SKP *MICMX,B,L,C ** ** 21MX MICROCODED MEMORY TESTS * ORG 6000B MODULE 12 * JMP START FRONT PANNEL ENTRY * JMP RE.ENTER RE-ENTER FROM FRONT PANNEL * JMP WRT.READ * JMP READ * JMP GAL.READ * JMP REFRESH * RTN * JMP GL.RD.02 * RTN * JMP RE.ENTR1 * JMP RE.ENTR2 * JMP RE.ENTR3 * JMP RE.ENTR4 * JMP RE.ENTR5 * JMP RE.ENTR6 * JMP RE.ENTR7 SKP *START IMM HIGH S4 17B 7777 IN S4 * L S4 7777 IN L * ADD S12 A UPPER LIMIT IN S12 * PASS S11 A LOWER LIMIT IN S11 * PASS S10 Y SAVE TEST PATTERN IN S10 * PASS S9 X SAVE BG IN S9 * PASS S8 B SAVE MACRO INSTRUCTION ** *RE.ENTR0 PASS X S11 SET STARTING ADDRESS * PASS Y S12 AND ENDING ADDRESS *RE.ENTR1 PASS B S9 AND BACKGROUND * IMM CMLO S7 376B AND RE-ENTRY NUMBER * JSB WRT.READ LOAD MEMORY * PASS X S11 SET STARTING ADDRESS * PASS Y S12 AND ENDING ADDRESS *RE.ENTR2 PASS B S9 AND BACKGROUND * IMM CMLO S7 375B AND RE-ENTRY NUMBER * JSB READ CHECK MEMORY FOR GOOD LOAD * PASS X S11 SET WORKING ADDRESS * PASS Y S11 AND PATTERN ADDRESS *RE.ENTR3 IMM CMLO S7 374B SET RE-ENTRY NUMBER * JSB GL.RD.00 RUN PATTERN THROUGH TEST AREA * PASS X S11 SET STARTING ADDRESS * PASS Y S12 AND ENDING ADDRESS *RE.ENTR4 PASS B S9 AND BACKGROUND * IMM CMLO S7 373B AND RE-ENTRY NUMBER * JSB WRT.READ LOAD MEMORY *RE.ENTR5 IMM CMLO S7 372B SET RE-ENTRY NUMBER * JSB REFRESH STAY IN CODE TO ALLOW REFRESH * PASS X S11 SET STARTING ADDRESS * PASS Y S12 AND ENDING ADDRESS *RE.ENTR6 PASS B S9 AND BACKGROUND * IMM CMLO S7 371B AND RE-ENTRY NUMBER * JSB READ INSURE MEMORY WAS NOT CHANGED * IMM CMLO S7 300B SET GOOD HALT 77B * ZERO X CLEAR X * ZERO Y AND Y FOR GOOD COMPLETION SKP *EXIT DEC S1 P CHECK IF FRONT PANNEL ENTRY * IMM LOW S2 370B * PASS L S2 * AND P * JMP CNDX TBZ *+2 IF P NOT = TO 0 THEN * RTN PASS M S1 RETURN TO SOFRWARE PROGRAM ** * ZERO P INSURE P=0 * IMM CMHI S6 173B GENERATE 102000 FOR HALT * PASS L S7 * IOR A S6 AND THEN 1020XX * INC B S8 SET MACRO FOR RE-ENTERY * JMP CNDX NHOI *+2 IS THIS THE HALT BUTTON * INC P P YES INCREMENT P * JSB *+1 * RTN ZERO M RETURN ** *RE.ENTER IMM HIGH S7 177B CLEAR BIT 15 OF * PASS L S7 * AND X X X AND * AND Y Y Y REGISTERS * INC X X MOVE TO NEXT ADDRESS * IMM CMLO S7 370B SET MASK TO DETERMINE * PASS L S7 WHICH ROUTINE TO * AND A A * IMM CMLO S7 367B ADD 10 OCTAL * PASS L S7 * IOR A A * PASS IR A RETURN TO * JMP J30 6000B RETURN TO IT ** *RE.ENTR7 PASS S DSPL * JMP CNDX