FOR +,- ON
003703,000257: 0130 0123 NVTEMP = VBUF +1 # TEMP FOR NVSUB
003704,000258: 0130 0123 SFTEMP1 = VBUF +1 # STORAGE FOR SF CONST HI PART (=SFTEMP2-1)
003705,000259: 0130 0123 HITEMIN = VBUF +1 # TEMP FOR LOAD OF HRS,MIN,SEC
003706,000260: # MUST = LOTEMIN-1.
003707,000261:
003708,000262: 0130 0124 CODE = VBUF +2 # FOR DSPIN
003709,000263: 0130 0124 SFTEMP2 = VBUF +2 # STORAGE FOR SF CONST LO PART (=SFTEMP1+1)
003710,000264: 0130 0124 LOTEMIN = VBUF +2 # TEMP FOR LOAD OF HRS,MIN,SEC
003711,000265: # MUST = HITEMIN+1.
003712,000266:
003713,000267: 0130 0125 MIXTEMP = VBUF +3 # FOR MIXNOUN DATA
003714,000268: 0130 0125 SIGNRET = VBUF +3 # RETURN FOR +,- ON
003715,000269:
003716,000270: # ALSO MIXTEMP+1 = VBUF+4, MIXTEMP+2 = VBUF+5.
003717,000271:
003718,000272: 0130 BUF ERASE +2 # TEMPORARY SCALAR STORAGE.
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003720,000274: 0133 BUF2 ERASE +1
003721,000275: 0135 0130 INDEXLOC EQUALS BUF # CONTAINS ADDRESS OF SPECIFIED INDEX.
003722,000276: 0135 0130 SWWORD EQUALS BUF # ADDRESS OF SWITCH WORD.
003723,000277: 0135 0131 SWBIT EQUALS BUF +1 # SWITCH BIT WITHIN SWITCH WORD.
003724,000278: 0135 MPTEMP ERASE # TEMPORARY USED IN MULTIPLY AND SHIFT.
003725,000279: 0136 0135 DMPNTEMP = MPTEMP # DMPSUB TEMPORARY
003726,000280: 0136 DOTINC ERASE # COMPONENT INCREMENT FOR DOT SUBROUTINE.
003727,000281: 0137 0136 DVSIGN EQUALS DOTINC # DETERMINES SIGN OF DDV RESULT.
003728,000282: 0137 0136 ESCAPE EQUALS DOTINC # USED IN ARCSIN/ARCCOS.
003729,000283: 0137 0136 ENTRET = DOTINC # EXIT FROM ENTER
003730,000284:
003731,000285: 0137 DOTRET ERASE # RETURN FROM DOT SUBROUTINE.
003732,000286: 0140 0137 DVNORMCT EQUALS DOTRET # DIVIDEND NORMALIZATION COUNT IN DDV.
003733,000287: 0140 0137 ESCAPE2 EQUALS DOTRET # ALTERNATE ARCSIN/ARCCOS SWITCH.
003734,000288: 0140 0137 WDCNT = DOTRET # CHAR COUNTER FOR DSPWD
003735,000289: 0140 0137 INREL = DOTRET # INPUT BUFFER SELECTOR ( X,Y,Z, REG)
003736,000290:
003737,000291: 0140 MATINC ERASE # VECTOR INCREMENT IN MXV AND VXM.
003738,000292: 0141 0140 MAXDVSW EQUALS MATINC # +0 IF DP QUOTIENT IS NEAR ONE - ELSE -1.
003739,000293: 0141 0140 POLYCNT EQUALS MATINC # POLYNOMIAL LOOP COUNTER
003740,000294: 0141 0140 DSPMMTEM = MATINC # DSPCOUNT SAVE FOR DSPMM
003741,000295: 0141 0140 MIXBR = MATINC # INDICATOR FOR MIXED OR NORMAL NOUN
003742,000296:
003743,000297: 0141 TEM1 ERASE # EXEC TEMP
003744,000298: 0142 0141 POLYRET = TEM1
003745,000299: 0142 0141 DSREL = TEM1 # REL ADDRESS FOR DSPIN
003746,000300:
003747,000301: 0142 TEM2 ERASE # EXEC TEMP
003748,000302: 0143 0142 DSMAG = TEM2 # MAGNITUDE STORE FOR DSPIN
003749,000303: 0143 0142 IDADDTEM = TEM2 # MIXNOUN INDIRECT ADDRESS STORAGE
003750,000304:
003751,000305: 0143 TEM3 ERASE # EXEC TEMP
003752,000306: 0144 0143 COUNT = TEM3 # FOR DSPIN
003753,000307:
003754,000308: 0144 TEM4 ERASE # EXEC TEMP
003755,000309: 0145 0144 LSTPTR = TEM4 # LIST POINTER FOR GRABUSY
003756,000310: 0145 0144 RELRET = TEM4 # RETURN FOR RELDSP
003757,000311: 0145 0144 FREERET = TEM4 # RETURN FOR FREEDSP
003758,000312: 0145 0144 DSPWDRET = TEM4 # RETURN FOR DSPSIGN
003759,000313: 0145 0144 SEPSCRET = TEM4 # RETURN FOR SEPSEC
003760,000314: 0145 0144 SEPMNRET = TEM4 # RETURN FOR SEPMIN
003761,000315:
003762,000316: 0145 TEM5 ERASE # EXEC TEMP
003763,000317: 0146 0145 NOUNADD = TEM5 # TEMP STORAGE FOR NOUN ADDRESS
003764,000318:
003765,000319: 0146 NNADTEM ERASE # TEMP FOR NOUN ADDRESS TABLE ENTRY
003766,000320: 0147 NNTYPTEM ERASE # TEMP FOR NOUN TYPE TABLE ENTRY
003767,000321: 0150 IDAD1TEM ERASE # TEMP FOR INDIR ADRESS TABLE ENTRY (MIXNN)
003768,000322: # MUST = IDAD2TEM-1, = IDAD3TEM-2.
003769,000323: 0151 IDAD2TEM ERASE # TEMP FOR INDIR ADRESS TABLE ENTRY (MIXNN)
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003771,000325: # MUST = IDAD1TEM+1, = IDAD3TEM-1.
003772,000326: 0152 IDAD3TEM ERASE # TEMP FOR INDIR ADRESS TABLE ENTRY (MIXNN)
003773,000327: # MUST = IDAD1TEM+2, = IDAD2TEM+1.
003774,000328: 0153 RUTMXTEM ERASE # TEMP FOR SF ROUT TABLE ENTRY (MIXNN ONLY)
003775,000329:
003776,000330: # AX*SR*T STORAGE. (6D)
003777,000331: 0154 0142 DEXDEX EQUALS TEM2 # B(1)TMP
003778,000332: 0154 0143 DEX1 EQUALS TEM3 # B(1)TMP
003779,000333: 0154 0144 DEX2 EQUALS TEM4 # B(1)TMP
003780,000334: 0154 0145 RTNSAVER EQUALS TEM5 # B(1)TMP
003781,000335: 0154 0157 TERM1TMP EQUALS MPAC +3 # B(2)TMP
003782,000336:
003783,000337: 0154 0143 DEXI = DEX1
003784,000338:
003785,000339: # THE FOLLOWING 10 REGISTERS ARE USED FOR TEMPORARY STORAGE OF THE DERIVATIVE COEFFICIENT TABLE OF
003786,000340: # SUBROUTINE ROOTPSRS. THEY MUST REMAIN WITHOUT INTERFERENCE WITH ITS SUBROUTINES WHICH ARE POWRSERS (POLY),
003787,000341: # DMPSUB, DMPNSUB, SHORTMP, DDV/BDDV, ABS, AND USPRCADR.
003788,000342:
003789,000343: 0154 0142 DERCOF-8 = MPAC -12 # ROOTPSRS DER COF N-4 HI ORDER
003790,000344: 0154 0143 DERCOF-7 = MPAC -11 # ROOTPSRS DER COF N-4 LO ORDER
003791,000345: 0154 0144 DERCOF-6 = MPAC -10 # ROOTPSRS DER COF N-3 HI ORDER
003792,000346: 0154 0145 DERCOF-5 = MPAC -7 # ROOTPSRS DER COF N-3 LO ORDER
003793,000347: 0154 0146 DERCOF-4 = MPAC -6 # ROOTPSRS DER COF N-2 HI ORDER
003794,000348: 0154 0147 DERCOF-3 = MPAC -5 # ROOTPSRS DER COF N-2 LO ORDER
003795,000349: 0154 0150 DERCOF-2 = MPAC -4 # ROOTPSRS DER COF N-1 HI ORDER
003796,000350: 0154 0151 DERCOF-1 = MPAC -3 # ROOTPSRS DER COF N-1 LO ORDER
003797,000351: 0154 0152 DERCOFN = MPAC -2 # ROOTPSRS DER COF N HI ORDER
003798,000352: 0154 0153 DERCOF+1 = MPAC -1 # ROOTPSRS DER COF N LO ORDER
003799,000353:
003800,000354: 0154 0117 PWRPTR = POLISH # ROOTPSRS POWER TABLE POINTER
003801,000355: 0154 0124 DXCRIT = VBUF +2 # ROOTPSRS CRITERION FOR ENDING ITERS HI
003802,000356: 0154 0125 DXCRIT+1 = VBUF +3 # ROOTPSRS CRITERION FOR ENDING ITERS LO
003803,000357: 0154 0126 ROOTPS = VBUF +4 # ROOTPSRS ROOT HI ORDER
003804,000358: 0154 0127 ROOTPS+1 = VBUF +5 # ROOTPSRS ROOT LO ORDER
003805,000359: 0154 0132 RETROOT = BUF +2 # ROOTPSRS RETURN ADDRESS OF USER
003806,000360: 0154 0140 PWRCNT = MATINC # ROOTPSRS DER TABLE LOOP COUNTER
003807,000361: 0154 0141 DERPTR = TEM1 # ROOTPSRS DER TABLE POINTER
003808,000362:
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003810,000364: # DYNAMICALLY ALLOCATED CORE SETS FOR JOBS. (84D)
003811,000365:
003812,000366: 0154 MPAC ERASE +6 # MULTI-PURPOSE ACCUMULATOR.
003813,000367: 0163 MODE ERASE # +1 FOR TP, +0 FOR DP, OR -1 FOR VECTOR.
003814,000368: 0164 LOC ERASE # LOCATION ASSOCIATED WITH JOB.
003815,000369: 0165 BANKSET ERASE # USUALLY CONTAINS BBANK SETTING.
003816,000370: 0166 PUSHLOC ERASE # WORD OF PACKED INTERPRETIVE PARAMETERS.
003817,000371: 0167 PRIORITY ERASE # PRIORITY OF PRESENT JOB AND WORK AREA.
003818,000372:
003819,000373: 0170 ERASE +83D # EIGHT SETS OF 12 REGISTERS EACH
003820,000374:
003821,000375: # INCORP STORAGE: R22 (N29) (SHARES WITH FOLLOWING SECTION) (4D)
003822,000376:
003823,000377: 0314 0314 R22DISP EQUALS TIME2SAV # I(4) N49 DISPLAY OF DELTA R AND DELTA V
003824,000378:
003825,000379: # STANDBY VERB ERASABLES. REDOCTR BEFORE THETADS. (14D)
003826,000380:
003827,000381: 0314 TIME2SAV ERASE +1
003828,000382: 0316 SCALSAVE ERASE +1
003829,000383: 0320 REDOCTR ERASE # CONTAINS NUMBER OF RESTARTS
003830,000384: 0321 THETAD ERASE +2
003831,000385: 0324 0321 CPHI = THETAD # O DESIRED GIMBAL ANGLES
003832,000386: 0324 0322 CTHETA = THETAD +1 # I FOR
003833,000387: 0324 0323 CPSI = THETAD +2 # M MANEUVER.
003834,000388: 0324 DELV ERASE +5
003835,000389: 0332 0324 DELVX = DELV
003836,000390: 0332 0326 DELVY = DELV +2
003837,000391: 0332 0330 DELVZ = DELV +4
003838,000392:
003839,000393:
003840,000394: # DOWNLINK STORAGE. (28D)
003841,000395:
003842,000396: 0332 0332 DNLSTADR EQUALS DNLSTCOD
003843,000397:
003844,000398: 0332 DNLSTCOD ERASE # B(1)PRM DOWNLIINK LIST CODE
003845,000399: 0333 DUMPCNT ERASE # B(1)
003846,000400: 0334 LDATALST ERASE +25D # (26D)
003847,000401: 0366 0335 DNTMGOTO EQUALS LDATALST +1 # B(1)
003848,000402: 0366 0336 TMINDEX EQUALS DNTMGOTO +1 # B(1)
003849,000403: 0366 0336 DUMPLOC EQUALS TMINDEX # CONTAINS ECADR OF AGC DP WORD BEING DUMP
003850,000404: # ED AND COUNT OF COMPLETE DUMPS ALREADY S
003851,000405: # ENT.
003852,000406: 0366 0337 DNQ EQUALS TMINDEX +1 # B(1)
003853,000407: 0366 0340 DNTMBUFF EQUALS DNQ +1 # B(22)PRM DOWNLINK SNAPSHOT BUFFER
003854,000408:
003855,000409: # UNSWITCHED FOR DISPLAY INTERFACE ROUTINES. (10D) FIVE MORE IN EBANK 2
003856,000410:
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003858,000412: 0366 RESTREG ERASE # B(1)PRM FOR DISPLAY RESTARTS
003859,000413: 0367 NVWORD ERASE
003860,000414: 0370 MARKNV ERASE
003861,000415: 0371 NVSAVE ERASE
003862,000416: # (RETAIN THE ORDER OF CADRFLSH TO FAILREG +2 FOR DOWNLINK PURPOSES)
003863,000417: 0372 CADRFLSH ERASE
003864,000418: 0373 CADRMARK ERASE
003865,000419: 0374 TEMPFLSH ERASE
003866,000420: 0375 FAILREG ERASE +2 # B(3)PRM 3 ALARM CODE REGISTERS
003867,000421:
003868,000422: # VAC AREAS. - BE CAREFUL OF PLACEMENT- (220D)
003869,000423:
003870,000424: 0400 VAC1USE ERASE
003871,000425: 0401 VAC1 ERASE +42D
003872,000426: 0454 VAC2USE ERASE
003873,000427: 0455 VAC2 ERASE +42D
003874,000428: 0530 VAC3USE ERASE
003875,000429: 0531 VAC3 ERASE +42D
003876,000430: 0604 VAC4USE ERASE
003877,000431: 0605 VAC4 ERASE +42D
003878,000432: 0660 VAC5USE ERASE
003879,000433: 0661 VAC5 ERASE +42D
003880,000434:
003881,000435: # WAITLIST REPEAT FLAG. (1D)
003882,000436: 0734 RUPTAGN ERASE
003883,000437: 0735 0734 KEYTEMP2 = RUPTAGN # TEMP FOR KEYRUPT, UPRUPT
003884,000438:
003885,000439: # STARALIGN ERASABLES. (13D)
003886,000440:
003887,000441: 0735 STARCODE ERASE # (1)
003888,000442: 0736 0735 AOTCODE = STARCODE
003889,000443: 0736 STARALGN ERASE +11D
003890,000444: 0752 0736 SINCDU = STARALGN
003891,000445: 0752 0744 COSCDU = STARALGN +6
003892,000446:
003893,000447: 0752 0742 SINCDUX = SINCDU +4
003894,000448: 0752 0736 SINCDUY = SINCDU
003895,000449: 0752 0740 SINCDUZ = SINCDU +2
003896,000450: 0752 0750 COSCDUX = COSCDU +4
003897,000451: 0752 0744 COSCDUY = COSCDU
003898,000452: 0752 0746 COSCDUZ = COSCDU +2
003899,000453:
003900,000454: # PHASE TABLE AND RESTART COUNTERS. (12D)
003901,000455:
003902,000456: 0752 -PHASE1 ERASE
003903,000457:
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003905,000459: 0753 PHASE1 ERASE
003906,000460: 0754 -PHASE2 ERASE
003907,000461: 0755 PHASE2 ERASE
003908,000462: 0756 -PHASE3 ERASE
003909,000463: 0757 PHASE3 ERASE
003910,000464: 0760 -PHASE4 ERASE
003911,000465: 0761 PHASE4 ERASE
003912,000466: 0762 -PHASE5 ERASE
003913,000467: 0763 PHASE5 ERASE
003914,000468: 0764 -PHASE6 ERASE
003915,000469: 0765 PHASE6 ERASE
003916,000470:
003917,000471: # A**SR*T STORAGE. (6D)
003918,000472:
003919,000473: 0766 CDUSPOT ERASE +5 # B(6)
003920,000474:
003921,000475: 0774 0766 CDUSPOTY = CDUSPOT
003922,000476: 0774 0770 CDUSPOTZ = CDUSPOT +2
003923,000477: 0774 0772 CDUSPOTX = CDUSPOT +4
003924,000478:
003925,000479: # VERB 37 STORAGE. (2D)
003926,000480:
003927,000481: 0774 MINDEX ERASE # B(1)TMP INDEX FOR MAJOR MODE
003928,000482: 0775 MMNUMBER ERASE # B(1)TMP MAJOR MODE REQUESTED BY V37
003929,000483:
003930,000484: # PINBALL INTERRUPT ACTION. (1D)
003931,000485:
003932,000486: 0776 DSPCNT ERASE # B(1)PRM COUNTER FOR DSPOUT.
003933,000487:
003934,000488: # PINBALL EXECUTIVE ACTION (44D)
003935,000489:
003936,000490: 0777 DSPCOUNT ERASE # DISPLAY POSITION INDICATOR.
003937,000491: 1000 DECBRNCH ERASE # +DEC, -DEC, OCT INDICATOR
003938,000492: 1001 VERBREG ERASE # VERB CODE
003939,000493: 1002 NOUNREG ERASE # NOUN CODE
003940,000494: 1003 XREG ERASE # R1 INPUT BUFFER
003941,000495: 1004 YREG ERASE # R2 INPUT BUFFER
003942,000496: 1005 ZREG ERASE # R3 INPUT BUFFER
003943,000497: 1006 XREGLP ERASE # LO PART OF XREG (FOR DEC CONV ONLY)
003944,000498: 1007 YREGLP ERASE # LO PART OF YREG (FOR DEC CONV ONLY)
003945,000499: 1010 1007 HITEMOUT = YREGLP # TEMP FOR DISPLAY OF HRS,MIN,SEC
003946,000500: # MUST = LOTEMOUT-1.
003947,000501: 1010 ZREGLP ERASE # LO PART OF ZREG (FOR DEC CONV ONLY)
003948,000502: 1011 1010 LOTEMOUT = ZREGLP # TEMP FOR DISPLAY OF HRS,MIN,SEC
003949,000503: # MUST = HITEMOUT+1.
003950,000504: 1011 MODREG ERASE # MODE CODE
003951,000505:
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003953,000507: 1012 DSPLOCK ERASE # KEYBOARD/SUBROUTINE CALL INTERLOCK
003954,000508: 1013 REQRET ERASE # RETURN REGISTER FOR LOAD
003955,000509: 1014 LOADSTAT ERASE # STATUS INDICATOR FOR LOADTST
003956,000510: 1015 CLPASS ERASE # PASS INDICATOR CLEAR
003957,000511: 1016 NOUT ERASE # ACTIVITY COUNTER FOR DSPTAB
003958,000512: 1017 NOUNCADR ERASE # MACHINE CADR FOR NOUN
003959,000513: 1020 MONSAVE ERASE # N/V CODE FOR MONITOR. (= MONSAVE1-1)
003960,000514: 1021 MONSAVE1 ERASE # NOUNCADR FOR MONITOR (MATBS) = MONSAVE+1
003961,000515: 1022 MONSAVE2 ERASE # NVMONOPT OPTIONS
003962,000516: 1023 DSPTAB ERASE +11D # 0-10D, DISPLAY PANEL BUFF. 11D, C/S LTS.
003963,000517: 1037 NVQTEM ERASE # NVSUB STORAGE FOR CALLING ADDRESS
003964,000518: # MUST = NVBNKTEM-1
003965,000519: 1040 NVBNKTEM ERASE # NVSUB STORAGE FOR CALLING BANK
003966,000520: # MUST = NVQTEM+1
003967,000521: 1041 VERBSAVE ERASE # NEEDED FOR RECYCLE
003968,000522: 1042 CADRSTOR ERASE # ENDIDLE STORAGE
003969,000523: 1043 DSPLIST ERASE # WAITING REG FOR DSP SYST INTERNAL USE
003970,000524: 1044 EXTVBACT ERASE # EXTENDED VERB ACTIVITY INTERLOCK
003971,000525: 1045 DSPTEM1 ERASE +2 # BUFFER STORAGE AREA 1 (MOSTLY FOR TIME)
003972,000526: 1050 DSPTEM2 ERASE +2 # BUFFER STORAGE AREA 2 (MOSTLY FOR DEG)
003973,000527:
003974,000528: 1053 1051 DSPTEMX EQUALS DSPTEM2 +1 # B(2) S-S DISPLAY BUFFER FOR EXT. VERBS
003975,000529: 1053 1045 NORMTEM1 EQUALS DSPTEM1 # B(3)DSP NORMAL DISPLAY REGISTERS.
003976,000530:
003977,000531: # DISPLAY FOR EXTENDED VERBS (V82, R04(V62), V41(N72) ) (2D)
003978,000532:
003979,000533: 1053 1051 OPTIONX EQUALS DSPTEMX # (2) EXTENDED VERB OPTION CODE
003980,000534:
003981,000535: # TBASES AND PHSPRDT S. (12D)
003982,000536:
003983,000537: 1053 TBASE1 ERASE
003984,000538: 1054 PHSPRDT1 ERASE
003985,000539: 1055 TBASE2 ERASE
003986,000540: 1056 PHSPRDT2 ERASE
003987,000541: 1057 TBASE3 ERASE
003988,000542: 1060 PHSPRDT3 ERASE
003989,000543: 1061 TBASE4 ERASE
003990,000544: 1062 PHSPRDT4 ERASE
003991,000545: 1063 TBASE5 ERASE
003992,000546: 1064 PHSPRDT5 ERASE
003993,000547: 1065 TBASE6 ERASE
003994,000548: 1066 PHSPRDT6 ERASE
003995,000549:
003996,000550: # UNSWITCHED FOR DISPLAY INTERFACE ROUTINES. (6D)
003997,000551:
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003999,000553: 1067 NVWORD1 ERASE # B(1) PROBABLY FOR DISPLAY DURING SERVICER
004000,000554: 1070 EBANKSAV ERASE
004001,000555: 1071 MARKEBAN ERASE
004002,000556: 1072 EBANKTEM ERASE
004003,000557: 1073 MARK2PAC ERASE
004004,000558: 1074 R1SAVE ERASE
004005,000559:
004006,000560: # IMU COMPENSATION UNSWITCHED ERASABLE. (1D)
004007,000561:
004008,000562: 1075 1/PIPADT ERASE
004009,000563:
004010,000564: # SINGLE PRECISION SUBROUTINE TEMPORARIES. (2D)
004011,000565:
004012,000566: 1076 TEMK ERASE # (1)
004013,000567: 1077 SQ ERASE # (1)
004014,000568:
004015,000569: # UNSWITCHED RADAR ERASABLE (13D)
004016,000570:
004017,000571: 1100 SAMPLIM ERASE
004018,000572: 1101 SAMPLSUM ERASE +3
004019,000573: 1105 TIMEHOLD ERASE +1
004020,000574: 1107 1101 RRTARGET EQUALS SAMPLSUM # HALF U IT VECTOR IN SM OR NB AXES.
004021,000575: 1107 TANG ERASE +1 # DESIRE TRUNNION AND SHAFT ANGLES.
