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Proof LANDING_ANALOG_DISPLAYS #602 (#742)

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Co-authored-by: nabeel.hassan <nabeel.hassan@colwiz.com>
Co-authored-by: James Harris <wopian@wopian.me>
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Nabeel 2020-10-24 22:41:53 +05:00 committed by GitHub
parent 90e37c527e
commit 9f58155b0c
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1 changed files with 28 additions and 31 deletions
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59
Luminary099/LANDING_ANALOG_DISPLAYS.agc
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@ -53,10 +53,10 @@ ALTROUT TC DISINDAT # CHECK MODE SELECT SWITCH AND DIDFLG.
CAF BIT2 # RATE COMMAND IS EXECUTED BEFORE RANGE. CAF BIT2 # RATE COMMAND IS EXECUTED BEFORE RANGE.
EXTEND EXTEND
WOR CHAN14 # ALTRATE (BIT2 = 1), ALTITUDE (BIT2 = 0). WOR CHAN14 # ALTRATE (BIT2 = 1), ALTITUDE (BIT2 = 0).
ARCOMP CA RUNIT # COMPUTE ALTRATE = RUNIT.VVECT M/CS *(-6). ARCOMP CA RUNIT # COMPUTE ALTRATE=RUNIT.VVECT M/CS *2(-6).
EXTEND EXTEND
MP VVECT # MULTIPLY X-COMPONENTS. MP VVECT # MULTIPLY X-COMPONENTS.
XCH RUPTREG1 # SAVE SINGLE PRECISION RESULT M/CS*2(-6) XCH RUPTREG1 # SAVE SINGLE PRECISION RESULT M/CS*2(-6).
CA RUNIT +1 # MULTIPLY Y-COMPONENTS. CA RUNIT +1 # MULTIPLY Y-COMPONENTS.
EXTEND EXTEND
MP VVECT +1 MP VVECT +1
@ -80,10 +80,10 @@ ARCOMP CA RUNIT # COMPUTE ALTRATE = RUNIT.VVECT M/CS *(-6).
# Page 899 # Page 899
EXTEND # CHECK POLARITY OF ALTITUDE RATE. EXTEND # CHECK POLARITY OF ALTITUDE RATE.
BZMF +2 BZMF +2
TCF DATAOUT # NEGATIVE -- SEND POS. PULSES TO ALTM REG. TCF DATAOUT # NEGATIVE - SEND POS. PULSES TO ALTM REG.
CA ALTRATE # POSITIVE OR ZERO -- SET SIGN BIT = 1 AND CA ALTRATE # POSITIVE OR ZERO - SET SIGN BIT = 1 AND
AD BIT15 # SEND TO ALTM REGISTER. *DO NOT SEND +0* AD BIT15 # SEND TO ALTM REGISTER. *DO NOT SEND +0*
DATAOUT TS ALTM # ACTIVATE THE LANDING ANALOG DISPLAYS DATAOUT TS ALTM # ACTIVATE THE LANDING ANALOG DISPLAYS - -
CAF BIT3 CAF BIT3
EXTEND EXTEND
WOR CHAN14 # BIT3 DRIVES THE ALT/ALTRATE METER. WOR CHAN14 # BIT3 DRIVES THE ALT/ALTRATE METER.
@ -96,13 +96,13 @@ ALTOUT TC DISINDAT # CHECK MODE SELECT SWITCH AND DIDFLG.
CS BIT2 CS BIT2
EXTEND EXTEND
WAND CHAN14 WAND CHAN14
CCS ALTBITS # = -1 IF OLD ALT. DATA TO BE EXTRAPOLATED. CCS ALTBITS # =-1 IF OLD ALT. DATA TOBE EXTRAPOLATED.
TCF +4 TCF +4
TCF +3 TCF +3
TCF OLDDATA TCF OLDDATA
TS ALTBITS # SET ALTBITS FROM -0 TO +0. TS ALTBITS # SET ALTBITS FROM -0 TO +0.
CS ONE CS ONE
DXCH ALTBITS # SET ALTBITS = -1 FOR SWITCH USE NEXT PASS. DXCH ALTBITS # SET ALTBITS=-1 FOR SWITCH USE NEXT PASS.
DXCH ALTSAVE DXCH ALTSAVE
CA BIT10 # NEW ALTITUDE EXTRAPOLATION WITH ALTRATE. CA BIT10 # NEW ALTITUDE EXTRAPOLATION WITH ALTRATE.