AL15 RJS RE.ENTR0 MOVE TO NEXT BLOCK? * IMM CMHI S7 357B YES - ADD 4K * PASS L S7 * ADD S12 S12 * ADD S11 S11 * JMP CNDX AL15 RJS *+3 WRAPPAROUND? * ZERO S11 YES CLEAR LOWER LIMIT * IMM HIGH S12 17B SET UPPER LIMIT * JMP RE.ENTR0 SKP ** WRT.READ MEMORY FROM X TO Y TO BACKGROUND PATTERN IN B ** *WRT.READ M X M-REG=CURRENT ADDRESS * WRTE T B WRITE BACKGROUND * READ L B READ BACKGROUND * PASS A T SAVE DATA READ IN A * XOR A VERIFY * JMP CNDX TBZ RJS D.ERROR DATA * JMP CNDX NHOI RJS HALT.INT HALT OR INTERRUPT? YES * L Y GET LAST ADDRESS IN L * XOR X DONE * JMP CNDX TBZ *+3 TEST AREA? YES-GO SEE IF DONE * INC X X BUMP POINTER * JMP WRT.READ CONTINUE * DEC S1 P SET M TO RETURN * RTN PASS M S1 RETURN ** *READ M X M-REG=CURRENT ADDRESS * READ L B READ BACKGROUND * PASS A T SAVE DATA READ IN A * XOR A VERIFY * JMP CNDX TBZ RJS D.ERROR DATA * JMP CNDX NHOI RJS HALT.INT HALT OR INTERRUPT? YES * L Y GET LAST ADDRESS IN L * XOR X DONE * JMP CNDX TBZ *+3 TEST AREA? YES-GO SEE IF DONE * INC X X BUMP POINTER * JMP READ CONTINUE * DEC S1 P SET M TO RETURN * RTN PASS M S1 RETURN SKP ** GALLOPING READ RECOVERY TEST ** *GAL.READ PASS S10 A SAVE TEST PATTERN * PASS S9 B SAVE BACKGROUND * PASS S11 X STARTING ADDRESSS * PASS S12 Y ENDING ADDRESS * PASS Y X BOTH MUST BE THE SAME TO START ** *GL.RD.00 PASS B S10 SET TEST PATTERN AS EXPECTED * PASS M Y AND ADDRESS * WRTE T B WRITE TEST PATTERN OVER BG * IMM CMHI S1 375B DID USER WANT TO * PASS L S1 * AND DSPL * JMP CNDX TBZ RJS HALT.INT ABORT? YES GO EXIT *GL.RD.01 PASS B S10 SET TEST PATTERN AS EXPECTED * READ M Y READ PATTERN * PASS A T PUT DATA READ IN A * PASS L B DID IT * XOR A CONTAIN THE * JMP CNDX TBZ RJS D.ERROR TEST PATTERN? NO-DATA ERROR * JMP CNDX NHOI RJS HALT.INT HALT OR INTERRUPT? YES-GO PROCESS * L Y PATTERN ADDRESS * XOR X = WORKING * JMP CNDX TBZ GL.RD.02 ADDRESS? YES-SKIP READ * PASS B S9 SET EXPECTED TO BG * READ M X READ BACKGROUND ADDRESS * PASS A T PUT DATA READ IN A * PASS L B DID IT * XOR A CONTAIN THE * JMP CNDX TBZ RJS D.ERROR BG PATTERN? NO-DATA ERROR * JMP CNDX NHOI RJS HALT.INT HALT OR INTERRUPT? YES *GL.RD.02 L S12 UPPER 4K LIMIT IN L * XOR X DONE ALL READ ACCESS TRANSITIONS * JMP CNDX TBZ *+3 FOR ONE TEST ADDRESS? * INC X X NO.BUMP WORKING ADDRESS * JMP GL.RD.01 CONTINUE * PASS B S9 RESTORE BG IN PATTERN ADDRESS * PASS M Y * WRTE T B * XOR Y DONE ALL