e _vߋt The volume labeled "VMS Exchange" is not a system volume. VMS ExchangeVDMBDEV DECVMSEXCHNGetfK"h#"h3i,#8 0DX0205 QrBESSAA7.1QrB04-00 U OqLN^&c   ?112- Ҵ.ZN[\\ZN21rrr ssv2\221_~J~g~-~lF81= l a1Y1Q1I1jj ֤ Fj|e||. n8nJ 1lBz0d00fP1lay0q0i0a0|lQ0||q<i!000 004<h//////<//////y/q/i/a/Y/|f;;1/)/!/"/.P...63....<i3..y.<MP|3hPQ.I.A.9.PP<" \33a3---------------y-q-i-a-Y-Q-I-A-9-1-)-!-- -連,,,,gW,,,,,,,,y,q,i,a,Y,Q,I,A,9,1,),!,,, ,,++++++++++++++++y+q+i+a+Y+Q+I+A+9+1+)+!+++ ++*************J@KValF$ ;  +  H_T%%_F 0ddeS) m 7]  $ e?qdU       c l}qtO1<v /CRD/CRD_TRACE/System ID register type = !UB, expected !UB!//?? ERROR IN STARTING CRD - INCORRECT BITS SET!/!/!/!_!_VAX DIAGNOSTIC SOFTWARE!/!_!_!_PROPERTY OF!/!_ DIGITAL EQUIPMENT CORPORATION!/!/!_ ***CONFIDENTIAL AND PROPRIETARY***!/!/!/Use Authorized Only Pursuant to a Valid Right-to-Use License!/!/KERNEL  SYS$INPUT SYS$OUTPUT!AS:!AS!AS;!ZL APT ?? Reserved APT command receivedASTDEL STACK ERRORATTACH# Invalid or unknown name.!/!AC? 5J ?? Error in !AC!ACname, format should be "!AC"!/!AC? - ?? Error in !AC, range should be "!AC"!/!AC? $m$gganbetween 1 and 255 allocation range part of * Unit number too big or not allowed.!/!AC? .%There is no !AD on this type processor.!/!AC? [!AC? Device Name Device Link Device typeNo such device !AD:!/No such adapter !AD:!/%No such device !AD: on adapter !AD:!/,?? Duplicate adapter name is illegal (!AS)!/6?? Must use /Adapter with duplicated device name !AS!/!AS has been de-attached.!/ !AD: Allocated to another user!/%!AS!_!AC!_!AS!_!XL !AS ALLOCATED !/!AS!_!AC ALLOCATED !/!AS!_!AC!_!AS!_!XL !AS !/ !AS!_!AC !/,Value for prompt "!AC" not found in script!/Skipping this line!/ should be2No,Yes@!AC one of !AS!/!AC? ]HUB generic controllerunitSBICMIPHADABUSHUB CallFrame>!/!/Call Frame Stack Dump (starting with the current frame):!/> Frame: Current PC: !XL AP: !XL PSL: !XL!/: Frame: !XL Saved PC: !XL Saved AP: !XL Saved PSW: !3XL!/!/ User return PC = !XL(X)!/CHANNEL!/MBA CHANNEL STATUS DUMP!/!/!/MBA_CSR:[!XL]!_!XL(X);!_!AC!/MBA_CR:[!XL]!_!XL(X);!_!AC!/MBA_SR:[!XL]!_!XL(X);!_!AC!/MBA_VAR:[!XL]!_!XL(X);!/MBA_MAP(!XB):!_!XL(X);!/MBA_BCNT:[!XL]!_!XL(X);PE,WS,URD,,MT,XMTFLT,,,PD,PU,OT,,,,,,,,,,,,,,,,,,,,,,,,,,,,,MM,IE,ABORT,INIT~DTBUSY,NRCONF,CRD,,,,,,,,,,PGE,NED,MCPE,ATTN,,,DTCOMP,DTABT,DLT,WCKUPR,WCKLWR,MXF,MBEXC,MDPE,MAPPE,INVMAP,ERCONF,RDS,ISTO,RDTOVALID,,,,,,,,,,,PFN=21^X!/UBA CHANNEL STATUS DUMP!/!/UBA_CSR:[!XL]!_!XL(X);!_!AC!/UBA_CR:[!XL]!_!XL(X);!_!AC!/UBA_SR:[!XL]!_!XL(X);!_!AC!/UBA_FMER:[!XL]!_!XL(X)3!/UBA_FUBAR:[!XL]!_!XL(X);!_UNIBUS ADDRESS = !OW(O)!/UBA_MAP(!XW):!_!XL(X)!/UBA_DPR:!_!XL(X);!_!AC3PE,WS,URD,IS,MT,XMFLT,,,PD,PU,OT,,,UBIIP,UBPDN,UBICU,MRD4,MRD3,MRD2,MRD1,MRD0,,,,,,,,,,,,,,,,,,,,IFSIE,BRIE,USEFIE,SUEFIE,CNFIE,UBPF,INIT`,,,,RVR7F,RVR6F,RVR5F,RVR4F,,,,,,,,,,,,,,RDTO,RDS,CRD,CXTER,CXMTO,DPPE,IVMR,MRPE,LER,UBSTO,SSYNC VALID,,,,,LAE,BO,DP=4^D,PFN=21^X!BNE,BTE,DPF,,,,,,BS=8^X,BUBA=16^XCHMKCLI?? Programming error!!?? Illegal command!/ \!AS\!/&?? Incomplete command line!/ \!AS\!/0?? Illegal event flag number. Must be 1 to 23.!/.. Continuing from !XL!/$?? Command not valid in user mode !/Memory management is !AC.!/onoff*?? Error in starting the CRD MENU TEST!!!/The CRD Trace flag is !AC.!/A BORTTTACHC, LEAR? ONTINUERD#D"IRECTORY WIDE\&EVA[B[S>[+ PATTACH ABUG=&D p)SELECT[[DEPOSIT; E+X IT[[EXAMINE! HELPINITPCSLOAD'NEXT|]t RUN7SEETqlLECT7 HOWI! TART"FUMMARY#jkXDELTA@ '+\\\\$%$%:tled ADAPTERhno`:f$T$%d$%:ggH3r NOALLOCATE QADAPTER no:'Q$%:%X[T @<$_.$$_]%]%%%$%_%.%%%$%_%;%%fei5d%9$%:%p[T 5@<$_.$$_]%]%%%$%_%.%%%$%_%;%%fP DEBUG>PASSESx0t'1 QAS2ECTIONR/NUBTEST;*7kTEST&(" )BB#6 ASE8 REAKPOINTSC$RDALLS DZE:FAULTSlVICE2 ADAPTERno:mBRIEFY&4EVENTGCFLAGS95FLAGS+v LOADMZ{LEMORY | MAP}BUFFER~DATA_STRUCTURE*ALL-MPAGEQQ}AJ CKLOOPLOOPSNDEFAULTSI ERRORPRINTSrM MULTIPLEPASS]L SUBTESTLOOPSHK\ TESTLOOPS6SbEAC[yCTIONS[s'ELECTEDmSBRIEFxTATUSwUPPORTzTESTSRWIDTH ADAPTERno:mBRIEFlDEVICE&sSELECTED^rB68. REAKPOINTS[A9 LL4[7D([>CRDTRACE"VDEBUGLHTRACEEJNFORCE34VENT5FLAGS9 ALLO5FLAGS9 ALLB; ELL<INARY= HALTI(E{1>2?{3@sSA_kB LOOP^COPERATORMDPROMPT>EQUICK0FSEARCH!GTRACEHVERIFY6B76ASE78 REAKPOINTS7}[>CRDTRACEw[DEBUGTRACEW;:DEFAULTS`EJNFORCE2/4'VENT5FLAGS9 ALLO5FLAGSDLOuAD'[[%M>EMORY]$MMO+ N|,FFqP AGEy]uQU[QA[J CKLOOPLOOPSE]A%NDEFAULTSI ERRORPRINTS]M MULTIPLEPASS]L SUBTESTLOOPS]K TESTLOOPS]RWIDTH]9 ALLB; ELL<INARY:DEFAULT= HALTI(Es1>2?3@ySAWqLOKBGOP^COPERATORMDPROMPT>EQUICK0FSEARCH!GTRACEHVERIFY SASCII` BYTEbDECIMALa HEXADECIMAL^LONGWORDNEXT]PYcOCTAL_WORDhg2AUPZl[KFVPZ\[;PCXLY SLA.9RT 7-SW PZ!7v` BYTEbDECIMALa HEXADECIMAL^LONGWORDNEXT|PxcOCTAL_WORDhoQAUPZS[KFVPZC[;PCX3Y SL(. RT 7 SW PZ7]` BYTETbDECIMALDa HEXADECIMAL0^LONGWORDcOCTAL_WORDaCLOCKCONFIGRP04_DBARP05_DBARP06_DBARM03_DRARM80_DRARM05_DRARP07_DRARP07_DRA ^C ^U ^R^O  0Width must be greater than 0 and less than 133!/$Terminal width is !ZB character!%S!//A@/B@/C@/EA/H@/J@/K@/L@/M@/Z`[?1;0c`[?1;1c`[?1;2c`[?1;3c`[?1;4c`[?1;5c`[?1;6c`[?1;7c`[?62;1;2;7;8c[?52;1;2;3;4;7;8c[?15c$[?10c%[?2c![?3;0c"[?3;1c" CRDIMAGEENSAB.EXE;0 && MENU TEST AUTO TEST.!/CRD !AC ONLY SUPPORTED ON A VAX-11/730,725!/2!/UNABLE TO FIND THE LOADABLE PORTION OF CRD !AC!/B!/ERROR WHILE ATTEMPTING TO LOAD THE LOADABLE PORTION OF CRD !AC!/*!