004022,000576: 1111 1107 MODEA EQUALS TANG
004023,000577: 1111 MODEB ERASE +1 # DODES LOBBERS TANG +2.
004024,000578: 1113 1111 NSAMP EQUALS MODEB
004025,000579: 1113 DESRET ERASE
004026,000580: 1114 1113 OLDATAGD EQUALS DESRET # USED I DATA READING ROUTINES.
004027,000581: 1114 DESCOUNT ERASE
004028,000582:
004029,000583: # ****** P22 ****** (6D)
004030,000584:
004031,000585: 1115 1101 RSUBC EQUALS RRTARGET # I(6) S-S CSM POSITION VECTOR
004032,000586:
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004034,000588: # UNSWITCHED FOR ORBIT INTEGRATION. (21D)
004035,000589:
004036,000590: 1115 TDEC ERASE +20D # I(2)
004037,000591: 1142 1117 COLREG EQUALS TDEC +2 # I(1)
004038,000592: 1142 1120 LAT EQUALS COLREG +1 # I(2)
004039,000593: 1142 1122 LONG EQUALS LAT +2 # I(2)
004040,000594: 1142 1124 ALT EQUALS LONG +2 # I(2)
004041,000595: 1142 1126 YV EQUALS ALT +2 # I(6)
004042,000596: 1142 1134 ZV EQUALS YV +6 # I(6)
004043,000597:
004044,000598: # MISCELLANEOUS UNSWITCHED. (20D)
004045,000599:
004046,000600: 1142 P40/RET ERASE # (WILL BE PUT IN E6 WHEN THERE IS ROOM)
004047,000601: 1143 GENRET ERASE # B(1) R61 RETURN CADR.
004048,000602: 1144 OPTION1 ERASE # B(1) NOUN 06 USES THIS
004049,000603: 1145 OPTION2 ERASE # B(1) NOUN 06 USES THIS
004050,000604: 1146 OPTION3 ERASE # B(1) NOUN 06 USES THIS
004051,000605: 1147 LONGCADR ERASE +1 # B(2) LONGCALL REGISTER
004052,000606: 1151 LONGBASE ERASE +1
004053,000607: 1153 LONGTIME ERASE +1 # B(2) LONGCALL REGISTER
004054,000608: 1155 CDUTEMPX ERASE # B(1)TMP
004055,000609: 1156 CDUTEMPY ERASE # B(1)TMP
004056,000610: 1157 CDUTEMPZ ERASE # B(1)TMP
004057,000611: 1160 PIPATMPX ERASE # B(1)TMP
004058,000612: 1161 PIPATMPY ERASE # B(1)TMP
004059,000613: 1162 PIPATMPZ ERASE # B(1)TMP
004060,000614:
004061,000615: 1163 DISPDEX ERASE # B(1)
004062,000616: 1164 TEMPR60 ERASE # B(1)
004063,000617: 1165 PRIOTIME ERASE # B(1)
004064,000618:
004065,000619: # P27 (UPDATE PROGRAM) STORAGE. (26D)
004066,000620:
004067,000621: 1166 UPVERBSV ERASE # B(1) UPDATE VERB ATTEMPTED.
004068,000622: 1167 UPTEMP ERASE +24D # B(1)TMP SCRATCH
004069,000623: 1220 1167 INTWAK1Q EQUALS UPTEMP # (BORROWS UPTEMP REGISTERS)
004070,000624: # RETAIN THE ORDER OF COMPNUMB THRU UPBUFF +19D FOR DOWNLINK PURPOSES.
004071,000625: 1220 1170 COMPNUMB EQUALS UPTEMP +1 # B(1)TMP NUMBER OF ITEMS TO BE UPLINKED
004072,000626: 1220 1171 UPOLDMOD EQUALS COMPNUMB +1 # B(1)TMP INTERRUPTED PROGRAM MM
004073,000627: 1220 1172 UPVERB EQUALS UPOLDMOD +1 # B(1)TMP VERB NUMBER
004074,000628: 1220 1173 UPCOUNT EQUALS UPVERB +1 # B(1)TMP UPBUFF INDEX
004075,000629: 1220 1174 UPBUFF EQUALS UPCOUNT +1 # B(20D)
004076,000630:
004077,000631: # SPECIAL DEFINITION FOR SYSTEM TEST ERASABLE PGMS. (2D)
004078,000632:
004079,000633: 1220 1167 EBUF2 EQUALS UPTEMP # B(2) FOR EXCLUSIVE USE OF SYSTEM TEST
004080,000634:
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004082,000636: # PERM STATE VECTORS FOR BOOST AND DOWNLINK-WHOLE MISSION- (14D)
004083,000637:
004084,000638: 1220 RN ERASE +5 # B(6)PRM
004085,000639: 1226 VN ERASE +5 # B(6)PRM
004086,000640: 1234 PIPTIME ERASE +1 # B(2)PRM (MUST BE FOLLOWED BY GDT/2)
004087,000641:
004088,000642: # SERVICER -MUST FOLLOW PIPTIME- (19D)
004089,000643:
004090,000644: 1236 GDT/2 ERASE +19D # B(6)TMP (MUST FOLLOW PIPTIME)
004091,000645: 1262 1244 MASS EQUALS GDT/2 +6 # B(2)
004092,000646: 1262 1244 WEIGHT/G = MASS
004093,000647: 1262 1246 ABDELV EQUALS MASS +2 # ALCMANU STORAGE)
004094,000648: 1262 1247 PGUIDE EQUALS ABDELV +1 # (2)
004095,000649: 1262 1251 DVTHRUSH EQUALS PGUIDE +2 # (1)
004096,000650: 1262 1252 AVEGEXIT EQUALS DVTHRUSH +1 # (2)
004097,000651: 1262 1252 AVGEXIT = AVEGEXIT
004098,000652: 1262 1254 TEMX EQUALS AVEGEXIT +2 # (1)
004099,000653: 1262 1255 TEMY EQUALS TEMX +1 # (1)
004100,000654: 1262 1256 TEMZ EQUALS TEMY +1 # (1)
004101,000655: 1262 1257 PIPAGE EQUALS TEMZ +1 # B(1)
004102,000656: 1262 1260 OUTROUTE EQUALS PIPAGE +1 # B(1)
004103,000657:
004104,000658: # PERMANENT LEM DAP STORAGE. (12D)
004105,000659:
004106,000660: 1262 CH5MASK ERASE # B(1)PRM
004107,000661: 1263 CH6MASK ERASE # B(1)PRM JET FAILURE MASK.
004108,000662: 1264 DTHETASM ERASE +5 # (6)
004109,000663: 1272 SPNDX ERASE # B(1)
004110,000664: 1273 RCSFLAGS ERASE # AUTOPILOT FLAG WORD
004111,000665: # BIT ASSIGNMENTS:
004112,000666: # 1) ALTERYZ SWITCH (ZEROOR1)
004113,000667: # 2) NEEDLER SWITCH
004114,000668: # 3) NEEDLER SWITCH
004115,000669: # 4) NEEDLER SWITCH
004116,000670: # 5) NEEDLER SWITCH
004117,000671: # 9) JUST-IN-DETENT SWITCH
004118,000672: # 10) PBIT - MANUAL CONTROL SWITCH
004119,000673: # 11) QRBIT - MANUAL CONTROL SWITCH
004120,000674: # 12) PSKIP CONTROL (PJUMPADR)
004121,000675: # 13) 1/ACCJOB CONTROL (ACCSET)
004122,000676: 1274 T5ADR ERASE +1 # GENADR OF NEXT LM DAP T5RUPT. * 2CADR *
004123,000677: # BBCON OF NEXT LM DAP T5RUPT. 2CADR
004124,000678:
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004126,000680:
004127,000681: # RCS FAILURE MONITOR STORAGE. (1)
004128,000682:
004129,000683: 1276 PVALVEST ERASE # B(1)PRM
004130,000684:
004131,000685: # KALCMANU/DAP INTERFACE. (3D)
004132,000686:
004133,000687: 1277 DELPEROR ERASE # B(1)PRM COMMAND LAGS.
004134,000688: 1300 DELQEROR ERASE # B(1)PRM
004135,000689: 1301 DELREROR ERASE # B(1)PRM
004136,000690:
004137,000691: # MODE SWITCHING ERASABLE. (9D)
004138,000692:
004139,000693: # RETAIN THE ORDER OF IMODES30 AND IMODES33 FOR DOWNLINK PURPOSES.
004140,000694: 1302 IMODES30 ERASE # B(1)
004141,000695: 1303 IMODES33 ERASE
004142,000696: 1304 MODECADR ERASE +2 # B(3)PRM
004143,000697: 1307 1304 IMUCADR EQUALS MODECADR
004144,000698: 1307 1305 OPTCADR EQUALS MODECADR +1
004145,000699: 1307 1306 RADCADR EQUALS MODECADR +2
004146,000700: 1307 ATTCADR ERASE +2 # B(3)PRM
004147,000701: 1312 1311 ATTPRIO = ATTCADR +2
004148,000702: 1312 MARKSTAT ERASE
004149,000703:
004150,000704: # T4RUPT ERASABLE. (2D)
004151,000705:
004152,000706: 1313 DSRUPTSW ERASE
004153,000707: 1314 LGYRO ERASE # (1)
004154,000708:
004155,000709: # RENDEZVOUS RADAR TASK STORAGE (3D)
004156,000710:
004157,000711: 1315 RRRET ERASE +2D # B(1)TMP P20'S, PERHAPS R29 & R12
004158,000712: 1320 1316 RDES EQUALS RRRET +1 # B(1)TMP
004159,000713: 1320 1317 RRINDEX EQUALS RDES +1 # B(1)TMP
004160,000714:
004161,000715: # MEASINC (4D)
004162,000716:
004163,000717: 1320 WIXA ERASE # B(1)
004164,000718: 1321 WIXB ERASE # B(1)
004165,000719: 1322 ZIXA ERASE # B(1)
004166,000720: 1323 ZIXB ERASE # B(1)
004167,000721:
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004169,000723:
004170,000724: # AGS DUMMY ID WORD. (1D)
004171,000725:
004172,000726: 1324 AGSWORD ERASE
004173,000727:
004174,000728: # SOME MISCELLANEOUS UNSWITCHED. (6D)
004175,000729:
004176,000730: 1325 RATEINDX ERASE # (1) USED BY KALCMANU
004177,000731: 1326 DELAYLOC ERASE +2
004178,000732: 1331 LEMMASS ERASE # KEEP CONTIGUOUS W. CSMMASS (1) EACH
004179,000733: 1332 CSMMASS ERASE
004180,000734:
004181,000735: # LESS IS MORE.
004182,000736:
004183,000737: # RENDEZVOUS AND LANDING RADAR DOWNLINK STORAGE. (7D)
004184,000738:
004185,000739: # (NORMALLY USED DURING P20, BUT MAY ALSO)
004186,000740: # (BE REQUIRED FOR THE V62 SPURIOUS TEST.)
004187,000741:
004188,000742: # (PLEASE KEEP IN THIS ORDER)
004189,000743:
004190,000744: 1333 DNRRANGE ERASE +6 # B(1)TMP
004191,000745: 1342 1334 DNRRDOT EQUALS DNRRANGE +1 # B(1)TMP
004192,000746: 1342 1335 DNINDEX EQUALS DNRRDOT +1 # B(1)TMP
004193,000747: 1342 1336 DNLRVELX EQUALS DNINDEX +1 # B(1)TMP
004194,000748: 1342 1337 DNLRVELY EQUALS DNLRVELX +1 # B(1)TMP
004195,000749: 1342 1340 DNLRVELZ EQUALS DNLRVELY +1 # B(1)TMP
004196,000750: 1342 1341 DNLRALT EQUALS DNLRVELZ +1 # B(1)TMP
004197,000751:
004198,000752: # INCORPORATION UNSWITCHED. (2D)
004199,000753:
004200,000754: 1342 1257 W.IND EQUALS PIPAGE # B(1)
004201,000755: 1342 1260 W.INDI EQUALS W.IND +1 # I(1)
004202,000756:
004203,000757: # SUBROUTINE BALLANGS OF R60. (1D)
004204,000758:
004205,000759: 1342 BALLEXIT ERASE # B(1) SAVE LOCATION FOR BALLINGS SUBR EXIT
004206,000760:
004207,000761: # SOME LEM DAP STORAGE. (4D)
004208,000762:
004209,000763: 1343 DAPDATR1 ERASE # B(1)DSP DAP CONFIG.
004210,000764: 1344 TEVENT ERASE +1 # B(2)DSP
004211,000765: 1346 DB ERASE # B(1)TMP DEAD BAND.
004212,000766:
004213,000767: # NOUN 87 (2D)
004214,000768: 1347 AZ ERASE +1D # B(1) AZ AND EL MUST BE CONTIGUOUS
004215,000769:
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004217,000771: 1351 1350 EL EQUALS AZ +1D # B(1)
004218,000772:
004219,000773: # P63, P64, P65, P66, AND P67. (1D)
004220,000774:
004221,000775: 1351 WCHPHASE ERASE # B(1)
004222,000776:
004223,000777: # ERASABLES FOR THE R2 LUNAR POTENTIAL MODEL (2D)
004224,000778:
004225,000779: 1352 E3J22R2M ERASE # I(1)
004226,000780: 1353 E32C31RM ERASE # I(1)
004227,000781:
004228,000782: 1354 END-UE EQUALS # NEXT UNUSED UE ADDRESS
004229,000783:
004230,000784: # SELF-CHECK ASSIGNMENTS. (17D)
004231,000785:
004232,000786: # (DO NOT MOVE, S-C IS ADDRESS SENSITIVE)
004233,000787:
004234,000788: 1354 SELFERAS ERASE 1357 - 1377 # *** MUST NOT BE MOVED ***
004235,000789: 1354 1357 SFAIL EQUALS SELFERAS # B(1)
004236,000790: 1354 1360 ERESTORE EQUALS SFAIL +1 # B(1)
004237,000791: 1354 1361 SELFRET EQUALS ERESTORE +1 # B(1) RETURN
004238,000792: 1354 1362 SMODE EQUALS SELFRET +1 # B(1)
004239,000793: 1354 1363 ALMCADR EQUALS SMODE +1 # B(2) ALARM-ABORT USER'S 2CADR
004240,000794: 1354 1365 ERCOUNT EQUALS ALMCADR +2 # B(1)
004241,000795: 1354 1366 SCOUNT EQUALS ERCOUNT +1 # B(3)
004242,000796: 1354 1371 SKEEP1 EQUALS SCOUNT +3 # B(1)
004243,000797: 1354 1372 SKEEP2 EQUALS SKEEP1 +1 # B(1)
004244,000798: 1354 1373 SKEEP3 EQUALS SKEEP2 +1 # B(1)
004245,000799: 1354 1374 SKEEP4 EQUALS SKEEP3 +1 # B(1)
004246,000800: 1354 1375 SKEEP5 EQUALS SKEEP4 +1 # B(1)
004247,000801: 1354 1376 SKEEP6 EQUALS SKEEP5 +1 # B(1)
004248,000802: 1354 1377 SKEEP7 EQUALS SKEEP6 +1 # B(1)
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004250,000804: # EBANK-3 ASSIGNMENTS
004251,000805:
004252,000806: E3,1400 SETLOC 1400
004253,000807:
004254,000808: # WAITLIST TASK LISTS. (26D)
004255,000809:
004256,000810: E3,1400 LST1 ERASE +7 # B(8D)PRM DELTA T S.
004257,000811: E3,1410 LST2 ERASE +17D # B(18D)PRM TASK 2CADR ADDRESSES.
004258,000812:
004259,000813: # RESTART STORAGE. (2D)
004260,000814:
004261,000815: E3,1432 RSBBQ ERASE +1 # B(2)PRM SAVE BB AND Q FOR RESTARTS.
004262,000816:
004263,000817: # MORE LONGCALL STORAGE. (MUST BE IN LST1 S BANK. (2D)
004264,000818:
004265,000819: E3,1434 LONGEXIT ERASE +1 # B(2)TMP MAY BE SELDOM OVERLAYED.
004266,000820:
004267,000821: # PHASE-CHANGE LISTS PART II. (12D)
004268,000822:
004269,000823:
004270,000824: E3,1436 PHSNAME1 ERASE # B(1)PRM
004271,000825: E3,1437 PHSBB1 ERASE # B(1)PRM
004272,000826: E3,1440 PHSNAME2 ERASE # B(1)PRM
004273,000827: E3,1441 PHSBB2 ERASE # B(1)PRM
004274,000828: E3,1442 PHSNAME3 ERASE # B(1)PRM
004275,000829: E3,1443 PHSBB3 ERASE # B(1)PRM
004276,000830: E3,1444 PHSNAME4 ERASE # B(1)PRM
004277,000831: E3,1445 PHSBB4 ERASE # B(1)PRM
004278,000832: E3,1446 PHSNAME5 ERASE # B(1)PRM
004279,000833: E3,1447 PHSBB5 ERASE # B(1)PRM
004280,000834: E3,1450 PHSNAME6 ERASE # B(1)PRM
004281,000835: E3,1451 PHSBB6 ERASE # B(1)PRM
004282,000836:
004283,000837: # IMU COMPENSATION PARAMETERS. (22D)
004284,000838:
004285,000839: E3,1452 PBIASX ERASE # B(1) PIPA BIAS, PIPA SCALE FACTR TERMS
004286,000840: E3,1453 E3,1452 PIPABIAS = PBIASX # INTERMIXED.
004287,000841: E3,1453 PIPASCFX ERASE
004288,000842: E3,1454 E3,1453 PIPASCF = PIPASCFX
004289,000843: E3,1454 PBIASY ERASE
004290,000844: E3,1455 PIPASCFY ERASE
004291,000845: E3,1456 PBIASZ ERASE
004292,000846: E3,1457 PIPASCFZ ERASE
004293,000847:
004294,000848: E3,1460 NBDX ERASE # GYRO BIAS DRIFTS
004295,000849: E3,1461 NBDY ERASE
004296,000850: E3,1462 NBDZ ERASE
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004298,000852: E3,1463 ADIAX ERASE # ACCELERATION SENSITIVE DRIFT ALONG THE
004299,000853: E3,1464 ADIAY ERASE # INPUT AXIS
004300,000854: E3,1465 ADIAZ ERASE
004301,000855:
004302,000856: E3,1466 ADSRAX ERASE # ACCELERATION SENSITIVE DRIFT ALONG THE
004303,000857: E3,1467 ADSRAY ERASE # SPIN REFERENCE AXIS
004304,000858: E3,1470 ADSRAZ ERASE
004305,000859:
004306,000860: E3,1471 GCOMP ERASE +5 # CONTAINS COMPENSATING TORQUES
004307,000861:
004308,000862: E3,1477 E3,1471 COMMAND EQUALS GCOMP
004309,000863: E3,1477 E3,1474 CDUIND EQUALS GCOMP +3
004310,000864:
004311,000865: E3,1477 GCOMPSW ERASE
004312,000866:
004313,000867: # STATE VECTORS FOR ORBIT INTEGRATION. (44D)
004314,000868:
004315,000869: # (DIFEQCNT THRU XKEP MUST BE IN SAME
004316,000870: # EBANK AS RRECTCSM, RRECTLEM ETC
004317,000871: # BECAUSE THE COPY-CYCLES (ATOPCSM,
004318,000872: # PTOACSM ETC) ARE EXECUTED IN BASIC.
004319,000873: # ALL OTHER REFERENCES TO THIS GROUP
004320,000874: # ARE BY INTERPRETIVE INSTRUCTIONS.)
004321,000875:
004322,000876:
004323,000877: E3,1500 DIFEQCNT ERASE +43D # B(1)
004324,000878: # (UPSVFLAG...XKEP MUST BE KEPT IN ORDER)
004325,000879:
004326,000880: E3,1554 E3,1501 UPSVFLAG EQUALS DIFEQCNT +1 # B(1)
004327,000881: E3,1554 E3,1502 RRECT EQUALS UPSVFLAG +1 # B(6)
004328,000882: E3,1554 E3,1510 VRECT EQUALS RRECT +6 # B(6)
004329,000883: E3,1554 E3,1516 TET EQUALS VRECT +6 # B(2)
004330,000884: E3,1554 E3,1520 TDELTAV EQUALS TET +2 # B(6)
004331,000885: E3,1554 E3,1526 TNUV EQUALS TDELTAV +6 # B(6)
004332,000886: E3,1554 E3,1534 RCV EQUALS TNUV +6 # B(6)
004333,000887: E3,1554 E3,1542 VCV EQUALS RCV +6 # B(6)
004334,000888: E3,1554 E3,1550 TC EQUALS VCV +6 # B(2)
004335,000889: E3,1554 E3,1552 XKEP EQUALS TC +2 # B(2)
004336,000890:
004337,000891: # PERMANENT STATE VECTORS AND TIMES. (99D)
004338,000892:
004339,000893: # (DO NOT OVERLAY WITH ANYTHING AFTER BOOST)
004340,000894:
004341,000895: # (RRECTCSM...XKEPCSM MUST BE KEPT IN THIS ORDER)
004342,000896:
004343,000897: E3,1554 RRECTCSM ERASE +5 # B(6)PRM CSM VARIABLES.
004344,000898: E3,1562 E3,1554 RRECTOTH = RRECTCSM
004345,000899: E3,1562 VRECTCSM ERASE +5 # B(6)PRM
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004347,000901: E3,1570 TETCSM ERASE +1 # B(2)PRM
004348,000902: E3,1572 E3,1570 TETOTHER = TETCSM
004349,000903: E3,1572 DELTACSM ERASE +5 # B(6)PRM
004350,000904: E3,1600 NUVCSM ERASE +5 # B(6)PRM
004351,000905: E3,1606 RCVCSM ERASE +5 # B(6)PRM
004352,000906: E3,1614 VCVCSM ERASE +5 # B(6)PRM
004353,000907: E3,1622 TCCSM ERASE +1 # B(2)PRM
004354,000908: E3,1624 XKEPCSM ERASE +1 # B(2)PRM
004355,000909:
004356,000910: # (RRECTLEM...XKEPLEM MUST BE KEPT IN THIS ORDER)
004357,000911:
004358,000912: E3,1626 RRECTLEM ERASE +5 # B(6)PRM LEM VARIABLES
004359,000913: E3,1634 E3,1626 RRECTHIS = RRECTLEM
004360,000914: E3,1634 VRECTLEM ERASE +5 # B(6)PRM
004361,000915: E3,1642 TETLEM ERASE +1 # B(2)PRM
004362,000916: E3,1644 E3,1642 TETTHIS = TETLEM
004363,000917: E3,1644 DELTALEM ERASE +5 # B(6)PRM
004364,000918: E3,1652 NUVLEM ERASE +5 # B(6)PRM
004365,000919: E3,1660 RCVLEM ERASE +5 # B(6)PRM
004366,000920: E3,1666 VCVLEM ERASE +5 # B(6)PRM
004367,000921: E3,1674 TCLEM ERASE +1 # B(2)PRM
004368,000922: E3,1676 XKEPLEM ERASE +1 # B(2)PRM
004369,000923:
004370,000924: E3,1700 X789 ERASE +5
004371,000925: E3,1706 TEPHEM ERASE +2
004372,000926: E3,1711 AZO ERASE +1
004373,000927: E3,1713 -AYO ERASE +1
004374,000928: E3,1715 AXO ERASE +1
004375,000929:
004376,000930: # STATE VECTORS FOR DOWNLINK. (12D)
004377,000931:
004378,000932: E3,1717 R-OTHER ERASE +5 # B(6)PRM POS VECT (OTHER VECH) FOR DNLINK
004379,000933: E3,1725 V-OTHER ERASE +5 # B(6)PRM VEL VECT (OTHER VECH) FOR DNLINK
004380,000934:
004381,000935: E3,1733 E3,1570 T-OTHER = TETCSM # TIME (OTHER VECH) FOR DNLINK
004382,000936:
004383,000937: # REFSMMAT. (18D)
004384,000938:
004385,000939: E3,1733 REFSMMAT ERASE +17D # I(18D)PRM
004386,000940:
004387,000941: # ACTIVE VEHICLE CENTANG. MUST BE DISPLAYED ANYTIME (ALMOST.) (2D)
004388,000942:
004389,000943: E3,1755 ACTCENT ERASE +1 # I(2) S-S CENTRAL ANGLE BETWEEN ACTIVE
004390,000944: # VEHICLE AT TPI TIG AND TARGET VECTOR.