XCH Q XCH Q
@ -150,11 +150,11 @@ DISINDAT EXTEND
RAND CHAN30 # DISPLAYS? I.E., RAND CHAN30 # DISPLAYS? I.E.,
CCS A # IS THE MODE SELECT SWITCH IN PGNCS? CCS A # IS THE MODE SELECT SWITCH IN PGNCS?
TCF DISPRSET # NO. ASTRONAUT REQUESTS NO INERTIAL DATA TCF DISPRSET # NO. ASTRONAUT REQUESTS NO INERTIAL DATA
CS FLAGWRD1 # YES. CHECK STATUS OF DIDFLAG. CS FLAGWRD1 # YES. CHECK STATUS OF DIDFLAG.
MASK DIDFLBIT MASK DIDFLBIT
EXTEND EXTEND
BZF SPEEDRUN # SET. PERFORM DATA DISPLAY SEQUENCE. BZF SPEEDRUN # SET. PERFORM DATA DISPLAY SEQUENCE.
CS FLAGWRD1 # RESET. PERFORM INITIALIZATION FUNCTIONS. CS FLAGWRD1 # RESET. PERFORM INITIALIZATION FUNCTIONS.
MASK DIDFLBIT MASK DIDFLBIT
ADS FLAGWRD1 # SET DIDFLAG. ADS FLAGWRD1 # SET DIDFLAG.
CS BIT7 CS BIT7
@ -262,24 +262,24 @@ SPEEDRUN CS PIPTIME +1 # UPDATE THE VELOCITY VECTOR
CA DELVS # HI X OF VELOCITY CORRECTION TERM. CA DELVS # HI X OF VELOCITY CORRECTION TERM.
AD VVECT # HI X OF UPDATED VELOCITY VECTOR. AD VVECT # HI X OF UPDATED VELOCITY VECTOR.
TS ITEMP1 # = VX - DVX M/CS *2(-5). TS ITEMP1 # = VX - DVX M/CS*2(-5).
CA DELVS +2 # Y CA DELVS +2 # Y
AD VVECT +1 # Y AD VVECT +1 # Y
TS ITEMP2 # = VY - DVY M/CS *2(-5) TS ITEMP2 # = VY - DVY M/CS*2(-5).
CA DELVS +4 # Z CA DELVS +4 # Z
AD VVECT +2 # Z AD VVECT +2 # Z
TS ITEMP3 # = VZ - DVZ M/CS *2(-5) TS ITEMP3 # = VZ - DVZ M/CS*2(-5).
CA ITEMP1 # COMPUTE VHY, VELOCITY DIRECTED ALONG THE CA ITEMP1 # COMPUTE VHY, VELOCITY DIRECTED ALONG THE
EXTEND # Y-COORDINATE. EXTEND # Y-COORDINATE.
MP UHYP # HI X OF CROSS-RANGE HALF-UNIT VECTOR MP UHYP # HI X OF CROSS-RANGE HALF-UNIT VECTOR.
XCH RUPTREG1 XCH RUPTREG1
CA ITEMP2 CA ITEMP2
EXTEND EXTEND
MP UHYP +2 # Y MP UHYP +2 # Y
ADS RUPTREG1 # ACCUMULATE PARTIAL PRODUCTS. ADS RUPTREG1 # ACCUMULATE PARTIAL PRODUCTS.
CA ITEMP3 CA ITEMP3
EXTEND EXTEND
MP UHYP +4 # Z MP UHYP +4 # Z
ADS RUPTREG1 ADS RUPTREG1
# Page 903 # Page 903
CA RUPTREG1 CA RUPTREG1
@ -291,11 +291,11 @@ SPEEDRUN CS PIPTIME +1 # UPDATE THE VELOCITY VECTOR
XCH RUPTREG1 XCH RUPTREG1
CA ITEMP2 CA ITEMP2
EXTEND EXTEND
MP UHZP +2 # Y MP UHZP +2 # Y
ADS RUPTREG1 # ACCUMULATE PARTIAL PRODUCTS. ADS RUPTREG1 # ACCUMULATE PARTIAL PRODUCTS.