/ERROR WHILE ATTEMPTING TO EXIT CRD !AC!/ !/INCORRECT VERSION OF CRD !AC!/0!/THE LOADABLE PORTION OF CRD !AC IS CORRUPTED!/!/CANNOT CONTINUE CRD - MEMORY MANAGEMENT MUST BE OFF!/TO TURN OFF MEMORY MANAGEMENT, TYPE "SET MM OFF"!/RESTART CRD BY TYPING "CRD"!/*!/!/AUTO TEST ABORTED - CALL FIELD SERVICE+!/**** END OF VAX-11/730,725 AUTO TEST ****@!/!/RETURNING TO VAX-11/730,725 CONSOLE, WAIT FOR ">>>" PROMPT!//*** No DSA bit is set - DSA$GL_Flags = !XL(X)!/5*** CRD cannot be run on this CPU - this is !AC CPU!/ a VAX-11/780 a VAX-11/750 an unknownF*** Error while determining size of the ENSAB file - Status = !XL(X)!/8*** Error while expanding the region - Status = !XL(X)!/F*** Error while loading the ENSAB file into memory - Status = !XL(X)!/#*** A CRD Internal Error occurred!/.*** The following are the CRD debug vectors:!/+*** Debug vector [!UL]: !XL(X) !-!SL(D)!/5*** The region was not contracted - Status = !XL(X)!/H*** Either the Null byte is not null, or the version numbers are wrong!/8*** These versions of ENSAB and ENSAA are incompatible!/o!/*** Beginning the CRD Tracing Facility!/*** All statements that begin with "***" are CRD trace statements!/!/4*** DSR$Load_CRD: Starting location of CRD: !XL(X)!/6*** DSR$Load_CRD: Size of the CRD image: !XL(X)!/!/B*** DSR$Load_CRD: Vector count: DS = !4SB CRD = !4SB!/B*** DSR$Load_CRD: Positive version number: DS = !4SB CRD = !4SB!/B*** DSR$Load_CRD: Negative version number: DS = !4SB CRD = !4SB!/B*** DSR$Load_CRD: Null byte: DS = !4SB CRD = !4SB!/L!/!/************************ CRD Internal Error ************************!/!/Error Type = Allocation_Error!/!Error Type = Action_Range_Error!/$Error Type = Action_EQL_Do_Nothing!/!Error Type = Bad_Typecode_Error!/ Error Type = Data_Length_Error!/ Error Type = MM_Internal_Error!/ Error Type = TQ_Internal_Error!/ Error Type = HS_Internal_Error!/ Error Type = Bad_Action_Number!/Error Type = Load_Sup_File!/Error Type = Create_HST!/Error Type = unknown (!SL)!/!Error Type = out of range (!SL)!/Typecode !2* = Length !4* = !UL!/Address !3* = !XL(X)!/DSA flags !1* = !XL(X)!/DS flags !2* = !XL(X)!/!/State Table !10* State Number!!/----------- !10* ------------!/Main Menu !17* !2UL!/Test Queue !16* !2UL!/Hardware Support !10* !2UL!/Previous state !12* !2UL!/!/Current TQ entry = !UL!/Current DDB address = !XL(X)!/Current HSB number = !UL!/ Current HSB address = !XL(X)!/!/6!AC;!UW 7!19 7!/!/Directory _!AS!/!/!19 K7!AS!/!/!/Directory _!AS!/!/!AS*.*;*}7!AS!/0,07!3OL!3OL7!/!/Directory _!AS[!AS]!/!/!AS[!AS]!AS.DIR;07!AS!/*.*;*79!/%DS-F-USER, can't access console device in user mode.!/-!/%DS-F-DEVNOTATCH, Device !AD not attached!/!/Total of !ZL files.!/DISPATCH !/?? No tests in this section.!/:!/.. First pass done, !UW error!%S detected, time is !%D!/L!/.. End of run, !UW error!%S detected, pass count is !UW,!/ time is !%D!/7!/.. Error search: new test limit is !UL, time is !%D!/!/Test !UB: !AC!/Summary of !AC, Rev !UL.!UL:!/ !ZL program detected error!%S (!ZL Hard, !ZL Soft, !ZL System, !ZL Device).!/ !ZL Supervisor detected error!%S.!/!/jStatus of !AC, Rev !UL.!UL!/ !%D!_[Section !AC]!_[!ZL error!%S]!/ [Test !ZL]!_[Subtest !ZL]!/ [Pass !ZL]!/yStatus of !AC, Rev !UL.!UL!/ !%D!_[Section !AC]!_[!ZL error!%S]!/ [Test !ZL]!_[Subtest !ZL]!/ [Pass !ZL]!_[User PC !XL]!/?? No diagnostic running.!/ [aborted]^Routine DSX$LOAD has detected non-standard diag. or image header.!/Assuming no image header.!/ENTRY- ?? RESERVED DIAGNOSTIC/SYSTEM SERVICE CALL. Hard error Soft errorDevice fatal errorDevice not prepared errorSystem fatal errorSoftware detected error5<Unknown deviceK<Initialization sectioni<Cleanup section<test !UL, subtest !UL!!/.. Halt on error at PC !XL(X)!/b!/******** !AC - !UL.!UL ********!/ Pass !UL, !AS, error !UL, !%D!/ !AC while testing !AS: !AC!/.!/******** End of !AC number !UL ********!/!/>!/?? Software detected error in "!AC", error #!UL, !%D!/ !AC!/9DSA$GL_Flags: !XL(X) DS$GL_Flags: !XL(X) Version: !AC!/!_PC: !XL PSL: !XL!/!_R0: !XL R1: !XL R2: !XL R3: !XL!/!_R4: !XL R5: !XL R6: !XL R7: !XL!/!_R8: !XL R9: !XL R10: !XL R11: !XL!/!XL:!XL!7(9XL)!/!/!AC-!AD-!AC (R0=!XL)!/f %SYSTEM%RMS%DIAG-   THЄx`p8Xx(fff f(f8f@fHfPf`fhfpfxfffffffffffZd|(M} Bi )6Kew-;FYg Unknown errorNOSUCHDEV, No such deviceNOSUCHFILE, No such fileFNF, file not found-DEV, bad device, or inappropriate device typeDNF, directory not foundACC, access violationField overflowNull input stringIllegal characterProgrammer errorData truncatedInvalid vectorInvalid vector addressVirtural address space fullInsufficient memoryInitial channel hardware errorFinal channel hardware errorProgram logic errorIllegal page countBuffer is fragmented Machine checkKernel stack not validPower fail interruptTranslation not validNot implemented IPL too highInterval clock errorArithmetic trapUnexpected interruptACC, ACP file access failedCCR, cannot connect RABDME, dynamic memory exhaustedEOF, end of file detected&FAB, invalid FAB or FAB not accessible1IFI, invalid internal file identifier (IFI) value6IOP, operation invalid for file organization or device3ISI, invalid internal stream identifier (ISI) value&RAB, invalid RAB or RAB not accessibleRER, file read error'RTB, record too large for user's buffer(RFA, invalid record's file address (RFA)'IRC, illegal record encountered in fileFNM, error in filenameCTRLERR, fatal controller errorWEF?EXCEPT8>DJG HIJ HIJ  HIJ HIJ HIJ HIJ HJJ  H.JJ$ HDJJ( HJJJ, HJJ0 HUJJ@ HhJJD H~JJH HJJLEEEF%F=FPFaFNo TRAP pendingInteger overflowInteger divide by zeroFloating overflowFloating divide by zeroFloating underflowDecimal overflowDecimal divide by zero H)KJ4 H:KJ4 HQKJ4 HcKJ4 HKJ4 HKJ4 HKJ4 HQKJ4 HcKJ4 HKJ4`GvGGGGGGGReserved opcode fault BPT fault IOT fault EMT fault TRAP faultIllegal instruction faultOdd address abortUnknown9!