004391,000945:
004392,000946: # **** USED IN CONICSEX (PLAN INERT ORIENT) ****
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004394,000948: E3,1757 E3,1706 TIMSUBO EQUALS TEPHEM # CSEC B-42 (TRIPLE PRECISION)
004395,000949:
004396,000950: # LPS20.1 STORAGE -ALL ARE PRM - (9D)
004397,000951:
004398,000952: E3,1757 LS21X ERASE # I(1)
004399,000953: E3,1760 LOSVEL ERASE +5 # I(6)
004400,000954: E3,1766 MLOSV ERASE +1 # I(2) MAGNITUDE OF LOS, METERS B-29
004401,000955:
004402,000956: # ***** P22 ***** (OVERLAYS LPS 20.1 STORAGE) (6D)
004403,000957: E3,1770 E3,1760 VSUBC EQUALS LOSVEL # I(6) S-S CSM VELOCITY VECTOR
004404,000958:
004405,000959: # PADLOADED ERASABLES FOR P20/P22 (6D)
004406,000960:
004407,000961: E3,1770 RANGEVAR ERASE +1 # I(2) RR RANGE ERROR VARIANCE
004408,000962: E3,1772 RATEVAR ERASE +1 # I(2) RR RANGE-RATE ERROR VARIANCE
004409,000963: E3,1774 RVARMIN ERASE # I(1) MINIMUM RANGE ERROR VARIANCE
004410,000964: E3,1775 VVARMIN ERASE # I(1) MINIMUM RANGE-RATE ERROR VARIANCE
004411,000965:
004412,000966: # P32-P33 STORAGE (2D)
004413,000967:
Warning: May overflow memory bank.
004414,000968: E3,1776 TCDH ERASE +1 # I(2) T2 CDH TIME IN CS. (ALSO DOWNLINKED
004415,000969:
004416,000970: E3,1777 END-E3 EQUALS 1777 # ** LAST LOCATION USED IN E3 **
004417,000971:
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004419,000973: # EBANK-4 ASSIGNMENTS
004420,000974:
004421,000975: E4,1400 SETLOC 2000
004422,000976:
004423,000977: # E4 IS, FOR THE MOST PART RESERVED FOR PAD LOADED AND UNSHARABLE ERASE.
004424,000978:
004425,000979: E4,1400 AMEMORY EQUALS
004426,000980:
004427,000981: # P20 STORAGE. -PAD LOADED- (6D)
004428,000982:
004429,000983: E4,1400 WRENDPOS ERASE # B(1)PL KM*2(-7)
004430,000984: E4,1401 WRENDVEL ERASE # B(1)PL KM(-1/2)*2(11)
004431,000985: E4,1402 WSHAFT ERASE # B(1)PL KM*2(-7)
004432,000986: E4,1403 WTRUN ERASE # B(1)PL KM*2(-7)
004433,000987: E4,1404 RMAX ERASE # B(1)PL METERS*2(-19)
004434,000988: E4,1405 VMAX ERASE # B(1)PL M/CSEC*2(-7)
004435,000989:
004436,000990: # LUNAR SURFACE NAVIGATION (2D)
004437,000991:
004438,000992: E4,1406 WSURFPOS ERASE # B(1)PL
004439,000993: E4,1407 WSURFVEL ERASE # B(1)PL
004440,000994:
004441,000995: # P22 STORAGE. -PAD LOADED- (2D)
004442,000996:
004443,000997: E4,1410 SHAFTVAR ERASE # B(1)PL RAD SQ*2(12)
004444,000998: E4,1411 TRUNVAR ERASE # B(1)PL RAD SQ*2(10)
004445,000999:
004446,001000: # CONISEX STORAGE.-PAD LOADED- (6D)
004447,001001:
004448,001002: E4,1412 504LM ERASE +5 # I(6) MOON LIBRATION VECTOR
004449,001003:
004450,001004: # V47 (R47) AGS INITIALIZATION STORAGE. -PAD LOADED- (2D)
004451,001005:
004452,001006: E4,1420 AGSK ERASE +1
004453,001007:
004454,001008: # LUNAR LANDING STORAGE. -PAD LOADED- (6D)
004455,001009:
004456,001010: E4,1422 RLS ERASE +5 # I(6) LANDING SITE VECTOR -MOON REF
004457,001011:
004458,001012: # INTEGRATION STORAGE. (102D)
004459,001013:
004460,001014: E4,1430 PBODY ERASE +101D # I(1)
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004462,001016: E4,1576 E4,1431 ALPHAV EQUALS PBODY +1 # I(6)
004463,001017: E4,1576 E4,1437 BETAV EQUALS ALPHAV +6 # I(6)
004464,001018: E4,1576 E4,1445 PHIV EQUALS BETAV +6 # I(6)
004465,001019: E4,1576 E4,1453 PSIV EQUALS PHIV +6 # I(6)
004466,001020: E4,1576 E4,1461 FV EQUALS PSIV +6 # I(6) PERTURBING ACCELERATIONS
004467,001021: E4,1576 E4,1467 ALPHAM EQUALS FV +6 # I(2)
004468,001022: E4,1576 E4,1471 BETAM EQUALS ALPHAM +2 # I(2)
004469,001023: E4,1576 E4,1473 TAU. EQUALS BETAM +2 # I(2)
004470,001024: E4,1576 E4,1475 DT/2 EQUALS TAU. +2 # I(2)
004471,001025: E4,1576 E4,1477 H EQUALS DT/2 +2 # I(2)
004472,001026: E4,1576 E4,1501 GMODE EQUALS H +2 # I(1)
004473,001027: E4,1576 E4,1502 IRETURN EQUALS GMODE +1 # I(1)
004474,001028: E4,1576 E4,1503 NORMGAM EQUALS IRETURN +1 # I(1)
004475,001029: E4,1576 E4,1504 RPQV EQUALS NORMGAM +1
004476,001030: E4,1576 E4,1512 ORIGEX EQUALS RPQV +6 # I(1)
004477,001031: E4,1576 E4,1512 KEPRTN EQUALS ORIGEX # I(1)
004478,001032: E4,1576 E4,1513 RQVV EQUALS ORIGEX +1 # I(6)
004479,001033: E4,1576 E4,1521 RPSV EQUALS RQVV +6 # I(6)
004480,001034: E4,1576 E4,1527 XKEPNEW EQUALS RPSV +6 # I(2)
004481,001035: E4,1576 E4,1531 VECTAB EQUALS XKEPNEW +2 # I(36D)
004482,001036: E4,1576 E4,1574 VECTABND EQUALS VECTAB +35D # END MARK
004483,001037:
004484,001038: # THESE PROBABLY CAN SHARE MID-COURSE VARIABLES. (6D)
004485,001039:
004486,001040: E4,1576 E4,1537 VACX EQUALS VECTAB +6 # I(2)
004487,001041: E4,1576 E4,1541 VACY EQUALS VACX +2 # I(2)
004488,001042: E4,1576 E4,1543 VACZ EQUALS VACY +2 # I(2)
004489,001043:
004490,001044: # SERVICER STORAGE (USED BY ALL POWERED FLIGHT PROGS.) (18D)
004491,001045:
004492,001046: E4,1576 E4,1545 XNBPIP EQUALS VECTAB +12D # I(6)
004493,001047: E4,1576 E4,1553 YNBPIP EQUALS XNBPIP +6 # I(6)
004494,001048: E4,1576 E4,1561 ZNBPIP EQUALS YNBPIP +6 # I(6)
004495,001049:
004496,001050: # SOME VERB 82 STORAGE (4D)
004497,001051:
004498,001052: E4,1576 E4,1517 HAPOX EQUALS RQVV +4 # I(2)
004499,001053: E4,1576 E4,1521 HPERX EQUALS HAPOX +2 # I(2)
004500,001054:
004501,001055: # V82 STORAGE (6D)
004502,001056:
004503,001057: E4,1576 E4,1567 VONE' EQUALS VECTAB +30D # I(6)TMP NORMAL VELOCITY VONE / SQRT. MU
004504,001058:
004505,001059: # R31(V83) STORAGE. -SHARES WITH INTEGRATION STORAGE- (28D)
004506,001060:
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004508,001062: E4,1576 E4,1504 BASETHV EQUALS RPQV # I(6) BASE VEL VECTOR THIS VEH
004509,001063:
004510,001064: E4,1576 E4,1513 BASETIME EQUALS RQVV # I(2) TIME ASSOC WITH BASE VECS
004511,001065: E4,1576 E4,1515 ORIG EQUALS RQVV +2 # I(1) =0 FOR EARTH =2 FOR MOON
004512,001066: E4,1576 E4,1516 STATEXIT EQUALS RQVV +3 # I(1) STQ ADDRESS FOR STATEXTP
004513,001067: E4,1576 E4,1517 BASEOTV EQUALS RQVV +4 # I(6) BASE VEL VECTOR OTHER VEH
004514,001068:
004515,001069: E4,1576 E4,1537 BASEOTP EQUALS VECTAB +6 # I(6) BASE POS VECTOR OTHER VEH
004516,001070:
004517,001071: E4,1576 E4,1567 BASETHP EQUALS VECTAB +30D # I(6) BASE POS VECTOR THIS VEH
004518,001072:
004519,001073: # KEPLER STORAGE. (KEPLER IS CALLED BY PRECISION INTEGRATION AND (2D)
004520,001074: # CONICS)
004521,001075:
004522,001076: E4,1576 EPSILONT ERASE +1 # I(2)
004523,001077:
004524,001078: # VERB 83 STORAGE. (18D)
004525,001079:
004526,001080: E4,1600 RANGE ERASE +17D # I(2)DSP NOUN 54 DISTANCE TO OPTICAL SUBJ
004527,001081: E4,1622 E4,1602 RRATE EQUALS RANGE +2 # I(2)DSP NOUN 54 RATE OF APPROACH.
004528,001082: E4,1622 E4,1604 RTHETA EQUALS RRATE +2 # I(2)DSP NOUN 54.
004529,001083: E4,1622 E4,1606 RONE EQUALS RTHETA +2 # I(6)TMP VECTOR STORAGE. (SCRATCH)
004530,001084: E4,1622 E4,1614 VONE EQUALS RONE +6 # I(6)TMP VECTOR STORAGE. (SCRATCH)
004531,001085:
004532,001086: # VERB 67 STORAGE
004533,001087:
004534,001088: E4,1622 E4,1600 WWPOS = RANGE # NOUN 99 (V67)
004535,001089: E4,1622 E4,1602 WWVEL = RRATE # NOUN 99 (V67)
004536,001090: E4,1622 E4,1604 WWBIAS = RTHETA # NOUN 99 (V67)
004537,001091:
004538,001092: # V82 STORAGE. (CANNOT OVERLAY RONE OR VONE) (11D) TWO SEPARATE LOCATIONS
004539,001093:
004540,001094: E4,1622 E4,1537 V82FLAGS EQUALS VECTAB +6 # (1) FOR V82 BITS.
004541,001095: E4,1622 E4,1540 TFF EQUALS V82FLAGS +1 # I(2)
004542,001096: E4,1622 E4,1542 -TPER EQUALS TFF +2 # I(2)
004543,001097:
004544,001098: E4,1622 E4,1600 HPERMIN EQUALS RANGE # I(2) SET TO 300KFT OR 35KFT FOR SR30.1
004545,001099: E4,1622 E4,1602 RPADTEM EQUALS HPERMIN +2 # I(2) PAD OR LANDING RADIUS FOR SR30.1
004546,001100: E4,1622 E4,1604 TSTART82 EQUALS RPADTEM +2 # I(2) TEMP TIME STORAGE FOR V82.
004547,001101:
004548,001102: # VARIOUS DISPLAY REGISTERS (6D) NOUN 84; P76
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004550,001104: E4,1622 DELVOV ERASE +5D # (6)
004551,001105:
004552,001106: # ALIGNMENT PLANETARY -INERTIAL TRANSFORMATION STORAGE. (18D)
004553,001107:
004554,001108: # UNSHARED WHILE LM ON LUNAR SURFACE.
004555,001109:
004556,001110: E4,1630 GSAV ERASE +17D # I(6)
004557,001111: E4,1652 E4,1636 YNBSAV EQUALS GSAV +6 # I(6)
004558,001112: E4,1652 E4,1644 ZNBSAV EQUALS YNBSAV +6 # I(6)
004559,001113:
004560,001114: # KALCMANU STORAGE. CAN OVERLAY GSAV. (18D)
004561,001115:
004562,001116: E4,1652 E4,1630 MFS EQUALS GSAV # I(18)
004563,001117: E4,1652 E4,1630 MFI EQUALS MFS # I
004564,001118: E4,1652 E4,1630 KEL EQUALS MFS # I(18)
004565,001119: E4,1652 E4,1630 E01 EQUALS MFS # I(6)
004566,001120: E4,1652 E4,1636 E02 EQUALS E01 +6 # I(6)
004567,001121:
004568,001122: # LR VEL BEAM VECTORS. (26D)
004569,001123:
004570,001124: # CAN OVERLAY GSAV WITH CARE, USED DURING POWERED DESCENT ONLY.
004571,001125:
004572,001126: E4,1652 E4,1630 VZBEAMNB EQUALS GSAV # I(6) LR VELOCITY BEAMS IN NB COORDS.
004573,001127: E4,1652 E4,1636 VYBEAMNB EQUALS VZBEAMNB +6 # I(6)
004574,001128: E4,1652 E4,1644 VXBEAMNB EQUALS VYBEAMNB +6 # I(6) PRESERVE Z,Y,X ORDER.
004575,001129:
004576,001130: E4,1652 E4,1652 LRVTIME = VXBEAMNB +6 # B(2) LR
004577,001131: E4,1652 E4,1654 LRXCDU = LRVTIME +2 # B(1) LR
004578,001132: E4,1652 E4,1655 LRYCDU = LRXCDU +1 # B(1) LR
004579,001133: E4,1652 E4,1656 LRZCDU = LRYCDU +1 # B(1) LR
004580,001134: E4,1652 E4,1657 PIPTEM = LRZCDU +1 # B(3) LR
004581,001135:
004582,001136: # P32-P35, P72-P75 STORAGE. (40D)
004583,001137:
004584,001138: E4,1652 T1TOT2 ERASE +1 # (2) TIME FROM CSI TO CDH
004585,001139: E4,1654 T2TOT3 ERASE +1 # (2)
004586,001140: E4,1656 ELEV ERASE +1 # (2)
004587,001141: E4,1660 UP1 ERASE +5 # (6)
004588,001142: E4,1666 DELVEET1 ERASE +5 # I(6) DV CSI IN REF
004589,001143: E4,1674 DELVEET2 ERASE +5 # I(6) DV CSH IN REF
004590,001144: E4,1702 RACT1 ERASE +5 # (6) POS VEC OF ACTIVE AT CSI TIME
004591,001145: E4,1710 RACT2 ERASE +5 # (6) POS VEC OF ACTIVE AT CDH TIME
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004593,001147: E4,1716 RTSR1/MU ERASE +1 # (2) SQ ROOT 1/MU STORAGE
004594,001148: E4,1720 RTMU ERASE +1 # (2) MU STORAGE
004595,001149:
004596,001150: # (THE FOLLOWING ERASABLES OVERLAY PORTIONS OF THE PREVIOUS SECTION)
004597,001151:
004598,001152: E4,1722 E4,1652 +MGA EQUALS T1TOT2 # (2) S-S + MID GIM ANGL TO DELVEET3
004599,001153:
004600,001154: E4,1722 E4,1660 UNRM EQUALS UP1 # I(6) S-S
004601,001155:
004602,001156: E4,1722 E4,1702 DVLOS EQUALS RACT1 # I(6) S-S DELTA VELOCITY, LOS COORD-DISPLA
004603,001157: E4,1722 E4,1710 ULOS EQUALS RACT2 # I(6) S-S UNIT LINE OF SIGHT VECTOR
004604,001158:
004605,001159: E4,1722 E4,1716 NOMTPI EQUALS RTSR1/MU # (2) S-S NOMINAL TPI TIME FOR RECYCLE
004606,001160:
004607,001161: # SOME P30 STORAGE. (4D)
004608,001162:
004609,001163: E4,1722 E4,1716 HAPO EQUALS RTSR1/MU # I(2)
004610,001164: E4,1722 E4,1720 HPER EQUALS HAPO +2 # I(2)
004611,001165:
004612,001166:
004613,001167: # SOME P38-P39,P78-79 STORAGE. (6D)
004614,001168:
004615,001169: E4,1722 E4,1702 DELTAR EQUALS DVLOS # I(2)
004616,001170: E4,1722 E4,1704 DELTTIME EQUALS DELTAR +2 # I(2) TIME REPRESENTATION OF DELTAR
004617,001171: E4,1722 E4,1706 TARGTIME EQUALS DELTTIME +2 # I(2) TINT MINUS DELTTIME
004618,001172:
004619,001173: E4,1722 E4,1702 TINTSOI EQUALS DELTAR # I(2) TIME OF INTERCEPT FOR SOI PHASE
004620,001174:
004621,001175: # THE FOLLOWING ARE ERASABLE LOADS DURING A PERFORMANCE TEST.
004622,001176:
004623,001177: E4,1722 E4,1400 TRANSM1 = WRENDPOS # E4,1400
004624,001178: E4,1722 E4,1422 ALFDK = TRANSM1 +18D
004625,001179:
004626,001180: # ******* THE FOLLOWING SECTIONS OVERLAY V83 AND DISPLAY STORAGE *******
004627,001181:
004628,001182: # V47 (R47) AGS INITIALIZATION PROGRAM STORAGE. (OVERLAYS V83) (14D)
004629,001183:
004630,001184: E4,1722 E4,1600 AGSBUFF EQUALS RANGE # B(14D)
004631,001185: E4,1722 E4,1615 AGSBUFFE EQUALS AGSBUFF +13D # ENDMARK
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004633,001187:
004634,001188: # R36 OUT-OF-PLANE RENDEZVOUS DISPLAY STORAGE. (OVERLAYS V83) (12D)
004635,001189:
004636,001190: E4,1722 E4,1606 RPASS36 EQUALS RONE # I(6) S-S
004637,001191: E4,1722 E4,1614 UNP36 EQUALS RPASS36 +6 # I(6) S-S
004638,001192:
004639,001193: # S-BAND ANTENNA GIMBAL ANGLES. DISPLAYED BY R05 (V64). (OVERLAYS V83) (10D)
004640,001194: # (OPERATES DURING P00 ONLY)
004641,001195: E4,1722 E4,1600 ALPHASB EQUALS RANGE # B(2)DSP NOUN 51. PITCH ANGLE.
004642,001196: E4,1722 E4,1602 BETASB EQUALS ALPHASB +2 # B(2)DSP NOUN 51. YAW ANGLE.
004643,001197: E4,1722 E4,1604 RLM EQUALS BETASB +2 # I(6)S S/C POSITION VECTOR.
004644,001198:
004645,001199: # **** USED IN S-BAND ANTENNA FOR LM ****
004646,001200:
004647,001201: E4,1722 E4,1602 YAWANG EQUALS BETASB
004648,001202: E4,1722 E4,1600 PITCHANG EQUALS ALPHASB
004649,001203:
004650,001204: # NOUN 56 DATA -COMPUTED AND DISPLAYED BY VERB 85. (4)
004651,001205:
004652,001206: E4,1722 E4,1600 RR-AZ EQUALS PITCHANG # I(2) ANGLE BETWEEN LOS AND X-Z PLANE.
004653,001207: E4,1722 E4,1602 RR-ELEV EQUALS RR-AZ +2 # I(2) ANGLE BETWEEN LOS AND Y-Z PLANE.
004654,001208:
004655,001209: # R04 (V62) RADAR TEST STORAGE. (8D)
004656,001210: # R04 IS RESTRICTED TO P00.
004657,001211:
004658,001212: E4,1722 E4,1600 RSTACK EQUALS RANGE # B(8) BUFFER FOR R04 NOUNS.
004659,001213:
004660,001214: # INITVEL STORAGE. ALSO USED BY P31, P34, P35, P74, P75, P10, P11, MIDGIM, S40.1 AND S40.9. (18D)
004661,001215:
004662,001216: # (POSSIBLY RINIT & VINIT CAN OVERLAY DELVEET1 & 2 ABOVE)
004663,001217:
004664,001218: E4,1722 RINIT ERASE +5 # I(6) ACTIVE VEHICLE POSITION
004665,001219: E4,1730 VINIT ERASE +5 # I(6) ACTIVE VEHICLE VELOCITY
004666,001220: E4,1736 VIPRIME ERASE +5 # I(6) NEW VEL REQUIRED AT INITIAL RADIUS.
004667,001221:
004668,001222: # VARIOUS DISPLAY REGISTERS. BALLANGS (3D)
004669,001223:
004670,001224: E4,1744 FDAIX ERASE # I(1)
004671,001225: E4,1745 FDAIY ERASE # I(1)
004672,001226: E4,1746 FDAIZ ERASE # I(1)
004673,001227:
004674,001228: # P34-P35 STORAGE. DOWNLINKED. (2D)
004675,001229:
004676,001230: E4,1747 DELVTPF ERASE +1 # I(2) DELTA V FOR TPF
004677,001231:
004678,001232: # SOME R04(V62)-R77 RADAR TEST STORAGE (6D)
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004680,001234: E4,1751 RTSTDEX ERASE # (1)
004681,001235: E4,1752 RTSTMAX ERASE # (1)
004682,001236: E4,1753 RTSTBASE ERASE # (1)
004683,001237: E4,1754 RTSTLOC ERASE # (1)
004684,001238: E4,1755 E4,1754 RSTKLOC = RTSTLOC
004685,001239: E4,1755 RSAMPDT ERASE # (1)
004686,001240: E4,1756 RFAILCNT ERASE # (1)
004687,001241:
004688,001242: # LPS20.1 STORAGE (12D)
004689,001243:
004690,001244: E4,1757 E4,1751 LMPOS EQUALS RTSTDEX # I(6)TEMP. STORAGE FOR LM POS. VECTOR.
004691,001245: E4,1757 E4,1757 LMVEL EQUALS LMPOS +6 # I(6)TEMP. STORAGE FOR LM VEL. VECTOR.
004692,001246:
004693,001247: # INITVEL STORAGE. ALSO USED BY P31,34,35,74,75,S40.1 AND DOWNLINKED. (6D)
004694,001248:
004695,001249: E4,1757 E4,1765 DELVEET3 EQUALS LMVEL +6 # I(6) DELTA V IN INERTIAL COORDINATES.
