* Proof FIXED_FIXED_CONSTANT_POOL (#207) * Proof TVCMASSPROP (#269) * Revert the leading and trailing line breaks of the page comment "# Page ppp" as they were (#269) * Fix typo: AMMNDMENT -> AMENDMENT [p952]
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@ -31,95 +31,100 @@
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# PROGRAM NAME....MASSPROP
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# LOG SECTION....TVCMASSPROP PROGRAMMER...MELANSON (ENGEL, SCHLUNDT)
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#
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#
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# FUNCTIONAL DESCRIPTION:
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#
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# MASSPROP OPERATES IN TWO MODES: (1) IF LEM MASS OR CONFIGURATION ARE UPDATED (MASSPROP DOES NOT TEST
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# FOR THIS) THE ENTIRE PROGRAM MUST BE RUN THROUGH, BREAKPOINT VALUES AND DERIVATIVES OF THE OUTPUTS WITH
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# RESPECT TO CSM MASS BEING CALCULATED PRIOR TO CALCULATION OF THE OUTPUTS. (2) OTHERWISE, THE OUTPUTS CAN BE
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# CALCULATED USING PREVIOUSLY COMPUTED BREAKPOINT VALUES AND DERIVATIVES.
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# MASSPROP OPERATES IN TWO MODES:(1)IF LEM MASS OR CONFIGURATION ARE UPDATED (MASSPROP DOES NOT TEST
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# FOR THIS) THE ENTIRE PROGRAM MUST BE RUN THROUGH, BREAKPOINT VALUES AND DERIVATIVES OF THE OUTPUTS WITH
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# RESPECT TO CSM MASS BEING CALCULATED PRIOR TO CALCULATION OF THE OUTPUTS. (2)OTHERWISE, THE OUTPUTS CAN BE
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# CALCULATED USING PREVIOUSLY COMPUTED BREAKPOINT VALUES AND DERIVATIVES.
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#
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# CALLING SEQUENCES
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#
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# IF LEM MASS OR CONFIGURATION HAS BEEN UPDATED, TRANSFER TO MASSPROP, OTHERWISE TRANSFER TO FIXCW.
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# L TC BANKCALL or IBNKCALL
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# L TC BANKCALL OR IBNKCALL
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# L+1 CADR MASSPROP
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# OR
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# L+1 CADR FIXCW
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#
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# L+2 RETURNS VIA Q
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#
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# CALLED: IN PARTICULAR BY DONOUN47 (JOB) AND TVCEXECUTIVE (TASK)
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# CALLED IN PARTICULAR BY DONOUN47 (JOB) AND TVCEXECUTIVE (TASK)
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#
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# JOBS OR TASKS INITIATED: NONE
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# JOBS OR TASKS INITIATED - NONE
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#
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# SUBROUTINES CALLED: NONE
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# SUBROUTINES CALLED - NONE
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#
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# ERASABLE INITIALIZATION REQUIRED
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#
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# LEMMASS MUST CONTAIN LEM MASS SCALED AT B+16 KILOGRAMS
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# CSMMASS MUST CONTAIN CSM MASS SCALED AT B+16 KILOGRAMS
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#
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# DAPDATR1 MUST BE SET TO INDICATE VEHICLE CONFIGURATION.
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# BITS (15,14,13) = ( 0 , 0 , 1 ) LEM OFF
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# ( 0 , 1 , 0 ) LEM ON (ASCNT,DSCNT)
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# ( 1 , 1 , 0 ) LEM ON (ASCNT ONLY)
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#
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# ALARMS: NONE
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#
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# EXIT: TC Q
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# ALARMS - NONE
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#
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# EXIT - TC Q
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#
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# OUTPUTS:
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#
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# (1) IXX, SINGLE PRECISION SCALED AT B+20 IN KG-M SQ.
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# (2) IAVG, SINGLE PRECISION SCALED AT B+20 IN KG-M SQ.
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# (3) IAVG/TLX, SINGLE PRECISION, SCALED AT B+2 SEC-SQD
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#
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# (1)IXX, SINGLE PRECISION SCALED AT B+20 IN KG-M SQ.
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# (2)IAVG, SINGLE PRECISION SCALED AT B+20 IN KG-M SQ.