/?? VMS machine check (hardware logout not available):!/)!/?? !AC !AC through SCB vector: !XB(X)!/7!/?? Unexpected trap or interrupt thru SCB vector !XW!/PC at error:!_!_!XL(X)!/User return PC:!_!_!XL(X)!/User return PC: none found!!!/ PSL at error:!_!_!XL(X)!_; !AC!/1Virtual address:!_!XL(X)!/Fault type:!_!_!XL(X)!/!_!AC !AC code:!_!AC!/Arg:!_!_!_!XL(X)!/!?? Unknown exception/condition:!/Count:!_!_!_!XL(X)!/P!UL:!_!_!_!XL(X)!/KERNEL stack not valid Power failReserved/privileged instructionCustomer reserved instructionReserved operandReserved addressing modeAccess control violationTranslation not validTrace BreakpointChange mode KERNELChange mode EXECUTIVEChange mode SUPERVISORChange mode USER(Unexpected status from condition handlerTrapFaultAbort Interrupt Fault/abortCompatability modePrevious stack access violationInteger overflowInteger divide by zeroFloating overflowFloating/decimal divide by zeroFloating underflowDecimal overflowSubscript range0123456789ABCDEFOXUSZA%*+-<>/_^!CSDFBWLSDT !  !/Control flags set : !AC!/Control flags clear: !AC!/!/Event flags set: !AC!/LSearch,Prompt,Oper,,Trace,Verify,Quick,IES,IE3,IE2,IE1,Bell,Loop,Binary,Halt;23,22,21,20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5,4,3,2,1HELPLEVSAA.HLP !/!#* !AS !/!#* !AS!/ !/!#* !AS!/ !AD'!/ Additional information available:!/4!/ Sorry, no documentation on !AS !AS !AS !AS !AS!/ !/ !AD!/!/zcOOP QPQ}RRRR?SSSU|UUVWdXXYQYYoZZZ0[[ \r\c]]^U__`Oaabb@cZctccccccEd_dydddde.eHebe|eePfdfff'gpggg h&h@hohhhhbi|iiiijejjjjjk=kakkkkkkl\llllmHmvmm7nnnnnneooo`ppq^qqqqrr:rAA11K3AA I/O BUS CSRVECTOR$ BR2AD11K3AD I/O BUS CSRVECTOR$ BR2BCI750APABI Node2 $  BR3$CI Node45 9 CI750APA@ Slot 2 $  BR3$Node45 9 CI780APATR2 $BR3$  $Node45 9 CI_NODEA  Node_typeVAX780VAX750HSC50KL10CINTVAX785VAX8600=  9 = qO 5 Node_address4 9 console2CR117CR CSR2 VECTOR$ BR6DISK2DUDL117TTCSR2 VECTOR$ BR6DMC117XMXMCSR2 VECTOR$ BR6DMF329LCCSR5 Vector$ BR42DMF32A8TXTXCSRVector$ BR2 Active Lines3 Baud Rate5075110134.515030060012001800200024003600480072009600192004 Loopback TypeINTERNALH3248 LOCAL_MODEMPROGRAMMABLE_MODEMH32495Unibus Init Jumper7DMF32P9LCLCCSR5 Vector$ BR4 Port DeviceOTHERLPWRAP32DMF32S9XGXGCSR5 Vector$ BR4 External WrapNONEMODEMWRAP3DMP119XDXDCSR5 VECTOR$ BR4Control StationNOYES3 TributaryNOYES3Compatabilty ModeNOYES3 Half DuplexNOYES32DMR117XMXMCSR2 VECTOR$ BR6DMZ32:TXCSRVector$ BR2TEST LINES (OCTET0)3"LEVEL 3 ONLY - TEST LINES (OCTET1)4"LEVEL 3 ONLY - TEST LINES (OCTET2)5 Baud Rate5075110134.5150300600120018002000240048009600192006 Loopback Type0123456787 Modem Control9DR11B7XBCSR2 VECTOR$ BR6DR11K3XR I/O BUS CSRVECTOR$ BR2DR11W7XAXACSR2 VECTOR$ BR6DR7507XFXF@ SLOT 2 $BR3$ SELF TEST4 TEST CONFIG1CPU2CPU5 TEST UNIT6DR7807XFXFTR2 $BR3$$ SELF TEST4 TEST CONFIG1CPU2CPU5 TEST UNIT6DUP117XWCSR2 VECTOR$ BR6DW7302DW`@ @ $DW7502DW@ @ $  $ DW7804DWTR2 $BR3$ $DWBUA4NODE_ID2 $BR$DZ118TTTTCSR2 VECTOR$ BR6 MODULE TYPEEIA20MA7DZ327TTCSRVECTOR$BR2 ACTIVE LINES3 BAUD RATE4 LOOPBACK TYPE5INH RESET SWITCH5 MODE SWITCH5SPLIT SPEED JUMPER5IEU11A3IXBaseVector$BR2KA730FKA@ 2 Time-of-year clock2WCS last address6'> @ Accelerator typeBK-bytes of Main MemoryDUser WCS loaded2 SB errors2KA750FKA@ 2 G-floating instructions2H-floating instructions2Time-of-year clock2WCS last address6'> @ Accelerator typeBKA780FKA2 G-floating instructions2H-floating instructions2WCS last address6'> @ Accelerator typeBKA785FKA2 G-floating instructions2H-floating instructions2JCS last address6'> @ Accelerator typeBKA86FKA2 G-floating instructions2H-floating instructions2WCS last address6'> @ Accelerator typeBKAXXXFKA2 G-floating instructions2H-floating instructions2WCS last address6'> @ Accelerator typeBKAZZZFKA2 G-floating instructions2H-floating instructions2WCS last address6'> @ Accelerator typeBKMC117XKCSR2 VECTOR$ BR6KW11K3KW I/O BUS CSRVECTOR$ BR2LA122TT LA342TT LA362TT LA382TT LA1002TT LA1202TT LA1802LP LESI7DAIP2 Vector$BR6LN012LP LP042LP LP052LP LP062LP LP072LP LP117LPLPCSR2 VECTOR$ BR6LP142LP LP252LP LP262LP LP272LP LPA11K7LALA CSR2 VECTOR$ BR6MA7806MATR2 $BR3$$MPM4PORT5MBE2 ML114EMEM  Number of array boards2 Chip size16K64K3MS7502MSMS7804MSTR2 Number of arrays3PCL117 CSR2 VECTOR$ BR6PX7805PXPXTR2 $BR3$Node4$R802DQ RA602DJ RA802DU RA812DU RB7307DQDQb$ 6RCF252DA RC252DA RH7503RH@   $BR2$   RH7804RHTR2 $BR3$   $RL012DL RL022DL RL117DLDLCSR2 VECTOR$ BR6RK062DM RK072DM RK6117DMDMCSR2 VECTOR$ BR6RM032DRDR  RM052DRDR  RM802DRDR  RP042DBDB  RP052DBDB  RP062DBDB  RP072DRDR  RUX503DUIPVECTOR$ BR2RX022DY RX312DURX322DURX502DU RX1802DURX2117DYDYCSR2 VECTOR$ BR6SBIA2SI` ` $ $ TAPE2MUTE162MT TK503MUMU CSRVECTOR$ BR2TM033TMMTDRIVE2 TM783TFMFDRIVE2 TS047TSMS CSR2 VECTOR$ BR6TS053MS TS05_CSR_ADDRESS TS05_VECTOR$BR_LEVEL2TS117TSMS CSR2 VECTOR$ BR6TU452MT TU582DDDD TU772MT TU782MF TU807MS TU80_CSR_ADDRESS2  TU80_VECTOR$BR_LEVEL6TU817MUMU CSR2 VECTOR$ BR6UBE6UEUBCSR2 VECTOR$ UDA508DUUDAIP2 Vector$BR6 Burst_Rate?7UNA117XECSR3 VECTOR$ BR2VS1007VSVB CSR2 VECTOR$ BR6VS1257VSVB CSR2 VECTOR$ BR6VS3007VSVB CSR2 VECTOR$ BR6VT502TT VT522TT VT552TT VT1002TT VT2202TT VT2402TT IOPOST ACP ERRORqr.EXE;0 [SYSMAINT]!AS!AS!