004696,001250:
004697,001251:
004698,001252: E4,1757 END-E4 EQUALS # FIRST UNUSED LOCATION IN E4
004699,001253:
004700,001254: # SECOND DPS GUIDANCE (LUNAR LANDING) (OVERLAY P32-35, INITVEL) (14D)
004701,001255:
004702,001256: E4,1757 E4,1662 VHORIZ EQUALS PIPTEM +3 # I(2) DISPLAY
004703,001257: E4,1757 E4,1664 ANGTERM EQUALS VHORIZ +2 # I(6) GUIDANCE
004704,001258: E4,1757 E4,1672 HBEAMNB EQUALS ANGTERM +6 # I(6) LANDING RADAR
004705,001259:
004706,001260: # R12 DOWNLINK QUANTITIES (5D)
004707,001261:
004708,001262: E4,1757 E4,1734 LRXCDUDL EQUALS /LAND/ +2 # B(1) LANDING RADAR DOWNLINK
004709,001263: E4,1757 E4,1735 LRYCDUDL EQUALS LRXCDUDL +1 # B(1) LANDING RADAR DOWNLINK
004710,001264: E4,1757 E4,1736 LRZCDUDL EQUALS LRYCDUDL +1 # B(1) LANDING RADAR DOWNLINK
004711,001265: E4,1757 E4,1737 LRVTIMDL EQUALS LRZCDUDL +1 # B(2) LANDING RADAR DOWNLINK
004712,001266:
004713,001267: # ASCENT GUIDANCE FOR LUNAR LANDING (54D)
004714,001268:
004715,001269: E4,1757 E4,1662 AT EQUALS PIPTEM +3 # I(2)TMP ENGINE DATA -- THRUST ACC*2(9)
004716,001270: E4,1757 E4,1664 VE EQUALS AT +2 # I(2)TMP EXHAUST VELOCITY * 2(7)M/CS.
004717,001271: E4,1757 E4,1666 TTO EQUALS VE +2 # I(2)TMP TAILOFF TIME * 2(17)CS.
004718,001272: E4,1757 E4,1670 TBUP EQUALS TTO +2 # I(2)TMP (M/MDOT) * 2(17)CS.
004719,001273: E4,1757 E4,1672 RDOTD EQUALS TBUP +2 # I(2)TMP TARGET VELOCITY COMPONENTS
004720,001274: E4,1757 E4,1674 YDOTD EQUALS RDOTD +2 # I(2)TMP SCALING IS 2(7)M/CS.
004721,001275: E4,1757 E4,1676 ZDOTD EQUALS YDOTD +2 # I(2)TMP
004722,001276:
004723,001277: E4,1757 E4,1700 /R/MAG EQUALS ZDOTD +2 # I(2)TMP
004724,001278: E4,1757 E4,1702 LAXIS EQUALS /R/MAG +2 # I(6)TMP
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004726,001280: E4,1757 E7,1725 ZAXIS1 = UHZP
004727,001281: E4,1757 E7,1473 RDOT = HDOTDISP
004728,001282: E4,1757 E4,1710 YDOT = LAXIS +6 # I(2)TMP VEL. NORMAL TO REF. PLANE*2(-7)
004729,001283: E4,1757 E4,1712 ZDOT EQUALS YDOT +2 # I(2)TMP DOWN RANGE VEL * 2(-7).
004730,001284: E4,1757 E4,1714 GEFF EQUALS ZDOT +2 # I(2)TMP EFFECTIVE GRAVITY
004731,001285:
004732,001286: # THESE TWO GROUPS OF ASCENT GUIDANCE ARE SPLIT BY THE ASCENT-DESCENT SERVICER SECTION FOLLOWING THIS SECTION
004733,001287:
004734,001288: E4,1757 E4,1734 Y EQUALS /LAND/ +2 # I(2)TMP OUT-OF-PLANE DIST *2(24)M
004735,001289: E4,1757 E4,1736 DRDOT EQUALS Y +2 # I(2)TMP RDOTD - RDOT
004736,001290: E4,1757 E4,1740 DYDOT EQUALS DRDOT +2 # I(2)TMP YDOTD - YDOT
004737,001291: E4,1757 E4,1742 DZDOT EQUALS DYDOT +2 # I(2)TMP ZDOTD - ZDOT
004738,001292: E4,1757 E4,1744 PCONS EQUALS DZDOT +2 # I(2)TMP CONSTANT IN ATR EQUATION
004739,001293: E4,1757 E4,1746 YCONS EQUALS PCONS +2 # I(2)TMP CONSTANT IN ATY EQUATION
004740,001294: E4,1757 E4,1750 PRATE EQUALS YCONS +2 # I(2)TMP RATE COEFF. IN ATR EQUATION
004741,001295: E4,1757 E4,1752 YRATE EQUALS PRATE +2 # I(2)TMP RATE COEFF. IN ATY EQUATION
004742,001296: E4,1757 E4,1754 ATY EQUALS YRATE +2 # I(2)TMP OUT-OF-PLANE THRUST COMP. *2(9)
004743,001297: E4,1757 E4,1756 ATR EQUALS ATY +2 # I(2)TMP RADIAL THRUST COMP. * 2(9)
004744,001298: E4,1757 E4,1760 ATP EQUALS ATR +2 # I(2)TMP DOWN-RANGE THRUST COMP
004745,001299: E4,1757 E4,1762 YAW EQUALS ATP +2 # I(2)TMP
004746,001300: E4,1757 E4,1764 PITCH EQUALS YAW +2 # I(2)RMP
004747,001301:
004748,001302: # SERVICER FOR LUNAR ASCENT AND DESCENT (14D)
004749,001303:
004750,001304: E4,1757 E4,1716 G(CSM) EQUALS GEFF +2 # I(6) FOR UPDATE OF COMMAND MODULE STATE
004751,001305: E4,1757 E3,1717 R(CSM) EQUALS R-OTHER # VECTORS BY LEM; ANALOGS OF GDT/2,
004752,001306: E4,1757 E3,1725 V(CSM) EQUALS V-OTHER # R, AND V, RESPECTIVELY OF THE CSM
004753,001307: E4,1757 E4,1724 WM EQUALS G(CSM) +6 # I(6)TMP - LUNAR ROTATION VECTOR (SM)
004754,001308: E4,1757 E4,1732 /LAND/ EQUALS WM +6 # B(2) LUNAR RADIUS AT LANDING SITE
004755,001309:
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004757,001311: # EBANK-5 ASSIGNMENTS
004758,001312:
004759,001313: E5,1400 SETLOC 2400
004760,001314:
004761,001315: # W-MATRIX. ESSENTIALLY UNSHARABLE. (162D)
004762,001316:
004763,001317: E5,1400 W ERASE +161D
004764,001318: E5,1642 E5,1642 ENDW EQUALS W +162D
004765,001319:
004766,001320: # ******* OVERLAY NUMBER 1 IN EBANK 5 *******
004767,001321:
004768,001322: # W-MATRIX PADLOADS (128D)
004769,001323:
004770,001324: # PLEASE RETAIN THE ORDER OF TLAND THRU JAPFG
004771,001325:
004772,001326: E5,1642 E5,1400 TLAND EQUALS W # I(2) NOMINAL TIME OF LANDING
004773,001327: E5,1642 E5,1402 RBRFG EQUALS TLAND +2 # I(6) BRAKING
004774,001328: E5,1642 E5,1410 VBRFG EQUALS RBRFG +6 # I(6) PHASE
004775,001329: E5,1642 E5,1416 ABRFG EQUALS VBRFG +6 # I(6) TARGET
004776,001330: E5,1642 E5,1424 VBRFG* EQUALS ABRFG +6 # I(2) PARAMETERS:
004777,001331: E5,1642 E5,1426 ABRFG* EQUALS VBRFG* +2 # I(2) HIGH
004778,001332: E5,1642 E5,1430 JBRFG* EQUALS ABRFG* +2 # I(2) GATE
004779,001333: E5,1642 E5,1432 GAINBRAK EQUALS JBRFG* +2 # B(2)
004780,001334: E5,1642 E5,1434 TCGFBRAK EQUALS GAINBRAK +2 # B(1)
004781,001335: E5,1642 E5,1435 TCGIBRAK EQUALS TCGFBRAK +1 # B(1)
004782,001336: E5,1642 E5,1436 RAPFG EQUALS TCGIBRAK +1 # I(6) APPROACH
004783,001337: E5,1642 E5,1444 VAPFG EQUALS RAPFG +6 # I(6) PHASE
004784,001338: E5,1642 E5,1452 AAPFG EQUALS VAPFG +6 # I(6) TARGET
004785,001339: E5,1642 E5,1460 VAPFG* EQUALS AAPFG +6 # I(2) PARAMETERS:
004786,001340: E5,1642 E5,1462 AAPFG* EQUALS VAPFG* +2 # I(2) LOW
004787,001341: E5,1642 E5,1464 JAPFG* EQUALS AAPFG* +2 # I(2) GATE
004788,001342: E5,1642 E5,1466 GAINAPPR EQUALS JAPFG* +2 # B(2)
004789,001343: E5,1642 E5,1470 TCGFAPPR EQUALS GAINAPPR +2 # B(1)
004790,001344: E5,1642 E5,1471 TCGIAPPR EQUALS TCGFAPPR +1 # B(1)
004791,001345: E5,1642 E5,1472 VIGN EQUALS TCGIAPPR +1 # I(2) DESIRED SPEED FOR IGNITION
004792,001346: E5,1642 E5,1474 RIGNX EQUALS VIGN +2 # I(2) DESIRED 'ALTITUDE' FOR IGNITION
004793,001347: E5,1642 E5,1476 RIGNZ EQUALS RIGNX +2 # I(2) DESIRED GROUND RANGE FOR IGNITION
004794,001348: E5,1642 E5,1500 KIGNX/B4 EQUALS RIGNZ +2 # I(2)
004795,001349: E5,1642 E5,1502 KIGNY/B8 EQUALS KIGNX/B4 +2 # I(2)
004796,001350: E5,1642 E5,1504 KIGNV/B4 EQUALS KIGNY/B8 +2 # I(2)
004797,001351: E5,1642 E5,1506 LOWCRIT EQUALS KIGNV/B4 +2 # B(1) (HIGHCRIT MUST FOLLOW LOWCRIT)
004798,001352: E5,1642 E5,1507 HIGHCRIT EQUALS LOWCRIT +1 # B(1)
004799,001353: E5,1642 E5,1510 V2FG EQUALS HIGHCRIT +1 # I(6) DESIRED VELOCITY FOR P65.
004800,001354: E5,1642 E5,1516 TAUVERT EQUALS V2FG +6 # I(2) TIME CONSTANT FOR P65 VEL. NULLING.
004801,001355: E5,1642 E5,1520 DELQFIX EQUALS TAUVERT +2 # I(2) LR ALTITUDE DATA REASONABLE PARM.
004802,001356: E5,1642 E5,1522 LRALPHA EQUALS DELQFIX +2 # B(1) POS1 X ROTATION * MUST *
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004804,001358: E5,1642 E5,1523 LRBETA1 EQUALS LRALPHA +1 # B(1) POS1 Y ROTATION * BE *
004805,001359: E5,1642 E5,1524 LRALPHA2 EQUALS LRBETA1 +1 # B(1) POS2 X ROTATION * IN *
004806,001360: E5,1642 E5,1525 LRBETA2 EQUALS LRALPHA2 +1 # B(1) POS2 Y ROTATION * ORDER*
004807,001361: E5,1642 E5,1526 LRVMAX EQUALS LRBETA2 +1 # B(1) LR VEL WEIGHTING FUNCTIONS
004808,001362: E5,1642 E5,1527 LRVF EQUALS LRVMAX +1 # B(1) LR VEL WEIGHTING FUNCTIONS
004809,001363: E5,1642 E5,1530 LRWVZ EQUALS LRVF +1 # B(1) LR VEL WEIGH ING FUNCTIONS
004810,001364: E5,1642 E5,1531 LRWVY EQUALS LRWVZ +1 # B(1) LR VEL WEIGH ING FUNCTIONS
004811,001365: E5,1642 E5,1532 LRWVX EQUALS LRWVY +1 # B(1) LR VEL WEIGH ING FUNCTIONS
004812,001366: E5,1642 E5,1533 LRWVFZ EQUALS LRWVX +1 # B(1) LR VEL WEIGH ING FUNCTIONS
004813,001367: E5,1642 E5,1534 LRWVFY EQUALS LRWVFZ +1 # B(1) LR VEL WEIG ING FUNC IONS
004814,001368: E5,1642 E5,1535 LRWVFX EQUALS LRWVFY +1 # B(1) LR VEL WEIG ING FUNC IONS
004815,001369: E5,1642 E5,1536 LRWVFF EQUALS LRWVFX +1 # B(1) LR VEL WEIG ING FUNC IONS
004816,001370:
004817,001371: E5,1642 0130 ABVEL* EQUALS BUF # B(1) LR TEMP
004818,001372: E5,1642 0131 VSELECT* EQUALS BUF +1 # B(1) LR TEMP
004819,001373:
004820,001374: E5,1642 E5,1537 RODSCALE EQUALS LRWVFF +1 # I(1) CLICK SCALE FACTOR FOR ROD
004821,001375: E5,1642 E5,1540 TAUROD EQUALS RODSCALE +1 # I(2) TIME CONSTANT FOR R.O.D.
004822,001376: E5,1642 E5,1542 LAG/TAU EQUALS TAUROD +2 # I(2) LAG TIME DIVIDED BY TAUROD (P66)
004823,001377: E5,1642 E5,1544 MINFORCE EQUALS LAG/TAU +2 # I(2) MINIMUM FORCE P66 WILL COMMAND.
004824,001378: E5,1642 E5,1546 MAXFORCE EQUALS MINFORCE +2 # I(2) MAXIMUM FORCE P66 WILL COMMAND.
004825,001379: E5,1642 E5,1550 ABTCOF EQUALS MAXFORCE +2 # I(16) COEFFICIENTS FOR ABORT TFI POLYS.
004826,001380: E5,1642 E5,1570 VMIN EQUALS ABTCOF +16D # I(2) MINIMUM VELOCITY FOR ABORT INJ.
004827,001381: E5,1642 E5,1572 YLIM EQUALS VMIN +2 # I(2) MAXIMUM CROSS-RANGE DIST IN ABORTS.
004828,001382: E5,1642 E5,1574 ABTRDOT EQUALS YLIM +2 # I(2) DESIRED RADIAL VEL. FOR ABORTS.
004829,001383: E5,1642 E5,1576 COSTHET1 EQUALS ABTRDOT +2 # I(2) COS OF CONE 1 ANGLE FOR ABORTS
004830,001384: E5,1642 E5,1600 COSTHET2 EQUALS COSTHET1 +2 # I(2) COS OF CONE 2 ANGLE FOR ABORTS.
004831,001385:
004832,001386: # SOME VARIABLES FOR SECOND DPS GUIDANCE (34D)
004833,001387:
004834,001388: E5,1642 E5,1602 CG EQUALS COSTHET2 +2 # I(18D) GUIDANCE
004835,001389: E5,1642 E5,1624 RANGEDSP EQUALS CG +18D # B(2) DISPLAY
004836,001390: E5,1642 E5,1626 OUTOFPLN EQUALS RANGEDSP +2 # B(2) DISPLAY
004837,001391: E5,1642 E5,1630 R60VSAVE EQUALS OUTOFPLN +2 # I(6)TMP SAVES VALUE OF POINTVSM THRU R51
004838,001392: E5,1642 E5,1636 RGU EQUALS R60VSAVE +6 # I(6) UNSHARED FOR DOWNLINK
004839,001393: E5,1642 E5,1630 VBIAS EQUALS R60VSAVE # I(6) PIPA BIAS EQUIV. VELOCITY VECTOR.
004840,001394: E5,1642 0130 L*WCR*T = BUF
004841,001395: E5,1642 0131 H*GHCR*T = BUF +1
004842,001396:
004843,001397: # ALIGNMENT/SYSTEST/CALCSMSC COMMON STORAGE. (36D)
004844,001398:
004845,001399: E5,1642 E5,1642 XSM EQUALS ENDW # B(6)
004846,001400: E5,1642 E5,1650 YSM EQUALS XSM +6 # B(6)
004847,001401: E5,1642 E5,1656 ZSM EQUALS YSM +6 # B(6)
004848,001402:
004849,001403: E5,1642 E5,1664 XDC EQUALS ZSM +6 # B(6)
004850,001404: E5,1642 E5,1672 YDC EQUALS XDC +6 # B(6)
004851,001405: E5,1642 E5,1700 ZDC EQUALS YDC +6 # B(6)
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004853,001407: E5,1642 E5,1664 XNB = XDC
004854,001408: E5,1642 E5,1672 YNB = YDC
004855,001409: E5,1642 E5,1700 ZNB = ZDC
004856,001410:
004857,001411: # OVERLAYS WITHIN ALIGNMENT/SYSTEST/CALCSMSC COMMON STORAGE. (4D)
004858,001412:
004859,001413: E5,1642 E5,1644 -COSB EQUALS XSM +2 # (2)TMP
004860,001414: E5,1642 E5,1646 SINB EQUALS -COSB +2 # (2)TMP
004861,001415:
004862,001416: # MORE OVERLAYS TO ALIGNMENT/SYSTEST (THESE ARE P52) (6D)
004863,001417:
004864,001418: E5,1642 E5,1706 LANDLAT EQUALS STARAD # (2) LATITUDE,LONGITUDE
004865,001419: E5,1642 E5,1710 LANDLONG EQUALS LANDLAT +2 # (2) AND ALTITUDE
004866,001420: E5,1642 E5,1712 LANDALT EQUALS LANDLONG +2 # (2) OF LANDING SITE
004867,001421:
004868,001422: # ALIGNMENT/SYSTEST COMMON STORAGE. (31D)
004869,001423:
004870,001424: E5,1642 E5,1706 STARAD EQUALS ZDC +6 # I(18D)TMP
004871,001425: E5,1642 E5,1730 STAR EQUALS STARAD +18D # I(6)
004872,001426: E5,1642 E5,1736 GCTR EQUALS STAR +6 # B(1)
004873,001427: E5,1642 E5,1737 OGC EQUALS GCTR +1 # I(2)
004874,001428: E5,1642 E5,1741 IGC EQUALS OGC +2 # I(2)
004875,001429: E5,1642 E5,1743 MGC EQUALS IGC +2 # I(2)
004876,001430:
004877,001431: # P57 ALIGNMENT (OVERLAY OF ALIGNMENT/SYSTEST COMMON STORAGE) (12D)
004878,001432:
004879,001433: E5,1642 E5,1706 GACC = STARAD # (6) SS
004880,001434: E5,1642 E5,1714 GOUT = STARAD +6 # (6) SS
004881,001435:
004882,001436: # OVERLAYS WITHIN ALIGNMENT/SYSTEST COMMON STORAGE (24D)
004883,001437:
004884,001438: E5,1642 E5,1706 VEARTH EQUALS STARAD # (6)TMP
004885,001439: E5,1642 E5,1714 VSUN EQUALS VEARTH +6 # (6)TMP
004886,001440: E5,1642 E5,1722 VMOON EQUALS VSUN +6 # (6)TMP
004887,001441: E5,1642 E5,1730 SAX EQUALS VMOON +6 # (6)TMP
004888,001442:
004889,001443: # P50'S, R50'S Q STORES. (2D)
004890,001444:
004891,001445: E5,1642 E5,1745 QMIN EQUALS MGC +2 # B(1)TMP
004892,001446: E5,1642 E5,1746 QMAJ EQUALS QMIN +1 # B(1)TMP
004893,001447:
004894,001448: # **** USED IN P50S **** (SCATTERED OVERLAYS)
004895,001449:
004896,001450: E5,1642 E5,1706 XSCI EQUALS STARAD
004897,001451: E5,1642 E5,1714 YSCI EQUALS XSCI +6
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004899,001453: E5,1642 E5,1714 ZSCI EQUALS YSCI
004900,001454: E5,1642 E5,1706 CULTRIX EQUALS VEARTH # VEARTH, VSUN, VMOON
004901,001455: E5,1642 E5,1722 VEC1 EQUALS STARAD +12D
004902,001456: E5,1642 E5,1730 VEC2 EQUALS STAR
004903,001457:
004904,001458: # ALIGNMENT STORAGE. (23D)
004905,001459:
004906,001460: E5,1642 E5,1747 OGCT EQUALS QMAJ +1 # I(6)
004907,001461: E5,1642 E5,1755 BESTI EQUALS OGCT +6 # I(1)
004908,001462: E5,1642 E5,1756 BESTJ EQUALS BESTI +1
004909,001463: E5,1642 E5,1757 STARIND EQUALS BESTJ +1
004910,001464: # RETAIN THE ORDER OF STARSAV1 TO STARSAV2 +5 FOR DOWNLINK PURPOSES.
004911,001465: E5,1642 E5,1760 STARSAV1 EQUALS STARIND +1 # I(6)
004912,001466: E5,1642 E5,1766 STARSAV2 EQUALS STARSAV1 +6 # I(6)
004913,001467: E5,1642 E5,1774 TALIGN EQUALS STARSAV2 +6 # B(2) TIME OF IMU ALIGNMENT (DOWNLINKED)
004914,001468:
004915,001469: # P32-35 + SERVICER (2D)
004916,001470:
004917,001471: E5,1642 E5,1776 RTX1 EQUALS TALIGN +2 # I(1) X1 -2 EARTH, -10 MOON
004918,001472: E5,1642 E5,1777 RTX2 EQUALS RTX1 +1 # I(1) X2 0 EARTH, 2 MOON
004919,001473:
004920,001474: E5,1642 ZPRIME = 22D
004921,001475: E5,1642 PDA = 22D
004922,001476: E5,1642 COSTH = 16D
004923,001477: E5,1642 SINTH = 18D
004924,001478: E5,1642 THETA = 20D
004925,001479: E5,1642 STARM = 32D
004926,001480:
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004928,001482: # ******* OVERLAY NUMBER 2 IN EBANK 5 *******
004929,001483:
004930,001484: # CONICS ROUTINE STORAGE. (85D)
004931,001485:
004932,001486: E5,1642 E5,1642 DELX EQUALS ENDW # I(2)TMP
004933,001487: E5,1642 E5,1644 DELT EQUALS DELX +2 # I(2)TMP
004934,001488: E5,1642 E5,1646 URRECT EQUALS DELT +2 # I(6)TMP
004935,001489: E5,1642 RCNORM EQUALS 34D # I(2)TMP
004936,001490: E5,1642 E3,1552 XPREV EQUALS XKEP # I(2)TMP
004937,001491: E5,1642 E5,1654 R1VEC EQUALS URRECT +6 # I(6)TMP
004938,001492: E5,1642 E5,1662 R2VEC EQUALS R1VEC +6 # I(6)TMP
004939,001493: E5,1642 E5,1670 TDESIRED EQUALS R2VEC +6 # I(2)TMP
004940,001494: E5,1642 E5,1672 GEOMSGN EQUALS TDESIRED +2 # I(1)TMP
004941,001495: E5,1642 E5,1673 UN EQUALS GEOMSGN +1 # I(6)TMP
004942,001496: E5,1642 E5,1701 VTARGTAG EQUALS UN +6 # I(1)TMP
004943,001497: E5,1642 E5,1702 VTARGET EQUALS VTARGTAG +1 # I(6)TMP
004944,001498: E5,1642 E5,1710 RTNLAMB EQUALS VTARGET +6 # I(1)TMP
004945,001499: E5,1642 E5,1711 U2 EQUALS RTNLAMB +1 # I(6)TMP
004946,001500: E5,1642 E5,1717 MAGVEC2 EQUALS U2 +6 # I(2)TMP
004947,001501: E5,1642 E5,1721 UR1 EQUALS MAGVEC2 +2 # I(6)TMP
004948,001502: E5,1642 E5,1727 SNTH EQUALS UR1 +6 # I(2)TMP
004949,001503: E5,1642 E5,1731 CSTH EQUALS SNTH +2 # I(2)TMP
004950,001504: E5,1642 E5,1733 1-CSTH EQUALS CSTH +2 # I(2)TMP
004951,001505: E5,1642 E5,1735 CSTH-RHO EQUALS 1-CSTH +2 # I(2)TMP
004952,001506: E5,1642 E5,1737 P EQUALS CSTH-RHO +2 # I(2)TMP
004953,001507: E5,1642 E5,1741 R1A EQUALS P +2 # I(2)TMP
004954,001508: E5,1642 E5,1654 RVEC EQUALS R1VEC # I(6)TMP
004955,001509: E5,1642 E5,1743 VVEC EQUALS R1A +2 # I(6)TMP
004956,001510: E5,1642 E5,1710 RTNTT EQUALS RTNLAMB # I(1)TMP
004957,001511: E5,1642 E5,1751 ECC EQUALS VVEC +6 # I(2)TMP
004958,001512: E5,1642 E5,1710 RTNTR EQUALS RTNLAMB # I(1)TMP
004959,001513: E5,1642 E5,1710 RTNAPSE EQUALS RTNLAMB # I(1)TMP
004960,001514: E5,1642 E5,1717 R2 EQUALS MAGVEC2 # I(2)TMP
004961,001515: E5,1642 E5,1753 RTNPRM EQUALS ECC +2 # I(1)TMP
004962,001516: E5,1642 E5,1754 SGNRDOT EQUALS RTNPRM +1 # I(1)TMP
004963,001517: E5,1642 E5,1755 RDESIRED EQUALS SGNRDOT +1 # I(2)TMP
004964,001518: E5,1642 E5,1757 DELDEP EQUALS RDESIRED +2 # I(2)TMP
004965,001519: E5,1642 E5,1761 DEPREV EQUALS DELDEP +2 # I(2)TMP
004966,001520: E5,1642 E5,1757 TERRLAMB EQUALS DELDEP # I(2)TMP
004967,001521: E5,1642 E5,1761 TPREV EQUALS DEPREV # I(2)TMP
004968,001522: E5,1642 E5,1763 EPSILONL EQUALS DEPREV +2 # I(2)TMP
004969,001523: E5,1642 E5,1765 COGA EQUALS EPSILONL +2 # I(2) COTAN OF INITIAL FLIGHT PATH ANGLE.