CA ITEMP3 CA ITEMP3
EXTEND EXTEND
MP UHZP +4 # Z MP UHZP +4 # Z
ADS RUPTREG1 ADS RUPTREG1
CA RUPTREG1 CA RUPTREG1
DOUBLE DOUBLE
@ -317,7 +317,7 @@ LATFWDV CA ITEMP4 # COMPUTE LATERAL AND FORWARD VELOCITIES.
CA ITEMP3 CA ITEMP3
EXTEND EXTEND
MP VHZ MP VHZ
ADS RUPTREG1 # = VHY(COS)AOG+VHZ(SIN)AOG M/CS *2(-5) ADS RUPTREG1 # =VHY(COS)AOG+VHZ(SIN)AOG M/CS *2(-5)
CA VELCONV # CONVERT LATERAL VELOCITY TO BIT UNITS. CA VELCONV # CONVERT LATERAL VELOCITY TO BIT UNITS.
EXTEND EXTEND
MP RUPTREG1 MP RUPTREG1
@ -344,7 +344,7 @@ LATFWDV CA ITEMP4 # COMPUTE LATERAL AND FORWARD VELOCITIES.
CAF ONE # LOOP TWICE. CAF ONE # LOOP TWICE.
VMONITOR TS ITEMP5 # FORWARD AND LATERAL VELOCITY LANDING VMONITOR TS ITEMP5 # FORWARD AND LATERAL VELOCITY LANDING
INDEX ITEMP5 # ANALOG DISPLAYS MONITOR. INDEX ITEMP5 # ANALOG DISPLAYS MONITOR.
CCS LATVEL CCS LATVEL
TCF +4 TCF +4
TCF LVLIMITS TCF LVLIMITS
@ -427,7 +427,6 @@ LVLIMITS INDEX ITEMP5
BZMF +2 BZMF +2
TCF NEGLMLV TCF NEGLMLV
INDEX ITEMP5 INDEX ITEMP5
CS LATVEL CS LATVEL
EXTEND EXTEND
BZMF LVMINLM BZMF LVMINLM
@ -500,11 +499,11 @@ ZEROLSTY INDEX ITEMP5
EXTEND EXTEND
WOR CHAN14 WOR CHAN14
TC LADQSAVE # GO TO ALTROUT +1 OR TO ALTOUT +1 TC LADQSAVE # GO TO ALTROUT +1 OR TO ALTOUT +1
ZERODATA CAF ZERO # ZERO ALTSAVE AND ALTSAVE +1 ZERODATA CAF ZERO # ZERO ALTSAVE AND ALTSAVE +1 - - -
TS L # NO NEGATIVE ALTITUDES ALLOWED. TS L # NO NEGATIVE ALTITUDES ALLOWED.
TCF ZDATA2 TCF ZDATA2
# **************************************************************************** # ************************************************************************
DISPRSET CS FLAGWRD0 # ARE WE IN DESCENT TRAJECTORY? DISPRSET CS FLAGWRD0 # ARE WE IN DESCENT TRAJECTORY?
MASK R10FLBIT MASK R10FLBIT
@ -514,7 +513,7 @@ DISPRSET CS FLAGWRD0 # ARE WE IN DESCENT TRAJECTORY?
MASK IMODES33 # CHECK IF INERTIAL DATA JUST DISPLAYED. MASK IMODES33 # CHECK IF INERTIAL DATA JUST DISPLAYED.
CCS A CCS A
CAF BIT2 # YES. DISABLE RR ERROR COUNTER CAF BIT2 # YES. DISABLE RR ERROR COUNTER
AD BIT8 # NO. REMOVE DISPLAY INERTIAL DATA AD BIT8 # NO. REMOVE DISPLAY INERTIAL DATA
COM COM
EXTEND EXTEND
WAND CHAN12 WAND CHAN12
@ -525,12 +524,10 @@ ABORTON CS BITS8/7 # RESET INERTIAL DATA, INTERLEAVE FLAGS.
MASK FLAGWRD1 MASK FLAGWRD1
TS FLAGWRD1 # RESET DIDFLAG. TS FLAGWRD1 # RESET DIDFLAG.
TCF TASKOVER TCF TASKOVER
# ************************************************************************
# ******************************************************************************
BITS8/7 OCT 00300 # INERTIAL DATA AND INTERLEAVE FLAGS. BITS8/7 OCT 00300 # INERTIAL DATA AND INTERLEAVE FLAGS.
BITSET = PRIO6 BITSET = PRIO6
# ************************************************************************
# ******************************************************************************