/!File too large = !XL, max = !XL!/?? Error clearing event flags.LOOPI!/?? Sequencing error. Should be in test !UW.!UW, reached test !UW.!UW.!/T!/.. End of run, !UW error!%S detected, !UL loop!%S, test !UL.!UL,!/ time is !%D!/i}\H i}RP i}RT i} RX i}*R\ i}4R`/u/uQtbtsttttttttuu/u/uGRP0 DATA BYTE 0GRP0 DATA BYTE 1GRP0 DATA BYTE 2GRP1 DATA BYTE 0GRP1 DATA BYTE 1GRP1 DATA BYTE 2GRP0 ADDRESS BYTE 0GRP0 ADDRESS BYTE 1GRP0 ADDRESS BYTE 2GRP1 ADDRESS BYTE 0GRP1 ADDRESS BYTE 1GRP1 ADDRESS BYTE 2NO ERRORS FORCEDTu`uluqu No Response AcknowledgeBusyErroruDDuDuuD Read DataCommand/Address Write DataInterrupt Summary ReadDv'vD4vDDJvavDDovDDDD Read Masked Write MaskedInterlock Read MaskedInterlock Write Masked Extended ReadExtended Write MaskedvvvDDDDDDDDDDDDD Read DataCorrected Read DataRead Data Substitute]NESTED ERROR,CS PE SUMMARY,G2,G1,G0,EALU N,EALU Z,ALU N,ALU Z,ALU C31,6,5,4,PERF MON EN,2,1,0XREPLACE BOTH,G1,G0,G1,G0,FS,ADS,MCT3,MCT2,MCT1,MCT0,IBWCHK,AR,G1,G0,5,4,3,2,1,MEM MAN ENf1D2,1D1,1D0,0D2,0D1,0D0,1A2,1A1,1A0,0A2,0A1,0A0,CP TB PE,7,LAST TB WRP,5,BAD IPA,MISS,PE,PROT E,AUTO LMODE=2@,PROT CHECKBIT31,BIT30,BIT29,BIT28,BIT27,BIT26,BIT25,BIT24,BIT23,BIT22,BIT21,BIT20,BIT19,BIT18,BIT17,BIT16,RDS INT EN,CRD,RDS,CP TO,CP TO ST1,CP TO ST0,BIT9,CP ERR CNF,IB RDS,IB TO,IB TO ST1,IB TO ST0,IB ERR CNF,MULT ERROR,NOT BUSY,BIT0fANY ERROR,CP ERROR,G1 B0,G1 B1,G1 B2,G1 B3,G0 B0,G0 B1,G0 B2,G0 B3,G0 B0,G0 B1,G0 B2,G1 B0,G1 B1,G1 B2PARITY FAULT,BIT30,UNEXP RD,BIT28,MULT XMIT,XMIT FAULT,EFP,BIT24,BIT23,BIT22,BIT21,BIT20,FAULT LATCH,FAULT INT EN,FAULT SIGNAL,FAULT LOCK,BIT15,BIT14,BIT13,BIT12,BIT11,BIT10,BIT9,BIT8,BIT7,BIT6,BIT5,BIT4,BIT3,BIT2,BIT1,BIT0SILO LOCK,SILO INT EN,LOCK UNCOND,LOCK CODE=2^O,MASK=4^X,TAG=3^O,COUNT=4^D,BIT15,BIT14,BIT13,BIT12,BIT11,BIT10,BIT9,BIT8,BIT7,BIT6,BIT5,BIT4,BIT3,BIT2,BIT1,BIT0REV P0,WR SEQ FAULT,UNEXP RD,MULT XMIT,MAINT ID=5^D,FORCE SBI INVALID,ENABLE SBI INVALID,REVERSE CP CODE=4^X,FORCE MISS G0,FORCE MISS G1,FORCE REP G0,FORCE REP G1,DISABLE SBI,REV P1,G1 MATCH,G0 MATCH,FORCE TO,BIT7,BIT6,BIT5,BIT4,BIT3,BIT2,BIT1,BIT0}AFTER FAULT,INTLK,ID=5^D,TAG=3@,FUNCTION=4@,CNF=2@,TR15,TR14,TR13,TR12,TR11,TR10,TR9,TR8,TR7,TR6,TR5,TR4,TR3,TR2,TR1,TR0/HOLD~AFTER FAULT,INTLK,ID=5^D,TAG=3@,MASK CODE=4@,CNF=2@,TR15,TR14,TR13,TR12,TR11,TR10,TR9,TR8,TR7,TR6,TR5,TR4,TR3,TR2,TR1,TR0/HOLD{AFTER FAULT,INTLK,ID=5^D,TAG=3@,MASK =4^X,CNF=2@,TR15,TR14,TR13,TR12,TR11,TR10,TR9,TR8,TR7,TR6,TR5,TR4,TR3,TR2,TR1,TR0/HOLD%!/?? !AC !AC THROUGH VECTOR: !XB(X)!/COUNT:!_!_!_!XL(X)!/SUMMARY PARAMETER:!_!XL(X)!/!CPU ERROR STATUS:!_!XL(X)!_;!AC!/TRAPPED MICRO PC:!_!XL(X)!/VA/VIBA:!_!_!XL(X)!/D REGISTER:!_!_!XL(X)!/TBER0:!_!_!_!XL(X)!_;!AC!/TBER1:!_!_!_!XL(X)!_;!AC!/-TIME.ADDR:!_!_!XL(X)!_;!AC, SBI ADDR=!XL(X)!/PARITY:!_!_!_!XL(X)!_;!AC!/SBI.ERR:!_!_!XL(X)!_;!AC!/!_!_!_!_!_;!AC = !AC!/!_!_!_!_!_;!AC = !XL(X)!/,CP READ TIMEOUT/SBI ERROR CONFIRMATION !AC!/CP TBUF PARITY ERROR !AC!/CP CACHE PARITY ERROR !AC!/ CP RDS !AC!/INTERRUPT PC: !XL(X)!/%SBI ERROR REGISTER:!_!_!XL(X)!_;!AC!/%SBI FAULT REGISTER:!_!_!XL(X)!_;!AC!/'SBI COMPARE REGISTER:!_!_!XL(X)!_;!AC!/)SBI MAINTENANCE REGISTER:!_!XL(X)!_;!AC!/ENTRY !ZB(D):!_!XL(X)!_;!AC!/FAULTABORT EXCEPTION INTERRUPT MACHINE CHECK MACHINE CHECK LOGOUT: UNKNOWN MACHINE CHECK CODE IB TBUF PARITY ERROR FAULT .IB READ TIMEOUT/SBI ERROR CONFIRMATION FAULT IB CACHE PARITY ERROR FAULT CS PARITY ERROR ABORT CP MICRO CODE SEQUENCE ERROR CS PARITY ERROR(S)ARITHMETIC TRAP CODE AST LEVEL FORCE REPLACE FORCE TB MISSLAST REFERENCETB HITFORCE TB PARITY ERROR SBI ADDRESSDATA PARITY OKADDRESS PARITY OKTB PARITY ERROR BITSIPASBI SILO COMPARE SBI CRD/RDS SBI ALERT SBI FAULTSBI CPU TIMEOUTRESERVEDSBI REGISTER DUMP:!/. SBI SILO DUMP:LEAST CURRENT TO MOST CURRENT!/MEMALCCANNOT GET FREE COREMEMMGT6?? Only !UL pages memory present, 1024 are required.!/(9Oe [!+!SL-!SL(D)]  [!+!OL-!OL(O)]  [!+!XL-!XL(X)]  [(!SL), !SL-!SL(D)]  [(!OL), !OL-!OL(O)]  [(!XL), !XL-!XL(X)] +?? There is no default for this parameter!/?? Invalid response!/?? Low gtr high at PC=!XL!/?? Out of range or overflow!/?? Illegal character!/ [(Yes), No] [(No), Yes] PCSLOAD*?? Command not valid for this supervisor!/|QACHECKS9!/**QA ERROR** Program requested operator intervention.!//!/**QA ERROR** Error reported in cleanup code!/!/**QA ERROR** Error reported!/(**QA ERROR** Normal start check failed!/)**QA ERROR** Multiple pass check failed!/1**QA ERROR** Infinite loop-on-test check failed!/4**QA ERROR** Infinite loop-on-subtest check failed!/A**QA ERROR** Run individual tests in reverse order check failed!/%!^!/!/!25** QUALITY ASSURANCE !26**!/&!10* !38 REV: !UL.!UL!/ !23* !%D!/!/!28* Normal Start!/!/!28* Multiple Pass!/!/!24* Infinite Loop-On-Test!/!/!!22* Infinite Loop-On-Subtest!/!/!25* Run Tests Backwards!/!/9!