004970,001524: E5,1642 E5,1765 INDEP EQUALS COGA # USED BY SUBROUTINE 'ITERATOR'.
004971,001525:
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004973,001527: # ******* OVERLAY NUMBER 3 IN EBANK 5 *******
004974,001528:
004975,001529: # INCORP STORAGE. (18D)
004976,001530:
004977,001531: E5,1642 E5,1642 ZI EQUALS ENDW # I(18)TMP
004978,001532:
004979,001533: # INCORP/L SR22.3 STORAGE. (21D)
004980,001534:
004981,001535: E5,1642 E5,1664 DELTAX EQUALS ZI +18D # I(18)
004982,001536: E5,1642 E5,1706 VARIANCE EQUALS DELTAX +18D # I(3)
004983,001537:
004984,001538: # MEASUREMENT INCORPORATION -R22- STORAGE. (49D)
004985,001539:
004986,001540: E5,1642 E5,1711 GRP2SVQ EQUALS VARIANCE +3 # I(1)TMP QSAVE FOR RESTARTS
004987,001541: E5,1642 E5,1712 OMEGAM1 EQUALS GRP2SVQ +1 # I(6)
004988,001542: E5,1642 E5,1720 OMEGAM2 EQUALS OMEGAM1 +6 # I(6)
004989,001543: E5,1642 E5,1726 OMEGAM3 EQUALS OMEGAM2 +6 # I(6)
004990,001544: E5,1642 E5,1734 HOLDW EQUALS OMEGAM3 +6 # I(18)
004991,001545: E5,1642 E5,1756 TDPOS EQUALS HOLDW +18D # I(6)
004992,001546: E5,1642 E5,1764 TDVEL EQUALS TDPOS +6 # I(6)
004993,001547:
004994,001548: E5,1642 E5,1664 TRIPA EQUALS DELTAX # I(3)TMP
004995,001549: E5,1642 E5,1667 TEMPVAR EQUALS TRIPA +3 # I(3)TMP
004996,001550:
004997,001551: # INCORPORATION/INTEGRATION Q STORAGE. (1D)
004998,001552:
004999,001553: E5,1642 E5,1772 EGRESS EQUALS TDVEL +6 # I(1)
005000,001554:
005001,001555: # P30/P31 STORAGE. (1D) AND ONE OVERLAY
005002,001556:
005003,001557: E5,1642 E5,1773 P30EXIT EQUALS EGRESS +1 # B(1)TMP
005004,001558:
005005,001559: E5,1642 E5,1773 ORIGIN EQUALS P30EXIT # I(1)TMP INDEX DURING INITVEL
005006,001560:
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005008,001562: # SYSTEM TEST ERASABLES. CAN OVERLAY W MATRIX. (127D)
005009,001563:
005010,001564: # ******* OVERLAY NUMBER 0 IN EBANK 5 *******
005011,001565:
005012,001566: E5,1642 E5,1400 AZIMUTH EQUALS W # 2
005013,001567: E5,1642 E5,1402 LATITUDE EQUALS AZIMUTH +2 # 2
005014,001568: E5,1642 E5,1404 ERVECTOR EQUALS LATITUDE +2 # 6
005015,001569: E5,1642 E5,1412 LENGTHOT EQUALS ERVECTOR +6 # 1
005016,001570: E5,1642 E5,1413 LOSVEC EQUALS LENGTHOT +1 # 6
005017,001571: E5,1642 E5,1414 NDXCTR EQUALS LOSVEC +1 # 1
005018,001572: E5,1642 E5,1415 PIPINDEX EQUALS NDXCTR +1 # 1
005019,001573: E5,1642 E5,1416 POSITON EQUALS PIPINDEX +1 # 1
005020,001574: E5,1642 E5,1417 QPLACE EQUALS POSITON +1 # 1
005021,001575: E5,1642 E5,1420 QPLACES EQUALS QPLACE +1 # 1
005022,001576: E5,1642 E5,1421 SOUTHDR EQUALS QPLACES +1 # 7
005023,001577: E5,1642 E5,1430 TEMPTIME EQUALS SOUTHDR +7 # 2
005024,001578: E5,1642 E5,1432 TMARK EQUALS TEMPTIME +2 # 2
005025,001579: E5,1642 E5,1434 GENPL EQUALS TMARK +2
005026,001580: E5,1642 E5,1434 CDUTIMEI = GENPL
005027,001581: E5,1642 E5,1436 CDUTIMEF = GENPL +2
005028,001582: E5,1642 E5,1440 CDUDANG = GENPL +4
005029,001583: E5,1642 E5,1441 CDUREADF = GENPL +5
005030,001584: E5,1642 E5,1442 CDUREADI = GENPL +6
005031,001585: E5,1642 E5,1443 CDULIMIT = GENPL +7
005032,001586:
005033,001587: E5,1642 E5,1440 TEMPADD = GENPL +4
005034,001588: E5,1642 E5,1441 TEMP = GENPL +5
005035,001589: E5,1642 E5,1442 NOBITS = GENPL +6
005036,001590: E5,1642 E5,1443 CHAN = GENPL +7
005037,001591:
005038,001592: E5,1642 E5,1444 LOS1 = GENPL +8D
005039,001593: E5,1642 E5,1452 LOS2 = GENPL +14D
005040,001594:
005041,001595: E5,1642 E5,1460 CALCDIR EQUALS GENPL +20D
005042,001596: E5,1642 E5,1461 CDUFLAG EQUALS GENPL +21D
005043,001597: E5,1642 E5,1462 GYTOBETQ EQUALS GENPL +22D
005044,001598: E5,1642 E5,1463 OPTNREG EQUALS GENPL +23D
005045,001599: E5,1642 E5,1464 SAVE EQUALS GENPL +24D # THREE ONSEC LOC
005046,001600: E5,1642 E5,1467 SFCONST1 EQUALS GENPL +27D
005047,001601: E5,1642 E5,1470 TIMER EQUALS GENPL +28D
005048,001602:
005049,001603: E5,1642 E5,1472 DATAPL EQUALS GENPL +30D
005050,001604: E5,1642 E5,1434 RDSP EQUALS GENPL # FIX LA ER POSSIBLY KEEP1
005051,001605: E5,1642 E5,1534 MASKREG EQUALS GENPL +64D
005052,001606: E5,1642 E5,1536 CDUNDX EQUALS GENPL +66D
005053,001607: E5,1642 E5,1537 RESULTCT EQUALS GENPL +67D
005054,001608: E5,1642 E5,1542 COUNTPL EQUALS GENPL +70D
005055,001609:
005056,001610: E5,1642 E5,1543 CDUANG EQUALS GENPL +71D
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005058,001612: E5,1642 E5,1434 AINLA = GENPL # 110 DE OR 156 OCT LOCATIONS
005059,001613:
005060,001614: E5,1642 E5,1434 WANGO EQUALS AINLA # VERT E ATE
005061,001615: E5,1642 E5,1436 WANGI EQUALS AINLA +2D # HORIZO TAL ERATE
005062,001616: E5,1642 E5,1440 WANGT EQUALS AINLA +4D # T
005063,001617: E5,1642 E5,1440 TORQNDX = WANGT
005064,001618: E5,1642 E5,1442 DRIFTT EQUALS AINLA +6D
005065,001619: E5,1642 E5,1444 ALX1S EQUALS AINLA +8D
005066,001620: E5,1642 E5,1445 CMPX1 EQUALS AINLA +9D # IND
005067,001621: E5,1642 E5,1446 ALK EQUALS AINLA +10D # GAINS
005068,001622: E5,1642 E5,1462 VLAUNS EQUALS AINLA +22D
005069,001623: E5,1642 E5,1464 WPLATO EQUALS AINLA +24D
005070,001624: E5,1642 E5,1470 INTY EQUALS AINLA +28D # SOUTH IP INTE
005071,001625: E5,1642 E5,1472 ANGZ EQUALS AINLA +30D # EAST A IS
005072,001626: E5,1642 E5,1474 INTZ EQUALS AINLA +32D # EAST P P I
005073,001627: E5,1642 E5,1476 ANGY EQUALS AINLA +34D # SOUTH
005074,001628: E5,1642 E5,1500 ANGX EQUALS AINLA +36D # VE
005075,001629: E5,1642 E5,1502 DRIFTO EQUALS AINLA +38D # VERT
005076,001630: E5,1642 E5,1504 DRIFTI EQUALS AINLA +40D # SOU
005077,001631: E5,1642 E5,1510 VLAUN EQUALS AINLA +44D
005078,001632: E5,1642 E5,1512 ACCWD EQUALS AINLA +46D
005079,001633: E5,1642 E5,1520 POSNV EQUALS AINLA +52D
005080,001634: E5,1642 E5,1522 DPIPAY EQUALS AINLA +54D # SOUTH
005081,001635: E5,1642 E5,1526 DPIPAZ EQUALS AINLA +58D # NORTH IP INCREMENT
005082,001636: E5,1642 E5,1530 ALTIM EQUALS AINLA +60D
005083,001637: E5,1642 E5,1531 ALTIMS EQUALS AINLA +61D # INDEX
005084,001638: E5,1642 E5,1532 ALDK EQUALS AINLA +62D # TIME ONSTAN
005085,001639: E5,1642 E5,1550 DELM EQUALS AINLA +76D
005086,001640: E5,1642 E5,1560 WPLATI EQUALS AINLA +84D
005087,001641: E5,1642 E5,1562 GEOCOMPS EQUALS AINLA +86D
005088,001642: E5,1642 E5,1563 ERCOMP EQUALS AINLA +87D
005089,001643: E5,1642 E5,1571 ZERONDX EQUALS AINLA +93D
005090,001644:
005091,001645: E5,1642 E5,1452 THETAN = ALK +4
005092,001646: E5,1642 E5,1460 FILDELV EQUALS THETAN +6 # AGS ALIGNMENT STORAGE
005093,001647: E5,1642 E5,1462 INTVEC EQUALS FILDELV +2
005094,001648: E5,1642 E5,1572 1SECXT = AINLA +94D
005095,001649: E5,1642 E5,1573 ASECXT = AINLA +95D
005096,001650: E5,1642 E5,1574 PERFDLAY EQUALS AINLA +96D # B(2) DELAY TIME BEF. START DRIFT MEASURE
005097,001651: E5,1642 E5,1576 OVFLOWCK EQUALS AINLA +98D # (1) SET MEANS OVERFLOW IN IMU PERF TEST
005098,001652: # AND CAUSES TERMINATION
005099,001653:
005100,001654: E5,1642 E5,1774 END-E5 EQUALS STARSAV2 +6 # *** FIRST FREE LOCATION IN E5 ***
005101,001655:
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005103,001657: # EBANK-6 ASSIGNMENTS.
005104,001658:
005105,001659: E6,1400 SETLOC 3000
005106,001660:
005107,001661: # DAP PAD-LOADED DATA. (10D)
005108,001662:
005109,001663: # ALL OF THE FOLLOWING EXCEPT PITTIME AND ROLLTIME ARE INITIALIZED IN FRESH START TO PERMIT IMMEDIATE USE OF DAP
005110,001664:
005111,001665: E6,1400 HIASCENT ERASE # (1) MASS AFTER STAGING, SCALE AT B16 KG.
005112,001666: E6,1401 ROLLTIME ERASE # (1) TIME TO TRIM Z GIMBAL IN R03, CSEC.
005113,001667: E6,1402 PITTIME ERASE # (1) TIME TO TRIM Y GIMBAL IN R03, CSEC.
005114,001668: E6,1403 DKTRAP ERASE # (1) DAP STATE (POSSIBLE 77001
005115,001669: E6,1404 DKOMEGAN ERASE # (1) ESTIMATOR PARA- (VALUES 00012
005116,001670: E6,1405 DKKAOSN ERASE # (1) METERS FOR THE 00074
005117,001671: E6,1406 LMTRAP ERASE # (1) DOCKED AND 77001
005118,001672: E6,1407 LMOMEGAN ERASE # (1) LEM-ALONE CASES 00000
005119,001673: E6,1410 LMKAOSN ERASE # (1) RESPECTIVELY 00074
005120,001674: E6,1411 DKDB ERASE # (1) WIDTH OF DEADBAND FOR DOCKED RCS
005121,001675: # AUTOPILOT (DB=1.4DEG IN FRESH START)
005122,001676: # DEADBAND = PI/DKDB RAD.
005123,001677:
005124,001678: # PADLOADS FOR INITIALIZATION OF DAP BIAS ACCELERATION (AT P12 IGNITION) (2D)
005125,001679:
005126,001680: E6,1412 IGNAOSQ ERASE # B(1)PL
005127,001681: E6,1413 IGNAOSR ERASE # B(1)PL
005128,001682:
005129,001683: # AXIS TRANSFORMATION MATRIX - GIMBAL TO PILOT AXES: (5D)
005130,001684:
005131,001685: E6,1414 M11 ERASE # SCALED AT 1
005132,001686: E6,1415 M21 ERASE # SCALED AT 1
005133,001687: E6,1416 M31 ERASE
005134,001688: E6,1417 M22 ERASE # SCALED AT 1.
005135,001689: E6,1420 M32 ERASE # SCALED AT 1.
005136,001690:
005137,001691: # ANGLE MEASUREMENTS. (31D)
005138,001692:
005139,001693: E6,1421 OMEGAP ERASE +4 # BODY-AXIS ROT. RATES SCALED AT PI/4 AND
005140,001694: E6,1426 E6,1422 OMEGAQ EQUALS OMEGAP +1 # BODY-AXIS ACCELERATIONS SCALED AT PI/8
005141,001695: E6,1426 E6,1423 OMEGAR EQUALS OMEGAP +2
005142,001696: # RETAIN THE ORDER OF ALPHAQ AND ALPHAR FOR DOWNLINK PURPOSES.
005143,001697: E6,1426 E6,1424 ALPHAQ EQUALS OMEGAP +3
005144,001698: E6,1426 E6,1425 ALPHAR EQUALS OMEGAP +4
005145,001699: E6,1426 OMEGAU ERASE +1
005146,001700: E6,1430 E6,1427 OMEGAV = OMEGAU +1
005147,001701:
005148,001702: E6,1430 TRAPEDP ERASE +5
005149,001703: E6,1436 E6,1431 TRAPEDQ = TRAPEDP +1
005150,001704: E6,1436 E6,1432 TRAPEDR = TRAPEDP +2
005151,001705: E6,1436 E6,1433 NPTRAPS = TRAPEDP +3
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005153,001707: E6,1436 E6,1434 NQTRAPS = TRAPEDP +4
005154,001708: E6,1436 E6,1435 NRTRAPS = TRAPEDP +5
005155,001709: E6,1436 E6,1427 EDOTP = EDOT
005156,001710: E6,1436 EDOTQ ERASE +1
005157,001711: E6,1440 E6,1437 EDOTR = EDOTQ +1 # MANY SHARING NAMES
005158,001712: E6,1440 E6,1436 QRATEDIF EQUALS EDOTQ # ALTERNATIVE NAMES:
005159,001713: E6,1440 E6,1437 RRATEDIF EQUALS EDOTR # DELETE WHEN NO. OF REFERENCES = 0
005160,001714:
005161,001715: E6,1440 E6,1426 URATEDIF EQUALS OMEGAU
005162,001716: E6,1440 E6,1427 VRATEDIF EQUALS OMEGAV
005163,001717: E6,1440 OLDXFORP ERASE +2 # STORED CDU READINGS FOR STATE
005164,001718: E6,1443 E6,1441 OLDYFORP EQUALS OLDXFORP +1 # DERIVATIONS: SCALED AT PI RADIANS (2'S)
005165,001719: E6,1443 E6,1442 OLDZFORQ EQUALS OLDXFORP +2
005166,001720:
005167,001721: # RATE-COMMAND AND MINIMUM IMPULSE MODES
005168,001722:
005169,001723: E6,1443 CH31TEMP ERASE
005170,001724: E6,1444 STIKSENS ERASE
005171,001725: E6,1445 TCP ERASE
005172,001726: E6,1446 DXERROR ERASE +5
005173,001727: E6,1454 E6,1450 DYERROR EQUALS DXERROR +2
005174,001728: E6,1454 E6,1452 DZERROR EQUALS DXERROR +4
005175,001729: E6,1454 PLAST ERASE
005176,001730: E6,1455 QLAST ERASE
005177,001731: E6,1456 RLAST ERASE
005178,001732: E6,1457 TCQR ERASE
005179,001733:
005180,001734: # OTHER VARIABLES. (5D)
005181,001735:
005182,001736: E6,1460 OLDPMIN ERASE # THESE THREE USED IN MIN IMPULSE MODE.
005183,001737: E6,1461 OLDQRMIN ERASE
005184,001738: E6,1462 E6,1737 TEMP31 EQUALS DAPTEMP1
005185,001739:
005186,001740: E6,1462 SAVEHAND ERASE +1
005187,001741: E6,1464 PERROR ERASE
005188,001742: E6,1465 E6,1450 QERROR EQUALS DYERROR
005189,001743: E6,1465 E6,1452 RERROR EQUALS DZERROR
005190,001744:
005191,001745: # JET STATE CHANGE VARIABLES - TIME (TOFJTCHG), JET BITS WRITTEN NOW (10D)
005192,001746: # (JTSONNOW), AND JET BITS WRITTEN AT T6 RUPT (JTSATCHG).
005193,001747:
005194,001748: E6,1465 NXT6ADR ERASE
005195,001749: E6,1466 T6NEXT ERASE +1
005196,001750: E6,1470 T6FURTHA ERASE +1
005197,001751: E6,1472 NEXTP ERASE +2
005198,001752: E6,1475 E6,1473 NEXTU = NEXTP +1
005199,001753: E6,1475 E6,1474 NEXTV = NEXTP +2
005200,001754: E6,1475 -2JETLIM ERASE +1 # RATE COMMAND 4-JET RATE DIFFERENCE LIMIT
005201,001755: E6,1477 E6,1476 -RATEDB EQUALS -2JETLIM +1 # AND RATE DEADBAND FOR ASCENT OR DESCENT
005202,001756:
005203,001757: E6,1477 E6,1476 TARGETDB EQUALS -RATEDB # MAN. CONTROL TARGET DB COMPLEMENT.
005204,001758:
005205,001759: # ***Q,R AXIS ERASABLES *** (3)
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005207,001761: E6,1477 4742 PBIT EQUALS BIT10
005208,001762: E6,1477 4741 QRBIT EQUALS BIT11
005209,001763: E6,1477 E6,1751 UERROR EQUALS DAPTREG5 # U,V-AXES ATT ERROR FOR RCS CONTROL LAWS
005210,001764: E6,1477 E6,1752 VERROR = UERROR +1
005211,001765: E6,1477 RETJADR ERASE
005212,001766: E6,1500 E6,1742 TEMPNUM EQUALS DAPTEMP4
005213,001767: E6,1500 E6,1743 NUMBERT EQUALS DAPTEMP5
005214,001768: E6,1500 E6,1744 ROTINDEX EQUALS DAPTEMP6
005215,001769: E6,1500 E6,1737 ROTEMP1 EQUALS DAPTEMP1
005216,001770: E6,1500 E6,1740 ROTEMP2 EQUALS DAPTEMP2
005217,001771: E6,1500 E6,1741 POLYTEMP EQUALS DAPTEMP3
005218,001772: E6,1500 SENSETYP ERASE
005219,001773: E6,1501 E6,1737 ABSTJ EQUALS DAPTEMP1 # ABS VALUE OF JET-FIRING TIME
005220,001774: E6,1501 E6,1737 ABSEDOTP EQUALS DAPTEMP1
005221,001775:
005222,001776: E6,1501 E6,1750 DPSBURN EQUALS DAPTREG4 # USED WITH SNUFFBIT. VERY TEMPORARY.
005223,001777:
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005225,001779: # TRIM GIMBAL CONTROL LAW ERASABLES: (11D)
005226,001780:
005227,001781: E6,1501 E6,1737 GTSTEMPS EQUALS DAPTEMP1 # GTS IS PART OF THE JASK.
005228,001782: E6,1501 E6,1741 SHFTFLAG EQUALS GTSTEMPS +2 # COUNT BITS FOR GTSQRT SHIFTING.
005229,001783: E6,1501 E6,1744 ININDEX EQUALS GTSTEMPS +5 # INDEX FOR SHIFT LOOP IN GTSQRT.
005230,001784:
005231,001785: E6,1501 E6,1505 SAVESR EQUALS AXISCTR # CANNOT BE A DAPTEMP - GTS USES THEM ALL.
005232,001786:
005233,001787: E6,1501 E6,1746 SCRATCH EQUALS GTSTEMPS +7 # ROOTCYCL ERASABLE
005234,001788: E6,1501 E6,1747 HALFARG EQUALS GTSTEMPS +8D # ROOTCYCL ERASABLE.
005235,001789:
005236,001790: E6,1501 E6,1737 K2THETA EQUALS GTSTEMPS # D.P., K*ERROR, NEGUSUM
005237,001791: E6,1501 E6,1741 KCENTRAL EQUALS GTSTEMPS +2 # S.P., K FROM KQ OR KRDAP, AT PI/2(8)
005238,001792: E6,1501 E6,1742 K2CNTRAL EQUALS GTSTEMPS +3 # D.P., GTS SCRATCH CELLS.
005239,001793: E6,1501 E6,1743 WCENTRAL EQUALS GTSTEMPS +4 # S.P., OMEGA, AT PI/4 RAD/SEC
005240,001794: E6,1501 E6,1744 ACENTRAL EQUALS GTSTEMPS +5 # S.P., ALPHA, AT PI/4 RAD/SEC(2)
005241,001795: E6,1501 E6,1745 DEL EQUALS GTSTEMPS +6 # S.P., SGN FUNCTION VALUE.