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# (3)IAVG/TLX, SINGLE PRECISION, SCALED AT B+2 SEC-SQD
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# THEY ARE STORED IN CONSECUTIVE REGISTERS IXX0, IXX1, IXX2
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# CONVERSION FACTOR: (SLUG-FTSQ) = 0.737562 (KG-MSQ)
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#
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# CONVERSION FACTOR : (SLUG-FTSQ) = 0.737562 (KG-MSQ)
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# Page 952
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#
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# OUTPUTS ARE CALCULATED AS FOLLOWS:
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#
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# (1) IF LEM DOCKED, LEMMASS IS FIRST ELIMINATED AS A PARAMETER
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# (1) IF LEM DOCKED, LEMMASS IS FIRST ELIMINATED AS A PARAMETER
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#
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# VARST0 = INTVALUE0 + LEMMASS(SLOPEVAL0) IXX BREAKPOINT VALUE
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# VARST1 = INTVALUE1 + LEMMASS(SLOPEVAL1) IAVG BREAKPOINT VALUE
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# VARST2 = INTVALUE2 + LEMMASS(SLOPEVAL2) IAVG/TLX BREAKPOINT VALUE
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# VARST0 = INTVALUE0 + LEMMASS(SLOPEVAL0) IXX BREAKPOINT VALUE
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# VARST1 = INTVALUE1 + LEMMASS(SLOPEVAL1) IAVG BREAKPOINT VALUE
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# VARST2 = INTVALUE2 + LEMMASS(SLOPEVAL2) IAVG/TLX BREAKPOINT VALUE
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#
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# VARST3 = INTVALUE3 + LEMMASS(SLOPEVAL3) IAVG/TLX SLOPE FOR CSMMASS > 33956 LBS (SPS > 10000 LBS)
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# VARST4 = INTVALUE4 + LEMMASS(SLOPEVAL4) IAVG SLOPE FOR CSMMASS > 33956 LBS (SPS > 10000 LBS)
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# VARST3 = INTVALUE3 + LEMMASS(SLOPEVAL3) IAVG/TLX SLOPE FOR CSMMASS > 33956 LBS ( SPS > 10000 LBS)
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# VARST4 = INTVALUE4 + LEMMASS(SLOPEVAL4) IAVG SLOPE FOR CSMMASS > 33956 LBS ( SPS > 10000 LBS)
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#
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# VARST5 = INTVALUE5 + LEMMASS(SLOPEVAL5) IXX SLOPE FOR ALL VALUES OF CSMMASS
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# VARST5 = INTVALUE5 + LEMMASS(SLOPEVAL5) IXX SLOPE FOR ALL VALUES OF CSMMASS
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#
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# VARST6 = INTVALUE6 + LEMMASS(SLOPEVAL6) IAVG SLOPE FOR CSMMASS < 33956 LBS (SPS < 10000 LBS)
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# VARST7 = INTVALUE7 + LEMMASS(SLOPEVAL7) IAVG/TLX SLOPE FOR CSMMASS < 33956 LBS (SPS < 10000 LBS)
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# VARST6 = INTVALUE6 + LEMMASS(SLOPEVAL6) IAVG SLOPE FOR CSMMASS < 33956 LBS ( SPS < 10000 LBS)
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# VARST7 = INTVALUE7 + LEMMASS(SLOPEVAL7) IAVG/TLX SLOPE FOR CSMMASS < 33956 LBS ( SPS < 10000 LBS)
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#
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# VARST8 = INTVALUE8 + LEMMASS(SLOPEVAL8) IAVG DECREMENT TO BRKPT VALUE WHEN LEM DSCNT STAGE OFF
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# VARST9 = INTVALUE9 + LEMMASS(SLOPEVAL9) IAVG/TLX DECREMENT TO BRKPT VALUE WHEN LEM DSCNT STAGE OFF
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# VARST8 = INTVALUE8 + LEMMASS(SLOPEVAL8) IAVG DECREMENT TO BRKPT VALUE WHEN LEM DSCNT STAGE OFF
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# VARST9 = INTVALUE9 + LEMMASS(SLOPEVAL9) IAVG/TLX DECREMENT TO BRKPT VALUE WHEN LEM DSCNT STAGE OFF
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#
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# (2) IF LEM NOT DOCKED
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# (2) IF LEM NOT DOCKED
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#
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# VARST0 = NOLEMVAL0 WHERE THE MEANING AND SCALING OF VARST0
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# . TO VARST9 ARE THE SAME AS GIVEN ABOVE
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# .
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# . NOTE... FOR THIS CASE, VARST8,9 HAVE NO
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# VARST9 = NOLEMVAL9 MEANING (THEY ARE COMPUTED BUT NOT USED)
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# VARST0 = NOLEMVAL0 WHERE THE MEANING AND SCALING OF VARST0
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# . . TO VARST9 ARE THE SAME AS GIVEN ABOVE
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# . .