/**QA Internal Error: Normal Start, Illegal Hook_Point!/:!/**QA Internal Error: Multiple Pass, Illegal Hook_Point!/9!/**QA Internal Error: Loop on Test, Illegal Hook_Point!/R2: !8XL(X)!2* R3: !8XL(X)!2* R4: !8XL(X)!2* R5: !8XL(X)!/>R6: !8XL(X)!2* R7: !8XL(X)!2* R8: !8XL(X)!2* R9: !8XL(X)!/>R10: !8XL(X)!2* R11: !8XL(X)!2* AP: !8XL(X)!2* FP: !8XL(X)!/.SP: !8XL(X)!2* PC: !8XL(X)!2* PSW: !8XW(X)!/!/SHOW FLAGS:!/!/SHOW EVENT FLAGS:!/!/SHOW DEVICE:!/!/SHOW SELECTED:!/;!/**QA Internal Error: Invalid call frame. FP = !XL(X).!/!/L!/**QA Internal Error: Cannot follow stack frames back to the diagnostic!/!/$!/QA$Main Entry, Hook_Point = !UL.!/D!/**QA Internal Error: No check state bit set - GET routine called!/!/QA_Main: Init_Context done!/9!/**QA Internal Error: QA$Main: No check state bit set.!/(!^!/!/!11* Overall Error Summary Table!/"!11* ---------------------------!/(QA Checklist Item!16* Number of Errors!/!17*-!16* !16*-!/!41!UW!/*!41!UW!/2!41!UW!/5!41!UW!/#!41!UW!/H!/** QA ** !16AC passed Auto-QA portion of Quality Assurance Checklist!/QIO/?? Unknown QIO function or channel number zero.?<?!?? DRIVER !AS NOT FOUND FOR !AS!/,?? IDENT MISMATCH, !AS=!UW, SUPERVISOR=!UW!/*?? !AC IS INCORRECT ADAPTER TYPE FOR !AS!/  DW780RH780DW750RH750DW730DR780CSA0:[SYSMAINT];0consoleconsoleRP04RP05RP06RP07RM03RM05RM80TM03TE16TU45TU77}TM78TU78RB730RL02R80UDA50RA80RA81RA60Ҏ׎܎RK611RK06RK07RL11RL02TS11TS04TS05TU80TU81CI_NODEDISKECI_NODETAPE\LESIRC25RCF25qvTK50E@M@U Z _ d i n s x  ̎$).38= LTdl|SCBSCRIPT.COM@ !AC!AD!/!AC!AC!AS!/Skipping ..."!AD"!/!AS!AD!/"Prompt "!AC" not found in script!/!22 : !AC!/!22 : !AC!AC!/!22 : !AC!AC!/!22 : !AC!/!22 : !AC!AC!/ !22 : !AC!/ Reserved pageDiagnostic SupervisorKernel Interrupt Executive SupervisorUser stack base SPP0P1System Page Table base Page Table length (longwords)$Pages in P0 space in use for buffers$Pages in P1 space in use for buffers(Pages in System space in use for buffersAvailable buffer space Beginning of diagnostic regionEnd of loaded diagnosticbelow SupervisorAPT Ptext buffer APT Mailbox Beginning of End of Supervisor load imagePHD Hardware PCBJIBARB Software PCBSCBStart of Supervisor memory poolStart of IRP Look-aside listTop of run-time above SupervisorBottom of debugger( (includes allocation for symbol tables)Top of debuggerTop of physical memory0?? Error, negative number of pages specified!! START?!/.. Program: !AC, revision !UL.!UL, !UL test!%S,!/ at !%T.!/0!/.. Aborted program at pass !UL, !AS, PC !XL.!/(!/.. Aborted program at pass !UL, !AS.!/!/ !/.. Test !UB: !AC *!/?? Only !UL test!%S, check test range.!/8?? No units to test, none selected with device type(s)!/!/?? No program loaded.!/-!/?? Illegal section name, should be one of!//!/?? Ambiguous section name, should be one of!/&!AC contains the following sections:!/Testing: !#(7AS)!/=?? This rev of diagnostic will not run with this supervisor!/)!/?? No device support list in program.!/h15-NOV-1984 17:02:47.654!/DIAGNOSTIC SUPERVISOR. ZZ-ESSAA-7.1-1261 !20%D!/7.1-1261DS> P  DP  DXȟȟПП؟؟ * ll01-JAN-1978 0:0:0.0̨pP~ <d$ze@RvH!?? S@MKתLoading debugger...!/Debugger loaded at !XL!/2?? 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The program can not be CONTINUEd. Format: ABORT 1 ATTACH Specifies the hardware characteristics of, and the path to, a UUT (Unit Under Test) to be used by the Supervisor and/or by a program. Each device has a "link", which it attaches to. Unless this link is the HUB (or SBI, CMI, or other legal synonyms thereof), the link device must have been previously attached itself. Therefore, the ATTACH database grows in a branching tree structure, outwards from the main system bus. Type "HELP DEVICE" for detailed information on ATTACHing a particular device known to the Supervisor, or "HELP program DEVICE" for information on ATTACHing a device specific to a program. Format: ATTACH UUT-type link-name generic-name [device-specific] 2 Parameters UUT-type The standard hardware designator for the device to be attached. Examples: RH780, DW780, TE16, RK07 link-name The generic device name connecting the UUT, usually through intermediate links, to the main bus. Examples: DW0, RH0, MTA, HUB, DMA generic-name Uniquely identifies the particular device being ATTACHed, by device mnemonic, and controller and unit if appropriate. Examples: DW0, RH0, DMA0, TTB1, MTA Type "HELP SPECIFY DEVICE" for information on generic name conventions. device-specific Some devices require specialized information to allow the Supervisor or program to access the device correctly. For example, a device attached directly to the HUB requires HUB TR (slot) and BR numbers; a device attached directly to the UNIBUS requires UNIBUS CSR, vector, and BR numbers. If information required for a device is not included in the ATTACH command, the Supervisor will prompt individually for the required data. Type "HELP DEVICE" or "HELP program DEVICE" for information on devices. 1 CLEAR Alters characteristics of Supervisor and/or program by clearing flags, breakpoints, etc. Format: CLEAR option 2 BREAKPOINT Clears the program breakpoint set at the specified address Format: CLEAR BREAKPOINT address 3 Parameters address The address at which the breakpoint was set, or the keyword "ALL" to remove all breakpoints. 