005242,001796: E6,1501 E6,1746 A2CNTRAL EQUALS GTSTEMPS +7 # D.P., GTS SCRATCH CELLS.
005243,001797: E6,1501 E6,1750 QRCNTR EQUALS GTSTEMPS +9D # S.P., INDEX FOR GTS LOOP THROUGH Q,R AXES
005244,001798: E6,1501 E6,1751 FUNCTION EQUALS GTSTEMPS +10D # D.P., ARGUMENT FOR GRSQRT, SCRATCH FOR GTS
005245,001799:
005246,001800: E6,1501 NEGUQ ERASE +2 # NEGATIVE OF Q-AXIS GIMBAL DRIVE
005247,001801: # NEGUQ +1 DEFINED AND USED ELSEWHERE
005248,001802: E6,1504 E6,1503 NEGUR EQUALS NEGUQ +2 # NEGATIVE OF R-AXIS GIMBAL DRIVE
005249,001803:
005250,001804: E6,1504 KQ ERASE +2 # S.P., JERK TERM FOR GTS, AT PI/2(8)
005251,001805: E6,1507 E6,1505 AXISCTR EQUALS KQ +1
005252,001806: E6,1507 E6,1506 KRDAP EQUALS KQ +2 # .3 ACCDOTR SCALED AT PI/2(8)
005253,001807:
005254,001808: E6,1507 ACCDOTQ ERASE +3 # Q-JERK SCALED AT PI/2(7) UNSIGNED
005255,001809: E6,1513 E6,1510 QACCDOT EQUALS ACCDOTQ +1 # Q-JERK SCALED AT PI/2(7) SIGNED
005256,001810: E6,1513 E6,1511 ACCDOTR EQUALS ACCDOTQ +2 # R-JERK SCALED AT PI/2(7) UNSIGNED
005257,001811: E6,1513 E6,1512 RACCDOT EQUALS ACCDOTQ +3 # R-JERK SCALED AT PI/2(7) SIGNED
005258,001812:
005259,001813: E6,1513 E6,1450 QDIFF EQUALS QERROR # ATTITUDE ERRORS:
005260,001814: E6,1513 E6,1452 RDIFF EQUALS RERROR # SCALED AT PI RADIANS
005261,001815:
005262,001816: # TORQUE VECTOR RECONSTRUCTION VARIABLES: (18D)
005263,001817:
005264,001818: E6,1513 E6,1745 JETRATE EQUALS DAPTREG1
005265,001819: E6,1513 E6,1746 JETRATEQ EQUALS JETRATE +1 # THE LAST CONTROL SAMPLE PERIOD OF 100 MS
005266,001820: E6,1513 E6,1747 JETRATER EQUALS JETRATE +2 # SCALED AT PI/4 RADIANS/SECOND
005267,001821:
005268,001822: E6,1513 DOWNTORK ERASE +5 # ACCUMULATED JET TORQUE COMMANDED ABOUT
005269,001823: E6,1521 E6,1513 POSTORKP EQUALS DOWNTORK # +,-P, +,-U, +,-V RESPECTIVELY.
005270,001824: E6,1521 E6,1514 NETTOTKP EQUALS DOWNTORK +1 # EMPLOYED EXCLUSIVELY FOR DOWNLIST.
005271,001825: E6,1521 E6,1515 POSTORKU EQUALS DOWNTORK +2 # NOT INITIALIZED: PERMITTED TO OVERFLOW
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005273,001827: E6,1521 E6,1516 NEGTORKU EQUALS DOWNTORK +3 # SCALED AT 32 JET-SEC, OR ABOUT 2.0 JET-
005274,001828: E6,1521 E6,1517 POSTORKV EQUALS DOWNTORK +4 # MSEC PER BIT.
005275,001829: E6,1521 E6,1520 NEGTORKV EQUALS DOWNTORK +5
005276,001830:
005277,001831: E6,1521 NO.PJETS ERASE +2
005278,001832: E6,1524 E6,1522 NO.UJETS = NO.PJETS +1
005279,001833: E6,1524 E6,1523 NO.VJETS = NO.UJETS +1
005280,001834: E6,1524 TJP ERASE +2
005281,001835: E6,1527 E6,1525 TJU = TJP +1
005282,001836: E6,1527 E6,1526 TJV = TJP +2
005283,001837:
005284,001838: E6,1527 L,PVT-CG ERASE
005285,001839: E6,1530 1JACC ERASE +4 # ACCELERATIONS DUE TO 1 JET TORQUING
005286,001840: E6,1535 E6,1531 1JACCQ EQUALS 1JACC +1 # SCALED AT PI/4 RADIANS/SECOND
005287,001841: E6,1535 E6,1532 1JACCR EQUALS 1JACC +2
005288,001842: E6,1535 E6,1533 1JACCU EQUALS 1JACC +3 # FOR U,V-AXES THE SCALE FACTOR IS DIFF:
005289,001843: E6,1535 E6,1534 1JACCV EQUALS 1JACC +4 # SCALED AT PI/2 RADIANS/SECOND (FOR ASC)
005290,001844:
005291,001845: # ASCENT VARIABLES: (10D)
005292,001846:
005293,001847: E6,1535 SKIPU ERASE +1
005294,001848: E6,1537 E6,1536 SKIPV = SKIPU +1
005295,001849:
005296,001850: # THE FOLLOWING LM DAP ERASABLES ARE ZEROED IN THE STARTDAP SECTION OF THE DAPIDLER PROGRAM AND THE COASTASC
005297,001851: # SECTION OF THE AOSTASK. THE ORDER MUST BE PRESERVED FOR THE INDEXING METHODS WHICH ARE EMPLOYED IN THOSE
005298,001852: # SECTIONS AND ELSEWHERE.
005299,001853:
005300,001854: E6,1537 AOSQ ERASE +5 # OFFSET ACC. ESTIMATES, UPDATED IN D.P.,
005301,001855: E6,1545 E6,1541 AOSR EQUALS AOSQ +2 # AND SCALED AT PI/2.
005302,001856: E6,1545 E6,1543 AOSU EQUALS AOSQ +4 # UV-AXES OFFSET ACC. FROMED BY VECTOR
005303,001857: E6,1545 E6,1544 AOSV EQUALS AOSQ +5 # ADDITION OF Q,R. AT PI/2 RAD/SEC(2).
005304,001858:
005305,001859: E6,1545 AOSQTERM ERASE +1 # (.1-.05K)AOS
005306,001860: E6,1547 E6,1546 AOSRTERM EQUALS AOSQTERM +1 # SCALED AT PI/4 RADIANS/SECOND.
005307,001861:
005308,001862: # FOR TJET LAW SUBROUTINE: (TEMPS ONLY)
005309,001863:
005310,001864: # NUMBERT EQUALS DAPTEMP5 DEFINED IN QRAXIS.
005311,001865: E6,1547 E6,1737 EDOTSQ EQUALS DAPTEMP1
005312,001866: E6,1547 E6,1740 ROTSENSE EQUALS DAPTEMP2
005313,001867: E6,1547 E6,1741 FIREFCT EQUALS DAPTEMP3 # LOOKED AT BY PAXIS.
005314,001868: E6,1547 E6,1742 TTOAXIS EQUALS DAPTEMP4
005315,001869: E6,1547 E6,1744 ADRSDIF2 EQUALS DAPTEMP6
005316,001870: E6,1547 E6,1745 HOLDQ EQUALS DAPTREG1
005317,001871: E6,1547 E6,1746 ADRSDIF1 EQUALS DAPTREG2
005318,001872: E6,1547 E6,1747 HH EQUALS DAPTREG3 # DOUBLE PRECISION
005319,001873: # HH +1 EQUALS DAPTREG4
005320,001874: E6,1547 E6,1752 E EQUALS DAPTREG6 # TIME SHARE WITH VERROR
005321,001875: E6,1547 E6,1427 EDOT EQUALS OMEGAV
005322,001876:
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005324,001878: # INPUT TO TJET LAW (PERMANENT ERASABLES). (48D)
005325,001879:
005326,001880: E6,1547 E6,1525 TJETU = TJU # EQUATE NAMES. INDEXED BY -1, 0, +1.
005327,001881: E6,1547 BLOCKTOP ERASE +47D
005328,001882: E6,1627 E6,1567 1/ANET1 = BLOCKTOP +16D # THESE 8 PARAMETERS ARE SET UP BY 1/ACCS
005329,001883: E6,1627 E6,1570 1/ANET2 = 1/ANET1 +1 # FOR MINIMUM JETS ABOUT THE U-AXIS WHEN
005330,001884: E6,1627 E6,1573 1/ACOAST = 1/ANET1 +4 # EDOT IS POSITIVE. TJETLAW INDEXES BY
005331,001885: E6,1627 E6,1575 ACCFCTZ1 = 1/ANET1 +6 # ADRSDIFF FROM THESE REGISTERS TO PICK UP
005332,001886: E6,1627 E6,1576 ACCFCTZ5 = 1/ANET1 +7 # PARAMETERS FOR THE PROPER AXIS, NUMBER
005333,001887: E6,1627 E6,1601 FIREDB = 1/ANET1 +10D # OF JETS AND SIGN OF EDOT. THERE ARE 48
005334,001888: E6,1627 E6,1603 COASTDB = 1/ANET1 +12D # REGISTERS IN ALL IN THIS BLOCK.
005335,001889: E6,1627 E6,1605 AXISDIST = 1/ANET1 +14D # FOUR NOT REFERENCED (P-AXIS) ARE FILLED
005336,001890: # IN BY THE FOLLOWING:
005337,001891: E6,1627 E6,1547 ACCSWU = BLOCKTOP # SET BY 1/ACCS TO SHOW WHETHER MAXIMUM
005338,001892: E6,1627 E6,1550 ACCSWV = ACCSWU +1 # JETS ARE REQUIRED BECAUSE OF AOS.
005339,001893: E6,1627 E6,1555 FLAT = BLOCKTOP +6 # WIDTH OF MINIMUM IMPULSE ZONE.
005340,001894: E6,1627 E6,1556 ZONE3LIM = BLOCKTOP +7 # HEIGHT OF MINIMUM IMPULSE ZONE (AT 4 SEC)
005341,001895:
005342,001896: E6,1627 COEFFQ ERASE +1 # COEFFQ AND COEFFR ARE USED IN ROT-TOUV
005343,001897: E6,1631 E6,1630 COEFFR EQUALS COEFFQ +1 # TO RESOLVE Q,R COMPONENTS INTO U,V COMP.
005344,001898:
005345,001899: # VARIABLES FOR GTS-QRAXIS CONTROL EXCHANGE. (4)
005346,001900:
005347,001901: E6,1631 E6,1502 ALLOWGTS EQUALS NEGUQ +1 # INSERT INTO UNUSED LOCATION
005348,001902: E6,1631 COTROLER ERASE # INDICATES WHICH CONTROL SYSTEM TO USE.
005349,001903: E6,1632 QGIMTIMR ERASE +2 # Q-GIMBAL DRIVE ITMER, DECISECONDS.
005350,001904: E6,1635 E6,1633 INGTS EQUALS QGIMTIMR +1 # INDICATOR OF CURRENT GTS CONTROL.
005351,001905: E6,1635 E6,1634 RGIMTIMR EQUALS QGIMTIMR +2 # R-GIMBAL DRIVE TIMER, DECISECONDS.
005352,001906:
005353,001907: # PLEASE RETAIN THE ORDER OF CDUXD THRU CDUZD FOR DOWNLINK PURPOSES.
005354,001908:
005355,001909: # KALCMANU:DAP INTERFACE. (9D)
005356,001910:
005357,001911: E6,1635 CDUXD ERASE +2 # CDU DESIRED REGISTERS:
005358,001912: E6,1640 E6,1636 CDUYD EQUALS CDUXD +1 # SCALED AT PI RADIANS (180 DEGREES)
005359,001913: E6,1640 E6,1637 CDUZD EQUALS CDUXD +2 # (STORE IN 2S COMPLEMENT)
005360,001914:
005361,001915: E6,1640 DELCDUX ERASE +2 # NEGATIVE OF DESIRED 100MS CDU INCREMENT:
005362,001916: E6,1643 E6,1641 DELCDUY EQUALS DELCDUX +1 # SCALED AT PI RADIANS (180 DEGREES)
005363,001917: E6,1643 E6,1642 DELCDUZ EQUALS DELCDUX +2 # (STORE IN 2S COMPLEMENT)
005364,001918:
005365,001919: # RETAIN THE ORDER OF OMEGAPD TO OMEGARD FOR DOWNLINK PURPOSES.
005366,001920:
005367,001921: E6,1643 OMEGAPD ERASE +2 # ATTITUDE MANEUVER DESIRED RATES:
005368,001922: E6,1646 E6,1644 OMEGAQD EQUALS OMEGAPD +1 # (NOT EXPLICITLY REFERENCED IN GTS CNTRL)
005369,001923: E6,1646 E6,1645 OMEGARD EQUALS OMEGAPD +2 # SCALED AT PI/4 RADIANS/SECOND
005370,001924:
005371,001925: # KALCMANU STORAGE. (24D)
005372,001926:
005373,001927: E6,1646 MIS ERASE +23D # I(18D)
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005375,001929: E6,1676 E6,1670 COF EQUALS MIS +18D # I(6)
005376,001930:
005377,001931: # KALCMANU STORAGE. (33D)
005378,001932: E6,1676 BCDU ERASE +30D # B(3)
005379,001933: E6,1735 E6,1701 KSPNDX EQUALS BCDU +3 # B(1)
005380,001934: E6,1735 E6,1702 KDPNDX EQUALS KSPNDX +1 # B(1)
005381,001935:
005382,001936: E6,1735 E6,1703 TMIS EQUALS KDPNDX +1 # I(18) MUST BE IN SAME BANK AS RCS DAP
005383,001937: E6,1735 E6,1725 COFSKEW EQUALS TMIS +18D # I(6) MUST BE IN SAME BANK AS RCS DAP
005384,001938: E6,1735 E6,1733 CAM EQUALS COFSKEW +6 # I(2) MUST BE IN SAME BANK AS RCS DAP
005385,001939:
005386,001940: E6,1735 AM ERASE +1 # I(2) THIS WAS ONCE IN E5 OVERLAYING OGC
005387,001941:
005388,001942: # FIRST-ORDER OVERLAYS IN KALCMANU (25D)
005389,001943: E6,1737 E6,1703 KV1 EQUALS TMIS # I(6)
005390,001944: E6,1737 E6,1703 MFISYM EQUALS TMIS # I
005391,001945: E6,1737 E6,1703 TMFI EQUALS TMIS # I
005392,001946: E6,1737 E6,1703 NCDU EQUALS TMIS # B
005393,001947: E6,1737 E6,1706 NEXTIME EQUALS TMIS +3 # B
005394,001948: E6,1737 E6,1707 TTEMP EQUALS TMIS +4 # B
005395,001949: E6,1737 E6,1711 KV2 EQUALS TMIS +6 # I(6)
005396,001950: E6,1737 E6,1711 BIASTEMP EQUALS TMIS +6 # B
005397,001951: E6,1737 E6,1717 KV3 EQUALS TMIS +12D # I(6)
005398,001952: E6,1737 E6,1717 OGF EQUALS TMIS +12D # I
005399,001953:
005400,001954: E6,1737 E6,1725 BRATE EQUALS COFSKEW # B
005401,001955: E6,1737 E6,1725 IG EQUALS COFSKEW # I
005402,001956:
005403,001957: E6,1737 E6,1733 TM EQUALS CAM # B
005404,001958:
005405,001959: # SECOND-ORDER OVERLAYS IN KALCMANU (24D)
005406,001960:
005407,001961: E6,1737 E6,1703 K1 = KV1
005408,001962: E6,1737 E6,1711 K2 = KV2
005409,001963: E6,1737 E6,1717 K3 = KV3
005410,001964: E6,1737 E6,1703 P21 EQUALS KV1 # I(2)
005411,001965: E6,1737 E6,1705 D21 EQUALS KV1 +2 # I(2)
005412,001966: E6,1737 E6,1707 G21 EQUALS KV1 +4 # I(2)
005413,001967: E6,1737 E6,1711 C2SQP EQUALS KV2 # I(2)
005414,001968: E6,1737 E6,1713 C2SQM EQUALS KV2 +2 # I(2)
005415,001969: E6,1737 E6,1715 C2PP EQUALS KV2 +4 # I(2)
005416,001970: E6,1737 E6,1717 C2MP EQUALS KV3 # I(2)
005417,001971: E6,1737 E6,1721 C1PP EQUALS KV3 +2 # I(2)
005418,001972: E6,1737 E6,1723 C1MP EQUALS KV3 +4 # I(2)
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005420,001974: E6,1737 E6,1725 VECQTEMP = COFSKEW
005421,001975:
005422,001976: E6,1737 E6,1635 DCDU = CDUXD
005423,001977: E6,1737 E6,1640 DELDCDU = DELCDUX
005424,001978: E6,1737 E6,1641 DELDCDU1 = DELCDUY
005425,001979: E6,1737 E6,1642 DELDCDU2 = DELCDUZ
005426,001980:
005427,001981: # * * * * * * * * * * * * * * * * * * * * * * * *
005428,001982:
005429,001983: # STORAGE FOR FINDCDUW
005430,001984:
005431,001985: # OVERLAYING KALCMANU STORAGE: (26D)
005432,001986:
005433,001987: E6,1737 E6,1646 ECDUW EQUALS MIS
005434,001988: E6,1737 E6,1646 ECDUWUSR EQUALS ECDUW # B(1)TMP
005435,001989: E6,1737 E6,1647 QCDUWUSR EQUALS ECDUWUSR +1 # I(1)TMP
005436,001990: E6,1737 E6,1650 NDXCDUW EQUALS QCDUWUSR +1 # B(1)TMP
005437,001991: E6,1737 E6,1651 FLAGOODW EQUALS NDXCDUW +1 # B(1)TMP
005438,001992: E6,1737 E6,1652 FLPAUTNO EQUALS FLAGOODW +1 # B(1)TMP
005439,001993: E6,1737 E6,1653 UNFC/2 EQUALS FLPAUTNO +1 # I(6)IN
005440,001994: E6,1737 E6,1661 UNWC/2 EQUALS UNFC/2 +6 # I(6)IN
005441,001995: E6,1737 E6,1667 UNFV/2 EQUALS UNWC/2 +6 # I(6) S-S
005442,001996: E6,1737 E6,1667 UNFVX/2 = UNFV/2
005443,001997: E6,1737 E6,1671 UNFVY/2 = UNFV/2 +2
005444,001998: E6,1737 E6,1673 UNFVZ/2 = UNFV/2 +4
005445,001999: E6,1737 E6,1675 -DELGMB EQUALS UNFV/2 +6 # B(3)TMP
005446,002000:
005447,002001: # DEFINED IN THE WORK AREA: (18D)
005448,002002:
005449,002003: E6,1737 UNX/2 = 0
005450,002004: E6,1737 UNY/2 = 6
005451,002005: E6,1737 UNZ/2 = 14
005452,002006:
005453,002007: # END OF FINDCDUW ERASABLES
005454,002008:
005455,002009: # * * * * * * * * * * * * * * * * * * * * * * * *
005456,002010:
005457,002011: # THE FOLLOWING ARE THE DAP REPLACEMENTS FOR THE ITEMPS AND RUPTREGS, NEEDED BECAUSE DAP IS NOW A TOB,JASK,JAB,TOSK
005458,002012: # ... ANYWAY, THE DAP CAN NOW BE INTERRUPTED. (18D)
005459,002013:
005460,002014: E6,1737 DAPTEMP1 ERASE +17D
005461,002015: E6,1761 E6,1740 DAPTEMP2 EQUALS DAPTEMP1 +1
005462,002016: E6,1761 E6,1741 DAPTEMP3 EQUALS DAPTEMP1 +2
005463,002017: E6,1761 E6,1742 DAPTEMP4 EQUALS DAPTEMP1 +3
005464,002018: E6,1761 E6,1743 DAPTEMP5 EQUALS DAPTEMP1 +4
005465,002019: E6,1761 E6,1744 DAPTEMP6 EQUALS DAPTEMP1 +5
005466,002020: E6,1761 E6,1745 DAPTREG1 EQUALS DAPTEMP1 +6
005467,002021: E6,1761 E6,1746 DAPTREG2 EQUALS DAPTEMP1 +7
005468,002022: E6,1761 E6,1747 DAPTREG3 EQUALS DAPTEMP1 +8D
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005470,002024: E6,1761 E6,1750 DAPTREG4 EQUALS DAPTEMP1 +9D
005471,002025: E6,1761 E6,1751 DAPTREG5 EQUALS DAPTEMP1 +10D
005472,002026: E6,1761 E6,1752 DAPTREG6 EQUALS DAPTEMP1 +11D
005473,002027:
005474,002028: E6,1761 E6,1753 DAPARUPT EQUALS DAPTEMP1 +12D
005475,002029: E6,1761 E6,1754 DAPLRUPT EQUALS DAPARUPT +1
005476,002030: E6,1761 E6,1755 DAPBQRPT EQUALS DAPARUPT +2
005477,002031: E6,1761 E6,1757 DAPZRUPT EQUALS DAPARUPT +4
005478,002032: # (DAPZRUPT IS ALSO JASK-IN-PROGRESS FLAG)
005479,002033:
005480,002034: # NEEDLER (ATTITUDE ERROR EIGHT BALL DISPLAY) STORAGE. (6D)
005481,002035:
005482,002036: E6,1761 0061 T5TEMP EQUALS ITEMP1
005483,002037: E6,1761 0063 DINDX EQUALS ITEMP3
005484,002038: E6,1761 AK ERASE +2 # NEEDLER ATTITUDE INPUTS, SCALED AT 180
005485,002039: E6,1764 E6,1762 AK1 EQUALS AK +1 # DEGREES. P,Q,R AXES IN AK,AK1,AK2.
005486,002040: E6,1764 E6,1763 AK2 EQUALS AK +2
005487,002041:
005488,002042: E6,1764 EDRIVEX ERASE +2 # NEEDLER DISPLAY REGS AT 1800 DEGREES.
005489,002043: E6,1767 E6,1765 EDRIVEY EQUALS EDRIVEX +1 # SO THAT 384 BITS REPRESENT 42 3/16 DEG.