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# . . NOTE... FOR THIS CASE, VARST8,9 HAVE NO
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# VARST9 = NOLEMVAL9 MEANING (THEY ARE COMPUTED BUT NOT USED)
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#
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# (3) THE FINAL OUTPUT CALCULATIONS ARE THEN DONE
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# (3) THE FINAL OUTPUT CALCULATIONS ARE THEN DONE
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#
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# IXX0 = VARST0 + (CSMMASS + NEGBPW)VARST5 IXX
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# IXX0 = VARST0 + (CSMMASS + NEGBPW)VARST5 IXX
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#
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# IXX1 = VARST1 + (CSMMASS + NEGBPW)VARST(4 OR 6) IAVG
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# IXX1 = VARST1 + (CSMMASS + NEGBPW)VARST(4 OR 6) IAVG
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#
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# IXX2 = VARST2 + (CSMMASS + NEGBPW)VARST(3 OR 7) IAVG/TLX
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# IXX2 = VARST2 + (CSMMASS + NEGBPW)VARST(3 OR 7) IAVG/TLX
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#
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# THE DATA USED CAME FROM THE CSM/LM SPACECRAFT OPERATIONAL DATA BOOK
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# VOL. 3, NASA DOCUMENT SNA-8-D-027 (MARCH 1968)
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#
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# PERTINENT MASS DATA: CSM WEIGHT (FULL) 64100 LBS.
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# (EMPTY) 23956 LBS.
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# LEM WEIGHT (FULL) 32000 LBS.
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# (EMPTY) 14116 LBS.
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# THE DATA USED CAME FROM CSM/LM SPACECRAFT OPERATIONAL DATA BOOK.
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# VOL. 3, NASA DOCUMENT SNA-8-D-027 (MARCH 1968)
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#
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# (WEIGHTS ARE FROM AMMENDMENT #1 (APRIL 24, 1968) TO ABOVE DATA BOOK)
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# PERTINENT MASS DATA : CSM WEIGHT (FULL) 64100 LBS.
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# (EMPTY) 23956 LBS.
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# LEM WEIGHT (FULL) 32000 LBS.
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# (EMPTY) 14116 LBS.
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#
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# (WEIGHTS ARE FROM AMENDMENT #1 (APRIL 24,1968) TO ABOVE DATA BOOK)
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# Page 953
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BANK 25
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@ -128,6 +133,7 @@
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EBANK= BZERO
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COUNT* $$/MASP
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MASSPROP CAF NINE # MASSPROP USES TVC/RCS INTERRUPT TEMPS
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TS PHI333 # SET UP TEN PASSES
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@ -152,7 +158,7 @@ LEMYES CAE LEMMASS # LEM IS ATTACHED
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STOINST INDEX PHI333 # STORAGE INST BEGIN HERE
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TS VARST0
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CCS PHI333 # ARE ALL TEN PASSES COMPLETED
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TCF MASSPROP +1 # NO: GO DECREMENT PHI333
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TCF MASSPROP +1 # NO - GO DECREMENT PHI333
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DXTEST CCS DAPDATR1 # IF NEG, BIT15 IS 1, LEM DSCNT STAGE OFF
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TCF FIXCW
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@ -162,11 +168,11 @@ DXTEST CCS DAPDATR1 # IF NEG, BIT15 IS 1, LEM DSCNT STAGE OFF
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CA DXITFIX
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ADS VARST0 +7
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FIXCW CAF BIT2 # COMPUTATION PHASE BEGINS HERE. SET UP
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FIXCW CAF BIT2 # COMPUTATION PHASE BEGINS HERE. SET UP
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TS PHI333 # THREE PASSES
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TS PSI333
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CAE CSMMASS # GET DELTA CSM WEIGHT: SIGN DETERMINES
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CAE CSMMASS # GET DELTA CSM WEIGHT - SIGN DETERMINES
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AD NEGBPW # SLOPE LOCATIONS.
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DOUBLE
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TS TEMP333
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@ -176,7 +182,7 @@ FIXCW CAF BIT2 # COMPUTATION PHASE BEGINS HERE. SET UP
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CAF NEG2
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TS PHI333
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PEGGY INDEX PHI333 # ALL IS READY: CALCULATE OUTPUTS NOW
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PEGGY INDEX PHI333 # ALL IS READY - CALCULATE OUTPUTS NOW
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CAE VARST5 # GET SLOPE
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EXTEND
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MP TEMP333 # MULT BY DELTA CSM WEIGHT
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@ -184,10 +190,11 @@ PEGGY INDEX PHI333 # ALL IS READY: CALCULATE OUTPUTS NOW
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INDEX PSI333
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AD VARST0 # ADD BREAKPOINT VALUE
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INDEX PSI333
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TS IXX # ***** OUTPUTS (IXX0, IXX1, IXX2) *****
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TS IXX # ****** OUTPUTS (IXX0, IXX1, IXX2) ******
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CCS PSI333 # BOOKKEEPING: MASSPROP FINISHED OR NOT
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TCF BOKKEP2 # NO: GO TAKE CARE OF INDEXING REGISTERS
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CCS PSI333 # BOOKKEEPING - MASSPROP FINISHED OR NOT
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TCF BOKKEP2 # NO - GO TAKE CARE OF INDEXING REGISTERS
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CAE DAPDATR1 # UPDATE WEIGHT/G
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MASK BIT14
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@ -236,4 +243,3 @@ SLOPEVAL DEC 1.96307 B-6
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NEGBPW DEC -15402.17 B-16
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DXITFIX DEC* -1.88275 E-5 B+12*
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