2 ENFORCE Disables device name enforcment. It will cause VDS to behave as it did prior to this enhancement. CLEAR ENFORCE is the default condition when VDS is run under control of APT. See HELP SET ENFORCE for an example. Format: CLEAR ENFORCE 2 EVENT Causes event flags to be cleared. Some programs utilize event flags to specify non-standard program options. Format: CLEAR EVENT [FLAGS] arg-list 3 Parameters arg-list A list of event flag numbers, from decimal 1 to 23, to be cleared; separated by commas. Or, alternatively, the keyword "ALL" will clear all event flags. 2 FLAGS Causes the Supervisor control flags to be cleared. The "FLAGS" keyword is optional and may be omitted. Format: CLEAR [FLAGS] arg-list 3 Parameters arg-list A list of flag names to be cleared, separated by commas. Type "HELP SPECIFY FLAGS" for information on flag keywords and their significance. 1 CONTINUE Continue program execution from where it was halted due to halt-on-error or ^C interrupt. Format: CONTINUE 1 CONTROL-C Interrupts execution of Supervisor or diagnostic program and enters Supervisor command wait state. Execution can be resumed by CONTINUE or terminated by ABORT (ABORT has no effect if a Supervisor function was interrupted). Format: ^C 1 CRD The CUSTOMER RUNNABLE DIAGNOSTIC (CRD) Package is a VAX Diagnostic Supervisor supported test system that allows an inexperienced user the capability of verifying proper hardware operation by executing VAX Diagnostics. It provides quick isolation of failures to the subsystem level. o Off-Line AUTOTEST VAX-11/730 supported and verifies the operation of CPU, VMS system disk, and diagnostic load disk. It is invoked ONLY IN CONSOLE MODE by typing "T" to the Console prompt. Successful completion initiates CRD Off-line Menu. For more information type to Supervisor prompt "HELP ENSAB AUTO". o Off-line MENU VAX-11/730 supported and verifies operation of all subsystems including options. The Menu format provides a simple interface to select and test one or all VAX subsytems. It is invoked in Console mode by typing "T/M" to the Console prompt, or in Supervisor mode by typing "CRD" to the Supervisor prompt. For more information type to the Supervisor prompt "HELP ENSAB MENU". 1 DEATTACH Reverses the effect of an ATTACH command. The specified device Ptable is deleted. Since Ptables are linked in a tree-like fashion, the DEATTACH command, as well as 'de-attaching' the specified device, will de-attach all devices which have been attached to the specified device. For example, if the device DW0 had been attached to the HUB, and devices DMA and TTA had been attached to DW0, and devices DMA0 and TTA0 had been attached to them (respectively), the command 'DEATTACH/ADAPTER=HUB DW0' would cause deletion of DW0, DMA, TTA, DMA0, and TTA0. A message will be typed out for each device which is de-attached. The qualifier '/ADAPTER' is required, and may either precede or follow the device name. Format: DEATTACH/ADAPTER=link device [or] DEATTACH device /ADAPTER=link 2 Parameters device The generic name of the device to be de-attached. All devices which are linked to this device will also be de-attached. 2 Qualifiers /ADAPTER=link This qualifier is required for the DEATTACH command. It specifies the generic name of te device to which parameter 'device' is linked. For example, if device DW0 is to be de-attached from link HUB, the command would be 'DEATTACH/ADAPTER=HUB DW0'. 1 DEPOSIT Modifies the contents of a memory address. The data type and radix are specified by qualifiers or by data radix control (type "HELP SPECIFY RADIX" for radix control information). Format: DEPOSIT [qualifiers] address data 2 Parameters address Memory address (physical address if memory management is disabled, or virtual address if memory management is enabled) at which to deposit the data value. Specify address in current radix. Or a general register may be modified. Type "HELP SPECIFY REGISTER" for information. Or an internal processor register (IPR) may be modified. Type "HELP SPECIFY IPR" for IPR definitions. data Value in current radix to be deposited at the specified address. 2 Qualifiers /NEXT=n Deposit the data in the next n locations. n is a decimal number. /LONGWORD Alter a 4-byte data segment at address /WORD Alter a 2-byte data segment at address /BYTE Alter a 1-byte data segment at address /HEXADECIMAL Set default radix for command to hexadecimal (base 16). /DECIMAL Set default radix for command to decimal (base 10). /OCTAL Set default radix for command to octal (base 8). 1 DESELECT Specify that a device previously selected for testing is not to be tested. No program will be allowed access to the device until it is SELECTed. When a device is ATTACHed, it is deselected by default; and a device must have been previously attached before it can be manually DESELECTed. Format: DESELECT [Qualifiers] device-list 2 Parameters device-list A list of generic device names to be deselected, separated by commas. Or alternatively, the keyword "ALL" to deselect all devices. Type "HELP SPECIFY DEVICE" for device name syntax. 