005490,002044: E6,1767 E6,1766 EDRIVEZ EQUALS EDRIVEX +2
005491,002045:
005492,002046: # DOCKED JET INHIBITION COUNTERS (3D)
005493,002047:
005494,002048: E6,1767 PJETCTR ERASE +2
005495,002049: E6,1772 E6,1770 UJETCTR EQUALS PJETCTR +1
005496,002050: E6,1772 E6,1771 VJETCTR EQUALS PJETCTR +2
005497,002051:
005498,002052: E6,1772 E6,1771 END-E6 EQUALS VJETCTR
005499,002053:
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005501,002055: # EBANK-7 ASSIGNMENTS
005502,002056:
005503,002057: E7,1400 SETLOC 3400
005504,002058:
005505,002059: # P35 CONSTANTS. -PAD LOADED- (4D)
005506,002060:
005507,002061: E7,1400 ATIGINC ERASE +1 # B(2)PL *MUST BE AT 1400 FOR SYSTEMSTEST
005508,002062: E7,1402 PTIGINC ERASE +1 # B(2)PL
005509,002063:
005510,002064: # AOTMARK STORAGE. -PAD LOADED- (12D)
005511,002065:
005512,002066: E7,1404 AOTAZ ERASE +5 # B(6)PL
005513,002067: E7,1412 AOTEL ERASE +5 # B(6)PL
005514,002068:
005515,002069: # LANDING RADAR. -PAD LOADED- (2D)
005516,002070:
005517,002071: E7,1420 LRHMAX ERASE # B(1)
005518,002072: E7,1421 LRWH ERASE # B(1)
005519,002073:
005520,002074: # THROTTLE STORAGE. -PAD LOADED- (1D)
005521,002075:
005522,002076: E7,1422 ZOOMTIME ERASE # B(1)PL TIME OF DPS THROTTLE-UP COMMAND
005523,002077:
005524,002078: # P63 AND P64 CONSTANTS. -PAD LOADED- (4D)
005525,002079:
005526,002080: E7,1423 TENDBRAK ERASE # B(1) LANDING PHASE SWITCHING CRITERION
005527,002081: E7,1424 TENDAPPR ERASE # B(1) LANDING PHASE SWITCHING CRITERION
005528,002082: E7,1425 DELTTFAP ERASE # B(1) INCREMENT ADDED TO TTF/8 WHEN
005529,002083: # SWITCHING FROM P63 TO P64
005530,002084: E7,1426 LEADTIME ERASE # B(1) TIME INCREMENT SPECIFYING HOW MUCH
005531,002085: # GUIDANCE IS PROJECTED FORWARD.
005532,002086:
005533,002087: # LANDING RADAR -PAD LOADED- (2D)
005534,002088:
005535,002089: E7,1427 RPCRTIME ERASE # B(1) REPOSITIONING CRITERION (TIME)
005536,002090: E7,1430 RPCRTQSW ERASE # B(1) REPOSITIONING CRITERION (ANGLE)
005537,002091:
005538,002092: # ASTEER -PAD LOADED- (2D)
005539,002093:
005540,002094: E7,1431 TNEWA ERASE +1 # I(2)PL LAMBERT CYCLE PERIOD
005541,002095:
005542,002096: # P22 STORAGE - OVERLAYS LANDING PADLOADS - (5D)
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005544,002098: E7,1433 E7,1423 REPOSCNT EQUALS TENDBRAK # B(1)TMP COUNTS NUMBER OF PASSES THROUGH
005545,002099: # REPOSITION ROUTINE.
005546,002100: E7,1433 E7,1424 REPOSTM EQUALS REPOSCNT +1 # I(2)TMP PRESENT TIME PLUS INCREMENTS OF
005547,002101: # TEN SECONDS.
005548,002102: E7,1433 E7,1426 DELTATM EQUALS REPOSTM +2 # I(2)TMP TIME INTERVAL FOR RUNNING
005549,002103: # DESIGNATE TASK.
005550,002104:
005551,002105: # *** RETAIN THE ORDER OF DELVSLV, TIG, RTARG, DELLT4 FOR UPDATE. ***
005552,002106:
005553,002107: # P32-35 P72-75 STORAGE. (6D)
005554,002108:
005555,002109: E7,1433 DELVLVC ERASE +5 # I(6) DELTA VELOCITY - LOCAL VERTICAL COO
005556,002110: E7,1441 E7,1433 DELVSLV = DELVLVC # (TEMP STORAGE OF SAME VECTOR) -RDINATE
005557,002111:
005558,002112: # P30-P40 INTERFACE UNSHARED. (2D)
005559,002113:
005560,002114: E7,1441 TIG ERASE +1 # B(2)
005561,002115:
005562,002116: # INITVEL STORAGE. ALSO USED BY P34,35,74,75,10,11 OTHERS (8D)
005563,002117:
005564,002118: E7,1443 RTARG ERASE +5 # I(6) TARGET VECTOR
005565,002119: E7,1451 DELLT4 ERASE +1 # I(2) TIME DIFFERENCE
005566,002120:
005567,002121: # P30-P40 INTERFACE UNSHARED. (3D)
005568,002122:
005569,002123: E7,1453 TTOGO ERASE +1 # B(2)
005570,002124: E7,1455 E7,1453 TFI EQUALS TTOGO
005571,002125: E7,1455 WHICH ERASE # B(1)
005572,002126:
005573,002127: # *** R21 *** (1D)
005574,002128:
005575,002129: E7,1456 LOSCOUNT ERASE # B(1)
005576,002130:
005577,002131: # L SR22.3 (RENDEZVOUS NAVIGATION) STORAGE. (4D)
005578,002132:
005579,002133: # RETAIN THE ORDER OF AIG TO TRKMKCNT FOR DOWNLINK PURPOSES.
005580,002134:
005581,002135: E7,1457 AIG ERASE # B(1)OUT GIMGAL ANGLES
005582,002136: E7,1460 AMG ERASE # B(1)OUT (MUST BE
005583,002137: E7,1461 AOG ERASE # B(1)OUT CONSECUTIVE)
005584,002138:
005585,002139: E7,1462 TRKMKCNT ERASE # B(1)TMP TEMPORARY MARK STORAGE.
005586,002140: E7,1463 E7,1462 MARKCTR = TRKMKCNT
005587,002141:
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005589,002143: # P32-P35, P72-P75 STORAGE. -PERMANENT- (6)
005590,002144:
005591,002145: E7,1463 NORMEX ERASE # B(1)PRM SAVE FOR Q
005592,002146: E7,1464 QSAVED ERASE # B(1)PRM SAVE FOR Q
005593,002147: E7,1465 RTRN ERASE # B(1)PRM SAVE FOR Q
005594,002148: E7,1466 NN ERASE +1 # B(2)
005595,002149: E7,1470 SUBEXIT ERASE # B(1)PRM SAVE Q
005596,002150:
005597,002151: E7,1471 E7OVERLA EQUALS # START OF E7 OVERLAYS.
005598,002152: E7,1471 E7,1471 WHOCARES EQUALS E7OVERLA # DUMMY FOR EBANK INSENSITIVE 2CADRS
005599,002153:
005600,002154: # LUNAR LANDING OVERLAYS (6D)
005601,002155:
005602,002156: E7,1471 E7,1463 /AFC/ EQUALS NORMEX # B(2)TMP THROTTLE
005603,002157: E7,1471 E7,1465 FCODD EQUALS /AFC/ +2 # B(2)TMP THROTTLE
005604,002158: E7,1471 E7,1467 FP EQUALS FCODD +2 # B(2)TMP THROTTLE
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005606,002160: # ******* OVERLAY NUMBER 0 IN EBANK 7 *******
005607,002161:
005608,002162: # RENDEZVOUS GUIDANCE STORAGE -P32....P35- (89D)
005609,002163:
005610,002164: E7,1471 E7,1611 TSTRT EQUALS DELDV # MIDCOURSE START TIME
005611,002165: E7,1471 E7,1573 TDEC2 EQUALS DELVCSI # TEMP STORAGE FOR INTEGRATION TIME INPUT
005612,002166: E7,1471 E7,1575 KT EQUALS DELVTPI # TEMP STORAGE FOR MIDCOURSE DELTA TIME
005613,002167: E7,1471 VACT1 ERASE +5D # VELOCITY VECTOR OF ACTIVE AT CSI TIME
005614,002168: E7,1477 RPASS1 ERASE +5D # POSITION VECTOR OF PASSIVE AT CSI TIME
005615,002169: E7,1505 VPASS1 ERASE +5D # VELOCITY VECTOR OF PASSIVE AT CSI TIME
005616,002170: E7,1513 VACT2 ERASE +5D # VELOCITY VECTOR OF ACTIVE AT CDH TIME
005617,002171: E7,1521 RPASS2 ERASE +5D # POSITION VECTOR OF PASSIVE AT CDH TIME
005618,002172: E7,1527 VPASS2 ERASE +5D # VELOCITY VECTOR OF PASSIVE AT CDH TIME
005619,002173: E7,1535 RACT3 ERASE +5D # POSITION VECTOR OF ACTIVE AT TPI TIME
005620,002174: E7,1543 VACT3 ERASE +5D # VELOCITY VECTOR OF ACTIVE AT TPI TIME
005621,002175: E7,1551 RPASS3 ERASE +5D # POSITION VECTOR OF PASSIVE AT TPI TIME
005622,002176: E7,1557 VPASS3 ERASE +5D # VELOCITY VECTOR OF PASSIVE AT TPI TIME
005623,002177: E7,1565 VACT4 ERASE +5D # VELOCITY VECTOR OF ACTIVE AT INTERCEPT
005624,002178: E7,1573 E7,1543 UNVEC EQUALS VACT3 # CDHMVR UNIT VECTOR TEMP STORAGE.
005625,002179: E7,1573 DELVCSI ERASE +1D # THRUST VALUE AT CSI
005626,002180: E7,1575 DELVTPI ERASE +1D # THRUST VALUE AT TPI OR MID
005627,002181: E7,1577 E7,1575 DELVMID EQUALS DELVTPI
005628,002182: E7,1577 DIFFALT ERASE +1D # ALT DIFFERENCE AT CDH
005629,002183: E7,1601 POSTCSI ERASE +1 # PERIGEE ALTITUDE AFTER CSI MANEUVER
005630,002184: E7,1603 POSTCDH ERASE +1 # PERIGEE ALTITUDE AFTER CDH MANEUVER
005631,002185: E7,1605 POSTTPI ERASE +1 # PERIGEE ALTITUDE AFTER TPI MANEUVER
005632,002186: E7,1607 E7,1605 LOOPCT EQUALS POSTTPI # CSI NEWTON ITERATION COUNTER
005633,002187: E7,1607 E7,1603 HAFPA1 EQUALS POSTCDH # HALF PERIOD
005634,002188: E7,1607 GAMPREV ERASE +1 # PREVIOUS GAMMA
005635,002189: E7,1611 E7,1575 DVPREV EQUALS DELVTPI # PREVIOUS DELVCSI
005636,002190: E7,1611 DELDV ERASE +1D
005637,002191: E7,1613 CSIALRM ERASE +1 # FIRST SOLUTION ALARM
005638,002192: E7,1615 VERBNOUN ERASE
005639,002193: E7,1616 E7,1613 TITER EQUALS CSIALRM # ITERATION COUNTER
005640,002194: E7,1616 RDOTV ERASE +1
005641,002195: E7,1620 E7,1505 VAPREC EQUALS VPASS1 # I(6) S-S PREC VEC FOR NOM TPI TIME(ACT V
005642,002196: E7,1620 E7,1477 RAPREC EQUALS RPASS1 # I(6) S-S PREC VEC FOR NOM TPI TIME(ACT V
005643,002197: E7,1620 E7,1527 VPPREC EQUALS VPASS2 # I(6) S-S PREC VEC FOR NOM TPI TIME(PASS
005644,002198: E7,1620 E7,1521 RPPREC EQUALS RPASS2 # I(6) S-S PREC VEC FOR NOM TPI TIME(PASS
005645,002199: E7,1620 E7,1575 DELEL EQUALS DELVTPI # I(2) S-S
005646,002200: E7,1620 E7,1611 DELTEE EQUALS DELDV # I(2) S-S
005647,002201: E7,1620 E7,1573 SECMAX EQUALS DELVCSI # I(2) S-S MAX STOP SIZE FOR ROUTINE
005648,002202: E7,1620 E7,1605 DELTEEO EQUALS POSTTPI # I(2) S-S BACK VALUES OF DELTA TIME
005649,002203: E7,1620 CENTANG ERASE +1 # I(2) S-S CENTRAL ANGLE COVERED(TPI-TPF)
005650,002204:
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005652,002206: # SOME P47 STORAGE (6D)
005653,002207:
005654,002208: E7,1622 DELVIMU ERASE +5 # I(6)DSP NOUN 83 FOR P47 DELTA V (IMU)
005655,002209:
005656,002210: # P30-P40 COMMON STORAGE. (3D)
005657,002211:
005658,002212: E7,1630 TPASS4 ERASE +1 # INTERCEPT TIME
005659,002213: E7,1632 QTEMP ERASE # I(1)TMP COMMON RETURN SAVE REGISTER.
005660,002214:
005661,002215: # P32,33,34 STORAGE. (6D)
005662,002216:
005663,002217: E7,1633 TCSI ERASE +1 # B(2)TMP CSI TIME IN CENTISECONDS
005664,002218: E7,1635 TTPI ERASE +1 # B(2)TMP TPI TIME IN CENTISECONDS
005665,002219: E7,1637 TTPIO ERASE +1 # B(2)TMP TTPI STORAGE FOR RECYCLE
005666,002220:
005667,002221: # P30,P40 INTERFACE. (21D)
005668,002222:
005669,002223: E7,1641 RTIG ERASE +19D # I(6)TMP
005670,002224: E7,1665 E7,1647 VTIG EQUALS RTIG +6 # I(6)TMP
005671,002225: E7,1665 E7,1655 DELVSIN EQUALS VTIG +6 # I(6)TMP
005672,002226: E7,1665 E7,1663 DELVSAB EQUALS DELVSIN +6 # I(2)TMP
005673,002227: E7,1665 E7,1663 VGDISP = DELVSAB
005674,002228:
005675,002229: E7,1665 QTEMP1 ERASE # I(1)TMP HOLDS RETURN.
005676,002230: E7,1666 E7,1665 RGEXIT EQUALS QTEMP1 # SAVE Q
005677,002231: E7,1666 E7,1665 SAVQR52 EQUALS QTEMP1
005678,002232:
005679,002233: # INITVEL STORAGE. (IN OVERLAY 0 AND OVERLAY 1. (2D)
005680,002234: # (CALLS LAMBERT, CONIC SUBROUTINES)
005681,002235:
005682,002236: E7,1666 E7,1565 VTPRIME EQUALS VACT4 # TOTAL VELOCITY AT DESIRED RADIUS
005683,002237: E7,1666 E7,1616 ITCTR EQUALS RDOTV # ITERATION COUNTER
005684,002238: E7,1666 COZY4 ERASE +1 # COS OF ANGLE WHEN ROTATION STARTS
005685,002239: E7,1670 E7,1611 X1INPUT EQUALS DELDV # X1 TEMP STORAGE
005686,002240: E7,1670 E7,1607 INTIME EQUALS GAMPREV # TIME OF RINIT
005687,002241:
005688,002242: # PERIAPO STORAGE. (2D) (2D)
005689,002243:
005690,002244: E7,1670 XXXALT ERASE +1 # RADIUS TO LAUNCH PAD OR LANDING SIGHT
005691,002245:
005692,002246: E7,1672 E7,1672 END-IN/M EQUALS XXXALT +2 # NEXT AVAIL ERASABLE AFTER INITVEL/MIDGIM
005693,002247:
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005695,002249: # S40.1 STORAGE. (12D)
005696,002250:
005697,002251: E7,1672 UT ERASE +11D # I(6) THRUST DIRECTION
005698,002252: E7,1706 E7,1700 VGTIG EQUALS UT +6 # I(6)OUT
005699,002253: E7,1706 E7,1700 VGPREV = VGTIG
005700,002254:
005701,002255: # ASTEER STORAGE. (22D)
005702,002256:
005703,002257: E7,1706 VG ERASE +21D # I(6)
005704,002258: E7,1734 E7,1714 RMAG EQUALS VG +6 # I(2)
005705,002259: E7,1734 E7,1716 MUASTEER EQUALS RMAG +2 # I(2)
005706,002260: E7,1734 E7,1720 MU/A EQUALS MUASTEER +2 # I(2)
005707,002261: E7,1734 E7,1722 RTMAG EQUALS MU/A +2 # I(2)
005708,002262: E7,1734 E7,1724 R1C EQUALS RTMAG +2 # I(6)
005709,002263: E7,1734 E7,1732 SS EQUALS R1C +6 # I(2)
005710,002264:
005711,002265: E7,1734 E7,1655 IC = DELVSIN
005712,002266: E7,1734 E7,1762 TIGSAVE = P21TIME
005713,002267: E7,1734 E7,1764 TIGSAVEP = SCAXIS
005714,002268: E7,1734 E7,1766 MUSCALE = SCAXIS +2
005715,002269:
005716,002270: # P40 STORAGE. (6D)
005717,002271:
005718,002272: # F, MDOT, AND TDECAY MUST BE CONTIGUOUS FOR VLOAD.
005719,002273:
005720,002274: E7,1734 F ERASE +5 # I(2)TMP S40.1 GENERATES THIS FOR S40.3
005721,002275: E7,1742 E7,1736 MDOT EQUALS F +2 # I(2)TMP MASS CHNG RATE, KG/CS AT 2**3.
005722,002276: E7,1742 E7,1740 TDECAY EQUALS MDOT +2 # I(2)IN DELTA-T TAILOFF, (2**28)CS.
005723,002277: E7,1742 VEX ERASE +1 # I(2) EXHAUST VELOCITY FOR TGO COMPUTAT'N
005724,002278:
005725,002279: # MIDTOAV1(2) STORAGE. (CALLED BY P40,P41,P42) (1D)
005726,002280:
005727,002281: E7,1744 IRETURN1 ERASE # B(1) RETURN FROM MIDTOAV1 AND 2
005728,002282:
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005730,002284: # ******* OVERLAY NUMBER 1 IN EBANK 7 *******
005731,002285:
005732,002286: # INITVEL (CALLED BY P34,35,38,39,10,11,S40.9,S40.1) (6D)
005733,002287:
005734,002288: E7,1745 E7,1471 RTARG1 EQUALS VACT1 # I(6)S TEMP STORAGE OF RTARG
005735,002289:
005736,002290: # P35-P40 INTERFACE. (6D)
005737,002291:
005738,002292: E7,1745 E7,1505 VPASS4 EQUALS VPASS1 # I(6)TMP VELOCITY OF PASSIVE AT INTERCEPT
005739,002293:
005740,002294: # INITVEL OVERLAYS RENDESVOUS GUIDANCE (LISTED IN OVERLAY O)
005741,002295:
005742,002296: # SOME P38-39,P78-79 STORAGE. (2D)
005743,002297: E7,1745 E7,1630 TINT EQUALS TPASS4 # I(2) TIME OF INTERCEPT
005744,002298:
005745,002299:
005746,002300: # LAT-LONG TEMPORARIES. CAN OVERLAY WITH S40.1 (3D)
005747,002301:
005748,002302: E7,1745 E7,1672 ERADM EQUALS UT # I(2)
005749,002303: E7,1745 E7,1674 INCORPEX EQUALS ERADM +2 # I(1)
005750,002304:
005751,002305: # LRS24.1 STORAGE. (CAN SHARE WITH P30'S) (40D)
005752,002306:
005753,002307: E7,1745 E7,1675 RLMSRCH EQUALS INCORPEX +1 # I(6)TMP LM POSITION VECTOR
005754,002308: E7,1745 E7,1703 VXRCM EQUALS RLMSRCH +6 # I(6) CM V X R VECTOR
005755,002309: E7,1745 E7,1711 LOSDESRD EQUALS VXRCM +6 # I(6) DESIRED LOS VECTOR
005756,002310: E7,1745 E7,1717 UXVECT EQUALS LOSDESRD +6 # I(6) X-AXIS SRCH PATTERN COORDS
005757,002311: E7,1745 E7,1725 UYVECT EQUALS UXVECT +6 # I(6) Y-AXIS SRCH PATTERN COORDS
005758,002312: E7,1745 E7,1733 DATAGOOD EQUALS UYVECT +6 # B(1)DSP FOR R1 - ALL 1-S WHEN LOCKON
005759,002313: E7,1745 E7,1734 OMEGDISP EQUALS DATAGOOD +1 # B(2) ANGLE OMEGA DISPLAYED IN R2
005760,002314: E7,1745 E7,1734 OMEGAD = OMEGDISP # PINBALL DEFINITION.
005761,002315: E7,1745 E7,1736 NSRCHPNT EQUALS OMEGDISP +2 # B(1)TMP SEARCH PATTERN POINT COUNTER.
005762,002316: E7,1745 E7,1737 SAVLEMV EQUALS NSRCHPNT +1 # I(6)S-S SAVES LOSVEL
005763,002317:
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005765,002319: # ******* OVERLAY NUMBER 2 IN EBANK 7 *******
005766,002320:
005767,002321: # INCORP STORAGE IN E7. (47D)
005768,002322:
005769,002323: E7,1745 E7,1471 TX789 EQUALS E7OVERLA # I(6)
005770,002324: E7,1745 E7,1477 GAMMA EQUALS TX789 +6 # I(3)
005771,002325: E7,1745 E7,1502 OMEGA EQUALS GAMMA +3 # I(18)
005772,002326: E7,1745 E7,1524 BVECTOR EQUALS OMEGA +18D # I(18)
005773,002327: E7,1745 E7,1546 DELTAQ EQUALS BVECTOR +18D # I(2)
005774,002328:
005775,002329: # AOTMARK STORAGE (3D)
005776,002330:
005777,002331: E7,1745 E7,1550 MARKCNTR EQUALS DELTAQ +2 # I(1)
005778,002332: E7,1745 E7,1551 XYMARK EQUALS MARKCNTR +1 # B(1)
005779,002333: E7,1745 E7,1552 MKDEX EQUALS XYMARK +1 # B(1)TMP INDEX FOR AOTMARK
005780,002334:
005781,002335: # PLANET STORAGE. (8D)
005782,002336:
005783,002337: E7,1745 E7,1553 PLANVEC EQUALS MKDEX +1 # (6) REFER VECTOR OF PLANET
005784,002338: E7,1745 E7,1561 TSIGHT EQUALS PLANVEC +6 # (2) TIME OF MARK OR EST TIME OF MARK
005785,002339:
005786,002340: # LRS22.3 STORAGE. (CAN SHARE WITH P30'S AND OVERLAY LRS24.1 (30D).
005787,002341:
005788,002342: E7,1745 E7,1675 LGRET EQUALS RLMSRCH # I(1)TMP
005789,002343: E7,1745 E7,1675 RDRET EQUALS LGRET # B(1) TEMP RETURN.
005790,002344: E7,1745 E7,1675 IGRET EQUALS LGRET # B(1) TEMP RETURN.
005791,002345: E7,1745 E7,1676 MX EQUALS RDRET +1 # I(6)
005792,002346: E7,1745 E7,1704 MY EQUALS MX +6 # I(6)
005793,002347: E7,1745 E7,1712 MZ EQUALS MY +6 # I(6)
005794,002348: E7,1745 E7,1676 E0 EQUALS MX # I(2)
005795,002349: E7,1745 E7,1700 E1 EQUALS MX +2 # I(2)
005796,002350: E7,1745 E7,1702 E2 EQUALS MX +4 # I(2)
005797,002351: E7,1745 E7,1704 E3 EQUALS E2 +2 # I(2)
005798,002352: E7,1745 E7,1720 SCALSHFT EQUALS MZ +6 # B(1) SCALE SHIFT FOR EARTH/MOON
005799,002353: E7,1745 E7,1721 RXZ EQUALS SCALSHFT +1 # I(2)
005800,002354: E7,1745 E7,1723 ULC EQUALS RXZ +2 # I(6)
005801,002355: E7,1745 E7,1731 SINTHETA EQUALS ULC +6 # I(2)
005802,002356:
005803,002357: # ***** IN OVERLAY ONE *****
005804,002358:
005805,002359: E7,1745 E7,1746 N49FLAG EQUALS RDOTMSAV # B(1)S FLAG INDICATING V0649 RESPONSE
005806,002360:
005807,002361: # LRS22.1 STORAGE. (MUST NOT SHARE WITH P30'S) (13D)
005808,002362:
005809,002363: # (OUTPUTS ARE TO LRS22.3)
005810,002364:
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005812,002366: E7,1745 E7,1733 RRTRUN EQUALS SINTHETA +2 # B(2)OUT RR TRUNION ANGLE
005813,002367: E7,1745 E7,1735 RRSHAFT EQUALS RRTRUN +2 # B(2)OUT RR SHAFT ANGLE
005814,002368: E7,1745 E7,1737 LRS22.1X EQUALS RRSHAFT +2 # B(1)TMP
005815,002369: E7,1745 E7,1740 RRBORSIT EQUALS LRS22.1X +1 # I(6)TMP RADAR BORESIGHT VECTOR.