TEST * JMP CNDX TBZ *+4 YES RETURN * INC Y Y (MOVE TO NEXT TEST ADDRESS)144 * PASS X S11 (RESET STARTING ADDRESS) * JMP GL.RD.00 ADDRESS IN 4K? * DEC S1 P SET M TO RETURN * RTN PASS M S1 RETURN SKP ** REFRESH TEST ** *REFRESH IMM CMLO S1 367B DELAY * ZERO S2 FOR * JMP CNDX NHOI RJS HALT.INT APPROXIMATELY * DEC S2 S2 500 MILLISECONDS * JMP CNDX TBZ RJS *-2 WITHOUT * DEC S1 S1 ADDRESSING * JMP CNDX TBZ RJS REFRESH+1 MEMORY * DEC S1 P SET M TO RETURN * RTN PASS M S1 RETURN ** ** HALT OR INTERRUPT ** *HALT.INT IMM CMHI S5 177B SET BIT 15 IN * PASS L S5 * IOR Y Y IN Y TO INDICATE INTERRUPT * JMP EXIT RETURN ** ** PROCESSES ERRORS ** *D.ERROR IMM CMHI S5 177B SET BIT 15 IN * PASS L S5 * IOR X X IN X TO INDICATE ERROR * JMP EXIT RETURN * END SKP MX.MS EQU * OCT 6000,506 MODULE 12 ADDRESS 6000B OCT 321,101030 OCT 321,104170 OCT 321,105530 OCT 321,106430 OCT 321,107270 OCT 321,112070 OCT 017,136776 OCT 321,111130 OCT 017,136776 OCT 321,101470 OCT 321,101730 OCT 321,102170 OCT 321,102370 OCT 321,102530 OCT 321,102730 OCT 321,105030 OCT 340,037157 OCT 017,146157 OCT 004,127557 OCT 017,127517 OCT 017,173457 OCT 017,171417 OCT 017,125357 OCT 017,165617 OCT 017,167657 OCT 017,160517 OCT 357,175317 OCT 301,105530 OCT 017,165617 OCT 017,167657 OCT 017,160517 OCT 357,173317 OCT 301,106430 OCT 017,165617 OCT 017,165657 OCT 357,171317 OCT 301,107530 OCT 017,165617 OCT 017,167657 OCT 017,160517 OCT 357,167317 OCT 301,105530 OCT 357,165317 OCT 301,112070 OCT 017,165617 OCT 017,167657 OCT 017,160517 OCT 357,163317 OCT 301,106430 OCT 357,001317 OCT 001,137617 OCT 001,137657 OCT 007,175017 OCT 347,161057 OCT 017,142157 OCT 015,174757 OCT 320,043531 OCT 017,140476 OCT 001,137717 OCT 351,167257 OCT 017,154157 OCT 017,052557 OCT 000,056517 OCT 326,044071 OCT 000,075717 OCT 301,104130 OCT 001,136476 OCT 341,177317 OCT 017,154157 OCT 015,171617 OCT 015,173657 OCT 000,071617 OCT 357,161317 OCT 017,154157 OCT 015,126557 OCT 357,157317 OCT 017,154157 OCT 017,026557 OCT 017,126417 OCT 321,100035 OCT 017,115757 OCT 322,001371 OCT 353,137317 OCT 017,154157 OCT 004,167557 OCT 004,165517 OCT 322,005471 OCT 001,137517 OCT 340,037557 OCT 321,101370 OCT 017,170457 OCT 177,124117 OCT 237,124157 OCT 017,104557 OCT 013,026757 OCT 320,012731 OCT 326,012531 OCT 017,172157 OCT 013,070757 OCT 320,046331 OCT 000,071617 OCT 321,105530 OCT 007,175017 OCT 