2 Qualifiers /ADAPTER=name Limit the DESELECT command to only affect devices which are attached to the device with generic name 'name'. For example, the command 'DESELECT/ADAPTER=HUB ALL' will deselect only devices attached directly to HUB (e.g., DW0, KA0). This does NOT include the link device itself, nor any devices attached to the deselected devices. 1 Devices As well as the "device-independent" parameters required by the ATTACH command for any device, most devices require device- dependent information. Type "HELP DEVICE device-designator" for information on a specific device, or "HELP DEVICE..." for a list of all devices' requirements. If the device is not listed here, it is known only within the diagnostic program(s) that use it; type "HELP program DEVICE" for information on it (e.g., "HELP EVRAA DEVICE"). Device parameters include the legal range of values in square brackets (e.g., "[decimal 4-7]" for BR level), and device standard values in angle brackets (e.g., "<776750>" for the AA11 CSR). 2 AA11K Description: AA11K 4-channel digital to analog converter link: DWn Generic name: AAan Additional information: UNIBUS CSR [octal 760000-777776]<776750> UNIBUS vector [octal 2-776]<140> UNIBUS BR level [decimal 4-7] Tested by: EVALB, EVALF 2 AD11K Description: AD11K 12-bit analog to digital converter link: DWn Generic name: ADan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVALF, EVALC 2 CI750 Description: CI750 11/750 computer interconnect port link: CMI Generic name: PAan Additional information: SLOT number [decimal 10-15] BR level [decimal 4-7] Node number [decimal 0-255] Tested by: ECCGA, ECCGB, ECCGC, ECCGD, ECCGE EVGAA, EVGAB 2 CI780 Description: CI780 11/780, 11/785 or 8600 computer interconnect port link: HUB or SIn Generic name: PAan Additional information: TR number [decimal 1-15] BR level [decimal 4-7] Node number [decimal 0-255] Tested by: EVCGA, EVCGB, EVCGC, EVCGD, EVGAA, EVGAB 2 CI_NODE Description: Device on the CI network link: PAan Generic name: name Additional information: Node_type [VAX780,VAX750,HSC50,KL10,CINT,VAX785,VAX8600] Node_address [decimal 0-255] Tested by: None 2 CR11 Description: CR11 Card reader link: DWn Generic name: CRan Additional information: UNIBUS CSR [octal 760000-777776]<777160> UNIBUS vector [octal 2-776]<230> UNIBUS BR level [decimal 4-7] Tested by: EVABA 2 DISK Description: HSC50 disk link: name (CI_NODE generic name) Generic name: name$DUan Tested by: None 2 DMC11 Description: DMC11 Synchronous single line interface link: DWn Generic name: XMan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDBA, EVDBB, ESDCA, EVDXA 2 DMF32A Description: DMF32 Asynchronous Port link: DWn Generic name: TXan Tested by: EVDAC, EVDLC 2 DMF32P Description: DMF32 Parallel Port link: DWn Generic name: LCa Tested by: EVDLD 2 DMF32S Description: DMF32 Synchronous Port link: DWn Generic name: XGan Tested by: EVDLA, EVDLB 2 DMP11 Description: DMP11 Multi-drop comm. interface link: DWn Generic name: XDan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDBA, EVDMA, EVDMB, EVDXA 2 DMR11 Description: DMR11 Synchronous single line interface link: DWn Generic name: XMan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDMA, EVDXA 2 DMZ32 Description: DMZ32 Asynchronous Multiplexer link: DWn Generic name: TXa Tested by: EVDAE, EVDAF 2 DN11 Description: DN11 Automatic calling unit interface link: DWn Generic name: DNan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 0-776] UNIBUS BR level [decimal 4-7] Y-OPTION [YES/NO] Z-OPTION [YES/NO] Tested by: EVDNB 2 DR11B Description: DR11B General purpose DMA interface link: DWn Generic name: XBan Additional information: UNIBUS CSR [octal 760000-777776]<772410> UNIBUS vector [octal 2-776]<124> UNIBUS BR level [decimal 4-7] Tested by: ESDRA, EVDRE 2 DR11K Description: DR11K General purpose parallel I/O interface link: DWn Generic name: XRan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVALD, EVALF 2 DR11W Description: DR11W General purpose DMA I/O interface link: DWn Generic name: XAan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDRB, EVDRE 2 DR750 Description: DR750 CMI parallel interface link: HUB Generic name: XFan Additional information: slot number [decimal 1-15] BR number [decimal 4-7] Self test [YES/NO] Test configuration [1CPU,2CPU] Test unit [YES/NO] Tested by: EVDFD, EVDFE, EVDFF, EVDFG, EVDFK ECDFA, ECDFB, ECDFK 2 DR780 Description: DR780 SBI parallel interface link: HUB or SIn Generic name: XFan Additional information: TR number [decimal 1-15] BR number [decimal 4-7] Self test [YES/NO] Test configuration [1CPU,2CPU] Test unit [YES/NO] Tested by: EVDFA, EVDFB, EVDFC, EVDFD, EVDFE, EVDFF, EVDFG, EVDFK 2 DUP11 Description: DUP11 Synchronous single line interface link: DWn Generic name: XWan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: ESDCA, EVDUP, EVDUQ 2 DW730 Description: DW730 11/730 UNIBUS adapter link: HUB Generic name: DW0 Tested by: micro-diagnostics only 2 DW750 Description: DW750 11/750 UNIBUS adapter link: HUB Generic name: DWn Tested by: ECCBA 2 DW780 Description: DW780 11/780, 11/785 or 8600 UNIBUS adapter link: HUB or SIn Generic name: DWn Additional information: TR number [decimal 1-15]<3> BR number [decimal 4-7]<5> NOTE: The unit number, n, should be the