005816,002370: E7,1745 E7,1746 RDOTMSAV EQUALS RRBORSIT +6 # B(2)S RR RANGE-RATE (FPS)
005817,002371:
005818,002372: # LRS22.1 (SAME AS PREVIOUS SECTION) ALSO DOWNLINK FOR RR (R29) (10D) CANNOT SHARE WITH L.A.D.
005819,002373:
005820,002374: E7,1745 E7,1750 RDOTM EQUALS RDOTMSAV +2 # B(2)OUT RANGE-RATE READING
005821,002375: E7,1745 E7,1752 TANGNB EQUALS RDOTM +2 # B(2)TMP RR GIMBAL ANGLES
005822,002376: # RETAIN THE ORDER OF MKTIME TO RM FOR DOWNLINK PURPOSES
005823,002377: E7,1745 E7,1754 MKTIME EQUALS TANGNB +2 # B(2)OUT TIME OF RR READING
005824,002378: E7,1745 E7,1756 RM EQUALS MKTIME +2 # I(2)OUT RANGE READING
005825,002379: E7,1745 E7,1760 RANGRDOT EQUALS RM +2 # B(2) DOWNLINKED RAW RANGE AND RRATE
005826,002380:
005827,002381: # R61LEM - PREFERRED TRACKING ATTITUDE ROUTINE **IN OVERLAY ONE*
005828,002382: # (CALLED BY P20, R22LEM, LSR22.3) (1D)
005829,002383:
005830,002384: E7,1745 E7,1745 R65CNTR EQUALS RRBORSIT +5 # B(1)SS COUNT NUMBER OF TIMES PREFERRED
005831,002385: # TRACKING ROUTINE IS TO CYCLE
005832,002386: E7,1745 E7,1745 WHCHREAD EQUALS R65CNTR # TELLS WHICH RR DATA TRIGGERED N49 DISPLA
005833,002387:
005834,002388: # P21 STORAGE (2D)
005835,002389:
005836,002390: E7,1745 E7,1762 P21TIME EQUALS RANGRDOT +2 # I(2)TMP
005837,002391:
005838,002392: # KALCMANU, VECPOINT STORAGE. CALLED BY R63, R61, R65. (12D)
005839,002393:
005840,002394: E7,1745 E7,1764 SCAXIS EQUALS P21TIME +2 # I(6)
005841,002395: E7,1745 E7,1772 POINTVSM EQUALS SCAXIS +6 # I(6)
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005843,002397: # ******* OVERLAY NUMBER 3 IN EBANK 7 *******
005844,002398:
005845,002399:
005846,002400: # SERVICER STORAGE (6D)
005847,002401:
005848,002402: E7,1745 E7,1471 ABVEL EQUALS E7OVERLA # B(2) DISPLAY
005849,002403: E7,1745 E7,1473 HDOTDISP EQUALS ABVEL +2 # B(2) DISPLAY
005850,002404: E7,1745 E7,1475 TTFDISP EQUALS HDOTDISP +2 # B(2) DISPLAY
005851,002405:
005852,002406: # BURN PROG STORAGE. (2D)
005853,002407:
005854,002408: E7,1745 E7,1477 SAVET-30 EQUALS TTFDISP +2 # B(2)TMP TIG-30 RESTART
005855,002409:
005856,002410: # SERVICER STORAGE. (69D)
005857,002411:
005858,002412: E7,1745 E7,1501 VGBODY EQUALS SAVET-30 +2 # B(6)OUT SET.BY S41.1 VG LEM, SC.COORDS
005859,002413: E7,1745 E7,1501 DELVCTL = VGBODY
005860,002414: E7,1745 E7,1507 DVTOTAL EQUALS VGBODY +6 # B(2) DISPLAY NOUN
005861,002415: E7,1745 E7,1511 GOBLTIME EQUALS DVTOTAL +2 # B(2) NOMINAL TIG FOR CALC. OF GOBLATE.
005862,002416: E7,1745 E7,1513 ABDVCONV EQUALS GOBLTIME +2 # I(2)
005863,002417: E7,1745 E7,1515 DVCNTR EQUALS ABDVCONV +2 # B(1)
005864,002418: E7,1745 E7,1516 TGO EQUALS DVCNTR +1 # B(2)
005865,002419: E7,1745 E7,1520 R EQUALS TGO +2 # I(6)
005866,002420: E7,1745 E7,1520 UNITGOBL EQUALS R # I(6)
005867,002421: E7,1745 E7,1526 V EQUALS R +6
005868,002422: E7,1745 E7,1526 DELVREF EQUALS V # I(6)
005869,002423: E7,1745 E7,1534 HCALC EQUALS DELVREF +6 # B(2) LR
005870,002424: E7,1745 E7,1536 UNIT/R/ EQUALS HCALC +2 # I(6)
005871,002425:
005872,002426: # (THE FOLLOWING SERVICER ERASABLES CAN BE SHARED WITH SECOND DPS GUIDANCE STORAGE)
005873,002427:
005874,002428: E7,1745 E7,1544 RN1 EQUALS UNIT/R/ +6 # B(6)
005875,002429: E7,1745 E7,1552 VN1 EQUALS RN1 +6 # I(6) ( IN ORDER )
005876,002430: E7,1745 E7,1560 PIPTIME1 EQUALS VN1 +6 # B(2) ( FOR )
005877,002431: E7,1745 E7,1562 GDT1/2 EQUALS PIPTIME1 +2 # I(6) ( COPY )
005878,002432: E7,1745 E7,1570 MASS1 EQUALS GDT1/2 +6 # I(2) ( CYCLE )
005879,002433: E7,1745 E7,1572 R1S EQUALS MASS1 +2 # I(6)
005880,002434: E7,1745 E7,1600 V1S EQUALS R1S +6 # I(6)
005881,002435:
005882,002436: # ALIGNMENT/S40.2.3 COMMON STORAGE. (18D)
005883,002437:
005884,002438: E7,1745 E7,1606 XSMD EQUALS V1S +6 # I(6)
005885,002439: E7,1745 E7,1614 YSMD EQUALS XSMD +6 # I(6)
005886,002440: E7,1745 E7,1622 ZSMD EQUALS YSMD +6 # I(6)
005887,002441:
005888,002442: E7,1745 E7,1606 XSCREF = XSMD
005889,002443: E7,1745 E7,1614 YSCREF = YSMD
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005891,002445: E7,1745 E7,1622 ZSCREF = ZSMD
005892,002446:
005893,002447: E7,1745 E7,1630 END-ALIG EQUALS ZSMD +6 # NEXT AVAIL ERASABLE AFTER ALIGN/S40.2,3
005894,002448:
005895,002449: # ****** P22 ****** (24D)
005896,002450:
005897,002451: E7,1745 E7,1630 RSUBL EQUALS END-ALIG # I(6)S-S LM POSITION VECTOR
005898,002452: E7,1745 E7,1636 UCSM EQUALS RSUBL +6 # I(6)S-S VECTOR U
005899,002453: E7,1745 E7,1644 NEWVEL EQUALS UCSM +6 # I(6)S-S TERMINAL VELOCITY VECTOR
005900,002454: E7,1745 E7,1652 NEWPOS EQUALS NEWVEL +6 # I(6)S-S TERMINAL POSITION VECTOR
005901,002455: E7,1745 E7,1660 LNCHTM EQUALS NEWPOS +6 # I(2)S-S EST. LAUNCH TIME FOR LEM
005902,002456: E7,1745 E7,1662 TRANSTM EQUALS LNCHTM +2 # I(2)S-S TRANSFER TIME
005903,002457: E7,1745 E7,1664 NCSMVEL EQUALS TRANSTM +2 # I(6)S-S NEW CSM VELOCITY
005904,002458:
005905,002459: # ***** P21 ***** (18D)
005906,002460:
005907,002461: E7,1745 1163 P21ORIG = DISPDEX
005908,002462: E7,1745 E7,1675 P21BASER EQUALS RLMSRCH # I(6)TMP
005909,002463: E7,1745 E7,1703 P21BASEV EQUALS P21BASER +6 # I(6)TMP
005910,002464: E7,1745 E7,1711 P21VEL EQUALS P21BASEV +6 # I(2)TMP *** NOUN 91 ***
005911,002465: E7,1745 E7,1713 P21GAM EQUALS P21VEL +2 # I(2)TMP *** NOUN 91 ***
005912,002466: E7,1745 E7,1715 P21ALT EQUALS P21GAM +2 # I(2)TMP *** NOUN 91 ***
005913,002467:
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005915,002469: # ******* OVERLAY NUMBER 4 IN EBANK 7 *******
005916,002470:
005917,002471: # VARIABLES FOR SECOND DPS GUIDANCE (THE LUNAR LANDING) (80D)
005918,002472:
005919,002473: # THESE ERASABLES MAY BE SHARED WITH CARE
005920,002474:
005921,002475: E7,1745 E7,1544 OURTEMPS = RN1 # OVERLAY LAST PART OF SERVICER
005922,002476: E7,1745 E7,1544 LANDTEMP = OURTEMPS # B(6) GUIDANCE
005923,002477: E7,1745 E7,1552 TTF/8TMP = LANDTEMP +6 # B(2) GUIDANCE
005924,002478: E7,1745 E7,1554 ELINCR = TTF/8TMP +2 # B(2) GUIDANCE
005925,002479: E7,1745 E7,1556 AZINCR = ELINCR +2 # B(2) GUIDANCE
005926,002480: E7,1745 E7,1560 KEEP-2 = AZINCR +2 # B(2) TO PREVENT PIPTIME1 OVERLAY
005927,002481: E7,1745 E7,1562 TABLTTF = KEEP-2 +2 # B(2) GUIDANCE
005928,002482: E7,1745 E7,1573 TPIPOLD = TABLTTF +9D # B(2) GUIDANCE
005929,002483: E7,1745 E7,1621 E2DPS EQUALS OURPERMS
005930,002484:
005931,002485: # THESE ERASABLES MUST NOT OVERLAY GOBLTIME OR SERVICER
005932,002486:
005933,002487: E7,1745 E7,1606 PIFPSET = XSMD # B(1) THROTTLE
005934,002488: E7,1745 E7,1607 RTNHOLD = PIFPSET +1 # B(1) THROTTLE
005935,002489: E7,1745 E7,1610 FWEIGHT = RTNHOLD +1 # B(2) THROTTLE
005936,002490: E7,1745 E7,1612 PIF = FWEIGHT +2 # B(2) THROTTLE
005937,002491: E7,1745 E7,1614 PSEUDO55 = PIF +2 # B(1) THROTTLE DOWNLINK
005938,002492: E7,1745 E7,1615 FC = PSEUDO55 +1 # B(2) THROTTLE
005939,002493: E7,1745 E7,1617 TTHROT = FC +2 # B(1) THROTTLE
005940,002494: E7,1745 E7,1620 FCOLD = TTHROT +1 # B(1) THROTTLE
005941,002495:
005942,002496: # THESE ERASABLES SHOULD NOT BE SHARED DURING P63, P64, P65, P66, P67
005943,002497:
005944,002498: E7,1745 E7,1621 OURPERMS = FCOLD +1 # MUSTN'T OVERLAY OURTEMPS OR SERVICER
005945,002499: E7,1745 E7,1621 WCHPHOLD = OURPERMS # B(1) GUIDANCE
005946,002500: E7,1745 E7,1622 FILLER = WCHPHOLD +1
005947,002501: E7,1745 E7,1623 FLPASS0 = FILLER +1 # B(1) GUIDANCE
005948,002502: E7,1745 E7,1624 TPIP = FLPASS0 +1 # B(2)
005949,002503: E7,1745 E7,1626 VGU = TPIP +2 # B(6) GUIDANCE
005950,002504: E7,1745 E7,1634 LAND = VGU +6 # B(6) GUIDANCE CONTIGUOUS
005951,002505: E7,1745 E7,1642 TTF/8 = LAND +6 # B(2) GUIDANCE CONTIGUOUS
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The following four erasables were relocated in Luminary 99 to fix Anomaly 70,
as described in Luminary memo #85. Dummy tags were inserted in their place
to prevent offsets of other erasables from changing, and existing references
to these locations were changed to use the dummy tags.
|
005956,002510: E7,1745 E7,1644 ELINCR1 = TTF/8 +2 # (1) GUIDANCE
005957,002511: E7,1745 E7,1645 AZINCR1 = ELINCR1 +1 # (1) GUIDANCE
005958,002512: E7,1745 E7,1646 ZERLINA = AZINCR1 +1 # (1) GUIDANCE
005959,002513: E7,1745 E7,1647 ELVIRA = ZERLINA +1 # (1) GUIDANCE
005960,002514: E7,1745 E7,1650 LRADRET = ELVIRA +1 # B(1) LR
005961,002515: E7,1745 E7,1651 VSELECT = LRADRET +1 # B(1) LR
005962,002516: E7,1745 E7,1652 VMEAS = VSELECT +1 # B(2) LR
005963,002517: E7,1745 E7,1654 HMEAS = VMEAS +2 # B(2) LR
005964,002518: E7,1745 E7,1656 VN2 = HMEAS +2 # B(6) LR
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005966,002520: E7,1745 E7,1656 GNUR = VN2 # B(6) LR
005967,002521: E7,1745 E7,1656 GNUV = VN2 # B(6) LR
005968,002522: E7,1745 E7,1656 LRADRET1 = VN2 # B(1) LR
005969,002523: E7,1745 E7,1664 DELTAH = VN2 +6 # B(2) DISPLAY
005970,002524: E7,1745 E7,1666 FUNNYDSP = DELTAH +2 # B(2) DISPLAY
005971,002525: E7,1745 E7,1670 EOURPERM EQUALS FUNNYDSP +2 # NEXT AVAILABLE ERASABLE AFTER OURPERMS
005972,002526:
005973,002527: # (ERASABLES WHICH OVERLAY THE ABOVE BLOCK)
005974,002528:
005975,002529: E7,1745 E7,1644 VDGVERT = ELINCR1 # B(2) P65,P66
005976,002530: E7,1745 E7,1646 NIGNLOOP = ZERLINA # B(1) IGNALG
005977,002531: E7,1745 E7,1647 NGUIDSUB = ELVIRA # B(1) IGNALG
005978,002532: E7,1745 E7,1647 WCHVERT = ELVIRA # B(1) P65,P66,P67
005979,002533: E7,1745 E7,1666 FUELNEED = FUNNYDSP # B(1) DISPLAY
005980,002534: E7,1745 E7,1666 TREDES = FUNNYDSP # B(1) DISPLAY
005981,002535: E7,1745 E7,1667 LOOKANGL = FUNNYDSP +1 # B(1) DISPLAY
005982,002536:
005983,002537: # ERASABLES CONVENIENTLY DEFINABLE IN THE WORK AREA
005984,002538:
005985,002539: E7,1745 PROJ = 18D # I(2) GUIDANCE
005986,002540: E7,1745 UNLRB/2 = 20D # I(6) GUIDANCE (DURING P64 ONLY)
005987,002541: E7,1745 UNLR/2 = 20D # I(6) GUIDANCE
005988,002542:
005989,002543: # THE END OF THE LUNAR LANDING ERASABLES
005990,002544:
005991,002545: # R12 (FOR LUNAR LANDING) (6D)
005992,002546:
005993,002547: E7,1745 E7,1670 LRLCTR EQUALS EOURPERM # B(1) LR DATA TEST
005994,002548: E7,1745 E7,1671 LRRCTR EQUALS LRLCTR +1 # B(1)
005995,002549: E7,1745 E7,1672 LRMCTR EQUALS LRRCTR +1 # B(1)
005996,002550: E7,1745 E7,1673 LRSCTR EQUALS LRMCTR +1 # B(1)
005997,002551: E7,1745 E7,1674 STILBADH EQUALS LRSCTR +1 # B(1)
005998,002552: E7,1745 E7,1675 STILBADV EQUALS STILBADH +1 # B(1)
005999,002553:
006000,002554: # LANDING ANALOGS DISPLAY STORAGE. (40D)
006001,002555:
006002,002556: E7,1745 E7,1676 LATVMETR EQUALS STILBADV +1 # B(1)PRM LATVEL MONITOR METER (AN ORDER)
006003,002557: E7,1745 E7,1677 FORVMETR EQUALS LATVMETR +1 # B(1)PRM FORVEL MONITOR METER (-ED PAIR)
006004,002558: E7,1745 E7,1700 LATVEL EQUALS FORVMETR +1 # B(1)PRM LATERAL VELOCITY (AN ORDER)
006005,002559: E7,1745 E7,1701 FORVEL EQUALS LATVEL +1 # B(1)PRM FORWARD VELOCITY (-ED PAIR)
006006,002560: E7,1745 E7,1702 TRAKLATV EQUALS FORVEL +1 # B(1)PRM MONITOR FLG 4 LATVEL (AN ORDER)
006007,002561: E7,1745 E7,1703 TRAKFWDV EQUALS TRAKLATV +1 # B(1)PRM MONIT. FLAG FOR FORVEL (ED PAIR)
006008,002562: E7,1745 E7,1704 VHY EQUALS TRAKFWDV +1 # B(1)PRM VHY=VMP.UHYP (AN ORDER)
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006010,002564: E7,1745 E7,1705 VHZ EQUALS VHY +1 # B(1)PRM VHZ=VMP.UHZP (-ED PAIR)
006011,002565: E7,1745 E7,1706 VVECT EQUALS VHZ +1 # B(3)PRM UPDATED S.P. VELOCITY VECTOR
006012,002566: E7,1745 E7,1711 ALTRATE EQUALS VVECT +3 # B(1)PRM ALTITUDE RATE IN BIT UNITS
006013,002567: E7,1745 E7,1712 ALTSAVE EQUALS ALTRATE +1 # B(2)PRM ALTITUDE IN BIT UNITS
006014,002568: E7,1745 E7,1714 LADQSAVE EQUALS ALTSAVE +2 # B(1)PRM SAVE Q IN LANDISP
006015,002569: E7,1745 E7,1715 DT EQUALS LADQSAVE +1 # B(1)PRM TIME 1 MINUS (PIPTIME +1)
006016,002570: E7,1745 E7,1716 DALTRATE EQUALS DT +1 # B(1)PRM ALTITUDE RATE ERROR CORRECTION
006017,002571: E7,1745 E7,1717 UHYP EQUALS DALTRATE +1 # B(6)PRM SM UNIT VECTOR
006018,002572: E7,1745 E7,1717 QAXIS = UHYP
006019,002573: E7,1745 E7,1725 UHZP EQUALS UHYP +6 # B(6)PRM SM UNIT VECTOR
006020,002574: E7,1745 E7,1733 DELVS EQUALS UHZP +6 # B(6)PRM DELVS = WMXR
006021,002575: E7,1745 E7,1741 ALTBITS EQUALS DELVS +6 # B(2)PRM ALTITUDE IN BIT UNITS, 2.34 FT/BT
006022,002576: E7,1745 E7,1743 RUNIT EQUALS ALTBITS +2 # B(3)PRM SM HALF-UNIT R VECTOR
006023,002577: E7,1745 E7,1745 LASTLADW EQUALS RUNIT +2 # ONLY A TAG TO SIGNIFY LAST L.A.D. WORD
006024,002578:
006025,002579: # P66 ERASABLES (R.O.D.) (1D)
006026,002580:
006027,002581: E7,1745 E7,1746 RODCOUNT EQUALS RUNIT +3
006028,002582:
006029,002583: # P66 ERASABLES (R.O.D.) (14D)
006030,002584:
006031,002585: E7,1745 E7,1756 RODSCAL1 EQUALS RM # B(1)
006032,002586: E7,1745 E7,1757 LASTTPIP EQUALS RODSCAL1 +1 # I(2)
006033,002587: E7,1745 E7,1761 THISTPIP EQUALS LASTTPIP +2 # B(2)
006034,002588: E7,1745 E7,1763 OLDPIPAX EQUALS THISTPIP +2 # B(1)
006035,002589: E7,1745 E7,1764 OLDPIPAY EQUALS OLDPIPAX +1 # B(1)
006036,002590: E7,1745 E7,1765 OLDPIPAZ EQUALS OLDPIPAY +1 # B(1)
006037,002591: E7,1745 E7,1766 DELVROD EQUALS OLDPIPAZ +1 # B(6)
006038,002592:
006039,002593: # NOUN 63 COMPONENT (2D)
006040,002594:
006041,002595: E7,1745 E7,1774 HCALC1 EQUALS DELVROD +6 # I(2)
006042,002596:
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006044,002598: # ******* OVERLAY NUMBER 5 IN EBANK 7 *******
006045,002599:
006046,002600: # ASCENT GUIDANCE ERASABLES. (21D)
006047,002601:
006048,002602: E7,1745 E7,1630 RCO EQUALS END-ALIG # I(2)TMP TARGET RADIUS AND OUT-OF-PLANE
006049,002603: E7,1745 E7,1632 YCO EQUALS RCO +2 # I(2)TMP DISTANCE, SCALED AT 2(24).
006050,002604: E7,1745 E7,1634 1/DV1 EQUALS YCO +2 # B(2)TMP ATMAG
006051,002605: E7,1745 E7,1636 1/DV2 EQUALS 1/DV1 +2 # B(2)TMP ATMAG
006052,002606: E7,1745 E7,1640 1/DV3 EQUALS 1/DV2 +2 # B(2)TMP ATMAG
006053,002607: E7,1745 E7,1642 XRANGE EQUALS 1/DV3 +2 # B(2)TMP
006054,002608: E7,1745 E7,1644 ENGOFFDT EQUALS XRANGE +2 # B(1)TMP
006055,002609: E7,1745 E7,1645 VGVECT EQUALS ENGOFFDT +1 # I(6)OUT VELOCITY-TO-BE-GAINED
006056,002610: E7,1745 E7,1653 TXO EQUALS VGVECT +6 # I(2)TMP TIME AT WHICH X-AXIS OVERRIDE
006057,002611: # IS ALLOWED.
006058,002612:
006059,002613: # END OF THE ASCENT GUIDANCE ERASABLES.
006060,002614:
006061,002615: # THE FOLLOWING CARDS KEEP THE ASSEMBLER HAPPY UNTIL THE SYMBOLS ARE DELETED FROM THE PINBALL NOUN TABLES.
006062,002616:
006063,002617: E7,1745 E7,1745 END-E7.0 EQUALS IRETURN1 +1 # FIRST UNUSED LOCATION IN E7 OVERLAY 0
006064,002618: E7,1745 E7,1747 END-E7.1 EQUALS N49FLAG +1 # FIRST UNUSED LOCATION IN E7 OVERLAY 1
006065,002619: E7,1745 4000 END-E7.2 EQUALS POINTVSM +6 # FIRST UNUSED LOCATION IN E7 OVERLAY 2
006066,002620: E7,1745 E7,1630 END-E7.3 EQUALS END-ALIG # FIRST UNUSED LOCATION IN E7 OVERLAY 3
006067,002621: E7,1745 END-E7.4 EQUALS 3777 # ** LAST LOCATION USED IN E7 OVERLAY 4 **
006068,002622: E7,1745 E7,1655 END-E7.5 EQUALS TXO +2 # FIRST UNUSED LOCATION IN E7 OVERLAY 5
006069,002623: E7,1745 END-E7 EQUALS 3777 # ** LAST LOCATION USED IN E7 **
End of include-file ERASABLE_ASSIGNMENTS.agc. Parent file is MAIN.agc