017,140476 OCT 017,170457 OCT 237,124157 OCT 017,104557 OCT 013,026757 OCT 320,012731 OCT 326,012531 OCT 017,172157 OCT 013,070757 OCT 320,047171 OCT 000,071617 OCT 321,106430 OCT 007,175017 OCT 017,140476 OCT 017,127457 OCT 017,125417 OCT 017,171517 OCT 017,173557 OCT 017,171657 OCT 017,162517 OCT 017,172457 OCT 177,124117 OCT 353,173017 OCT 017,140157 OCT 015,114757 OCT 320,012531 OCT 017,162517 OCT 237,172457 OCT 017,104557 OCT 017,124157 OCT 013,026757 OCT 320,012731 OCT 326,012531 OCT 017,172157 OCT 013,070757 OCT 320,051131 OCT 017,160517 OCT 237,170457 OCT 017,104557 OCT 017,124157 OCT 013,026757 OCT 320,012731 OCT 326,012531 OCT 017,166157 OCT 013,070757 OCT 320,051371 OCT 000,071617 OCT 321,110070 OCT 017,160517 OCT 017,172457 OCT 177,124117 OCT 013,072757 OCT 320,051771 OCT 000,073657 OCT 017,165617 OCT 321,107530 OCT 007,175017 OCT 017,140476 OCT 357,157017 OCT 001,137057 OCT 326,012531 OCT 007,143057 OCT 320,012171 OCT 007,141017 OCT 320,012131 OCT 007,175017 OCT 017,140476 OCT 351,177217 OCT 017,150157 OCT 017,073657 OCT 321,103230 OCT 351,177217 OCT 017,150157 OCT 017,071617 OCT 321,103230 MX.ME EQU * SKP *MICMXE,B,L,C ** ** 21MXE MICROCODED MEMORY TESTS * ORG 34400B MODULE 57 * JMP START FRONT PANNEL ENTRY * JMP RE.ENTER RE-ENTER FROM FRONT PANNEL * JMP WRT.READ * JMP READ * JMP GAL.READ * JMP REFRESH * READ RTN * JMP GL.RD.02 * READ RTN * JMP RE.ENTR1 * JMP RE.ENTR2 * JMP RE.ENTR3 * JMP RE.ENTR4 * JMP RE.ENTR5 * JMP RE.ENTR6 * JMP RE.ENTR7 SKP *START IMM HIGH S4 17B 7777 IN S4 * L S4 7777 IN L * ADD SP A UPPER LIMIT IN SP * PASS S11 A LOWER LIMIT IN S11 * PASS S10 Y SAVE TEST PATTERN IN S10 * PASS S9 X SAVE BG IN S9 * PASS S8 B SAVE MACRO INSTRUCTION ** *RE.ENTR0 PASS X S11 SET STARTING ADDRESS * PASS Y SP AND ENDING ADDRESS *RE.ENTR1 PASS B S9 AND BACKGROUND * IMM CMLO S7 376B AND RE-ENTRY NUMBER * JSB WRT.READ LOAD MEMORY * PASS X S11 SET STARTING ADDRESS * PASS Y SP AND ENDING ADDRESS *RE.ENTR2 PASS B S9 AND BACKGROUND * IMM CMLO S7 375B AND RE-ENTRY NUMBER * JSB READ CHECK MEMORY FOR GOOD LOAD * PASS X S11 SET WORKING ADDRESS * PASS Y S11 AND PATTERN ADDRESS *RE.ENTR3 IMM CMLO S7 374B SET RE-ENTRY NUMBER * JSB GL.RD.00 RUN PATTERN THROUGH TEST AREA * PASS X S11 SET STARTING ADDRESS * PASS Y SP AND ENDING ADDRESS *RE.ENTR4 PASS B S9 AND BACKGROUND * IMM CMLO S7 373B AND RE-ENTRY NUMBER * JSB WRT.READ LOAD MEMORY *RE.ENTR5 IMM CMLO S7 372B SET RE-ENTRY NUMBER * JSB REFRESH STAY IN CODE TO ALLOW REFRESH * PASS X S11 SET STARTING ADDRESS * PASS Y SP AND ENDING ADDRESS *RE.ENTR6 PASS B S9 AND BACKGROUND * IMM CMLO S7 371B AND RE-ENTRY NUMBER * JSB READ INSURE MEMORY WAS NOT CHANGED * IMM CMLO S7 300B SET GOOD HALT 77B * ZERO X CLEAR X * ZERO Y AND Y FOR GOOD COMPLETION SKP *EXIT DEC S1 P CHECK IF FRONT PANNEL ENTRY * IMM LOW S2 370B * PASS L S2 * AND P * JMP CNDX ALZ *+2 IF P NOT = TO 0 THEN * READ RTN PASS M S1 RETURN TO SOFRWARE PROGRAM ** * ZERO P INSURE P=0 * IMM CMHI S6 173B GENERATE 102000 FOR HALT * PASS L S7 * IOR A S6 AND THEN 1020XX * INC B S8 SET MACRO FOR RE-ENTERY * JMP CNDX HOI RJS *+2 IS THIS THE HALT BUTTON * INC P P YES INCREMENT P * JSB *+1 * READ RTN ZERO M RETURN ** *RE.ENTER IMM HIGH S7 177B CLEAR BIT 15 OF * PASS L S7 * AND X X X AND * AND Y Y Y REGISTERS * INC X X MOVE TO NEXT ADDRESS * IMM CMLO S7 370B SET MASK TO DETERMINE * PASS L S7 WHICH ROUTINE TO * AND A A * IMM CMLO S7 367B ADD 10 OCTAL * PASS L S7 * IOR A A * PASS IRCM A RETURN TO * JMP RJ30 34400B RETURN TO IT ** *RE.ENTR7 PASS S DSPL * JMP CNDX AL15 RJS RE.ENTR0 MOVE TO NEXT BLOCK? * IMM CMHI S7 357B YES - ADD 4K * PASS L S7 * ADD SP SP * ADD S11 S11 * JMP CNDX AL15 RJS *+3 WRAPPAROUND? * ZERO S11 YES CLEAR LOWER LIMIT * IMM HIGH SP 17B SET UPPER LIMIT * JMP RE.ENTR0 SKP ** WRT.READ MEMORY FROM X TO Y TO BACKGROUND PATTERN IN B ** *WRT.READ M X M-REG=CURRENT ADDRESS * WRTE PRST TAB B WRITE BACKGROUND * READ PRST L B READ BACKGROUND * PASS A TAB SAVE DATA READ IN A * XOR A VERIFY * JMP CNDX ALZ RJS D.ERROR DATA * JMP CNDX HOI HALT.INT HALT OR INTERRUPT? YES * L Y GET LAST ADDRESS IN L * XOR X DONE * JMP CNDX ALZ *+3 TEST AREA? YES-GO SEE IF DONE * INC X X BUMP POINTER * JMP WRT.READ CONTINUE * DEC S1 P SET M TO RETURN * READ RTN PASS M S1 RETURN ** *READ M X M-REG=CURRENT ADDRESS * READ PRST L B READ BACKGROUND * PASS A TAB SAVE DATA READ IN A * XOR A VERIFY * JMP CNDX ALZ RJS D.ERROR DATA * JMP CNDX HOI HALT.INT HALT OR INTERRUPT? YES * L Y GET LAST ADDRESS IN L * XOR X DONE * JMP CNDX ALZ *+3 TEST AREA? YES-GO SEE IF DONE * INC X X BUMP POINTER * JMP READ CONTINUE * DEC S1 P SET M TO RETURN * READ RTN PASS M S1 RETURN SKP ** GALLOPING READ RECOVERY TEST ** *GAL.READ PASS S10 A SAVE TEST PATTERN * PASS S9 B SAVE BACKGROUND * PASS S11 X STARTING ADDRESSS * PASS SP Y ENDING ADDRESS * PASS Y X BOTH MUST BE THE SAME TO START ** *GL.RD.00 PASS B S10 SET TEST PATTERN AS EXPECTED * PASS M Y AND ADDRESS * WRTE PRST TAB B WRITE TEST PATTERN OVER BG * IMM CMHI S1 375B DID USER WANT TO * PASS L S1 * AND DSPL * JMP CNDX ALZ RJS HALT.INT ABORT? YES GO EXIT *GL.RD.01 PASS B S10 SET TEST PATTERN AS EXPECTED * READ PRST M Y READ PATTERN * PASS A TAB PUT DATA READ IN A * PASS L B DID IT * XOR A CONTAIN THE * JMP CNDX ALZ RJS D.ERROR TEST PATTERN? NO-DATA ERROR * JMP CNDX HOI HALT.INT HALT OR INTERRUPT? YES-GO PROCESS * L Y PATTERN ADDRESS * XOR X = WORKING * JMP CNDX ALZ GL.RD.02 ADDRESS? YES-SKIP READ * PASS B S9 SET EXPECTED TO BG * READ PRST M X READ BACKGROUND ADDRESS * PASS A TAB PUT DATA READ IN A * PASS L B DID IT * XOR A CONTAIN THE * JMP CNDX ALZ RJS D.ERROR BG PATTERN? NO-DATA ERROR * JMP CNDX HOI HALT.INT HALT OR INTERRUPT? YES *GL.RD.02 L SP UPPER 4K LIMIT IN L * XOR X DONE ALL READ ACCESS TRANSITIONS * JMP CNDX ALZ *+3 FOR ONE TEST ADDRESS? * INC X X NO.BUMP WORKING ADDRESS * JMP GL.RD.01 CONTINUE * PASS B S9 RESTORE BG IN PATTERN ADDRESS * PASS M Y * WRTE PRST TAB B * XOR Y DONE ALL TEST * JMP CNDX ALZ *+4 YES RETURN * INC Y Y (MOVE TO NEXT TEST ADDRESS)144 * PASS X S11 (RESET STARTING ADDRESS) * JMP GL.RD.00 ADDRESS IN 4K? * DEC S1 P SET M TO RETURN * READ RTN PASS M S1 RETURN SKP ** REFRESH TEST ** *REFRESH IMM CMLO S1 367B DELAY * ZERO S2 FOR * JMP CNDX HOI HALT.INT APPROXIMATELY * DEC S2 S2 500 MILLISECONDS * JMP CNDX ALZ RJS *-2 WITHOUT * DEC S1 S1 ADDRESSING * JMP CNDX ALZ RJS REFRESH+1 MEMORY * DEC S1 P SET M TO RETURN * READ RTN PASS M S1 RETURN ** ** HALT OR INTERRUPT ** *HALT.INT IMM CMHI S5 177B SET BIT 15 IN * PASS L S5 * IOR Y Y IN Y TO INDICATE INTERRUPT * JMP EXIT RETURN ** ** PROCESSES ERRORS ** *D.ERROR IMM CMHI S5 177B SET BIT 15 IN * PASS L S5 * IOR X X IN X TO INDICATE ERROR * JMP EXIT RETURN * END SKP MX.ES EQU * OCT 34400,3534 MODULE 57 ADDRESS 34400B OCT 327,021007 OCT 327,024147 OCT 327,025507 OCT 327,026407 OCT 327,027247 OCT 327,032047 OCT 230,036740 OCT 327,031107 OCT 230,036740 OCT 327,021447 OCT 327,021707 OCT 327,022147 OCT 327,022347 OCT 327,022507 OCT 327,022707 OCT 327,025007 OCT 344,037147 OCT 010,046507 OCT 003,007547 OCT 010,007507 OCT 010,073447 OCT 010,071407 OCT 010,011347 OCT 010,065607 OCT 010,067647 OCT 010,060207 OCT 353,175307 OCT 307,025507 OCT 010,065607 OCT 010,067647 OCT 010,060207 OCT 353,173307 OCT 307,026407 OCT 010,065607 OCT 010,065647 OCT 353,171307 OCT 307,027507 OCT 010,065607 OCT 010,067647 OCT 010,060207 OCT 353,167307 OCT 307,025507 OCT 353,165307 OCT 307,032047 OCT 010,065607 OCT 010,067647 OCT 010,060207 OCT 353,163307 OCT 307,026407 OCT 353,001307 OCT 006,037607 OCT 006,037647 OCT 000,075007 OCT 343,161047 OCT 010,042507 OCT 012,074747 OCT 320,023502 OCT 230,040640 OCT 006,037707 OCT 355,167247 OCT 010,054507 OCT 010,152147 OCT 007,156207 OCT 323,164042 OCT 007,175707 OCT 307,024107 OCT 226,036640 OCT 345,177307 OCT 010,054507 OCT 012,071607 OCT 012,073647 OCT 007,171607 OCT 353,161307 OCT 010,054507 OCT 012,006147 OCT 353,157307 OCT 010,054507 OCT 010,106147 OCT 010,006607 OCT 327,020004 OCT 010,015747 OCT 327,161342 OCT 357,137307 OCT 010,054507 OCT 003,067547 OCT 003,065507 OCT 327,165442 OCT 006,037507 OCT 344,037547 OCT 327,021347 OCT 010,070647 OCT 210,010015 OCT 230,010515 OCT 010,000147 OCT 014,106747 OCT 320,072702 OCT 323,132502 OCT 010,072507 OCT 014,170747 OCT 320,026302 OCT 007,171607 OCT 327,025507 OCT 000,075007 OCT 230,040640 OCT 010,070647 OCT 230,010515 OCT 010,000147 OCT 014,106747 OCT 320,072702 OCT 323,132502 OCT 010,072507 OCT 014,170747 OCT 320,027142 OCT 007,171607 OCT 327,026407 OCT 000,075007 OCT 230,040640 OCT 010,007447 OCT 010,011407 OCT 010,071507 OCT 010,073547 OCT 010,071647 OCT 010,062207 OCT 010,072647 OCT 210,010015 OCT 357,173007 OCT 010,040507 OCT 012,014747 OCT 320,072502 OCT 010,062207 OCT 230,072655 OCT 010,000147 OCT 010,010507 OCT 014,106747 OCT 320,072702 OCT 323,132502 OCT 010,072507 OCT 014,170747 OCT 320,031102 OCT 010,060207 OCT 230,070655 OCT 010,000147 OCT 010,010507 OCT 014,106747 OCT 320,072702 OCT 323,132502 OCT 010,066507 OCT 014,170747 OCT 320,031342 OCT 007,171607 OCT 327,030047 OCT 010,060207 OCT 010,072647 OCT 210,010015 OCT 014,172747 OCT 320,031742 OCT 007,173647 OCT 010,065607 OCT 327,027507 OCT 000,075007 OCT 230,040640 OCT 353,157007 OCT 006,037047 OCT 323,132502 OCT 000,043047 OCT 320,072142 OCT 000,041007 OCT 320,072102 OCT 000,075007 OCT 230,040640 OCT 355,177207 OCT 010,050507 OCT 010,173647 OCT 327,023207 OCT 355,177207 OCT 010,050507 OCT 010,171607 OCT 327,023207 MX.EE EQU * SKP FWAA EQU * END