number of the UNIBUS address space specified in the UNIBUS Adapter Configuration Register. Special cases: DW780s should be attached to an 8600 as follows: to SI0: DW0, 1, 2, or 3 to SI1: DW4, 5, 6, or 7. This avoids the confusing case of having 2 DW0s on an 8600 system. Tested by: EVCBA 2 DZ11 Description: DZ11 Asynchronous multi-line communications interface link: DWn Generic name: TTa Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] MODULE TYPE [EIA/20MA] 2 DZ32 Description: DZ32 Asynchronous multi-line communications interface link: DWn Generic name: TTa Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDAB 2 IEU11A Description: IEU11-A Dual IEC/IEEE Bus Controller link: DWn Generic name: IXa Additional information: UNIBUS Base [octal 760000-777760] UNIBUS vector [octal 0-774] UNIBUS BR level [decimal 4-7] Tested by: EVCDB, EVCDC 2 KA730 Description: KA730 11/730 central processor link: HUB Generic name: KAn Additional information: Time-of-year clock? [Yes/No] WCS last address? [hex 0-FFFF] Accelerator type? [decimal 0-255] K-bytes of Main Memory? [decimal 0-5120] User WCS loaded? [Yes/No] SB errors? [Yes/No] Tested by: EVKAA, EVKAB, EVKAC, EVKAD, EVKAE, EVXBB, ENKAX 2 KA750 Description: KA750 11/750 central processor link: HUB Generic name: KAn Additional information: G-floating instructions? [Yes/No] H-floating instructions? [Yes/No] Time-of-year clock? [Yes/No] WCS last address? [hex 0-FFFF] Accelerator type? [decimal 0-255] Tested by: EVKAA, EVKAB, EVKAC, EVKAD, EVKAE, EVXBB, ECKAX 2 KA780 Description: KA780 11/780 central processor link: HUB Generic name: KAn Additional information: G-floating instructions? [Yes/No] H-floating instructions? [Yes/No] WCS last address? [hex 0-FFFF] Accelerator type? [decimal 0-255] Tested by: EVKAA, EVKAB, EVKAC, EVKAD, EVKAE, EVXBB 2 KA86 Description: KA86 8600 central processor link: HUB Generic name: KAn Additional information: G-floating instructions? [Yes/No] H-floating instructions? [Yes/No] WCS last address? [hex 0-FFFF] Accelerator type? [decimal 0-255] Tested by: EVKAA, EVKAB, EVKAC, EVKAD, EVKAE, EVXBB 2 KMC11 Description: KMC11 Auxiliary Communications Processor link: DWn Generic name: XKan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDHA, EVDXA 2 KMS11 Description: KMS11 Data Communications Link link: DWn Generic name: YYa Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] MODEMCSR [octal 760000-777776] Tested by: EVDHA, EVDHB, EVDIA, EVDIB, EVDIE, EVDJA, EVDKA 2 KMSYG Description: VAX to PDP11 communication link link: DWn Generic name: YGa Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDMF 2 KW11K Description: KW11K General purpose watchdog timer link: DWn Generic name: KWan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVALE, EVALF 2 LA34 Description: LA34 DECwriter IV printing terminal link: TTa Generic name: TTan Tested by: EVTAA, EVTBA, EVXBA 2 LA36 Description: LA36 DECwriter II printing terminal link: TTa Generic name: TTan Tested by: EVTAA, EVTBA, EVXBA 2 LA38 Description: LA38 link: TTa Generic name: TTan Tested by: EVTAA, EVTBA, EVXBA 2 LA120 Description: LA120 DECwriter III printing terminal link: TTa Generic name: TTan Tested by: EVTAA, EVTBA, EVXBA 2 LA180 Description: LA180 DECprinter I line printer link: LPa Generic name: LPan Tested by: EVAAA, EVXBA, EVXBB 2 LN01 Description: LN01 Laser line printer link: LCa Generic name: LCan Tested by: EVAAA 2 LP04 Description: LP04 Line printer link: LPa Generic name: LPan Tested by: EVAAA, EVXBA, EVXBB 2 LP05 Description: LP05 Line printer link: LPa Generic name: LPan Tested by: EVAAA, EVXBA, EVXBB 2 LP06 Description: LP06 Line printer link: LPa Generic name: LPan Tested by: EVAAA, EVXBA, EVXBB 2 LP11 Description: LP11 Line printer controller link: DWn Generic name: LPa Additional information: UNIBUS CSR [octal 760000-777776]<777514> UNIBUS vector [octal 2-776]<200> UNIBUS BR level [decimal 4-7] Tested by: EVAAA, EVXBA, EVXBB 2 LP14 Description: LP14 Line printer link: LPa Generic name: LPan Tested by: EVAAA, EVXBA, EVXBB 2 LP25 Description: LP25 Line printer (band) link: LPa Generic name: LPan Tested by: EVAAA 2 LPA11K Description: LPA11K Laboratory subsystem controller link: DWn Generic name: LAan Additional information: UNIBUS CSR [octal 760000-777776]<770460> UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVALA, EVDXA 2 MA780 Description: MA780 11/780, 11/785 or 8600 Multi-port memory controller link: HUB or SIn Generic name: MAn Additional information: TR number [decimal 1-15] BR number [decimal 4-7] MPM [decimal 0-3] PORT [decimal 0-3] Tested by: ESCCA, EVXBB 2 MBE Description: MBE Massbus exerciser link: RHn Generic name: MBan Additional information: drive [decimal 0-7] Tested by: ESCCA, EVXBA 2 ML11 Description: ML11 Solid state disk link: RHn Generic name: EMan Additional information: Array boards [decimal 1-16] Chip size [16K, 64K] Tested by: EVXBA, EVRAA, EVRAC, EVRBA, EVRCA, EVXBB 2 MS750 Description: MS750 11/750 memory controller link: HUB Generic name: MSn Additional information: BR number [decimal 4-7] Tested by: ECKAM, EVXBB 2 MS780 Description: MS780 11/780, 11/785 or 8600 memory controller link: HUB or SIn Generic name: MSn Additional information: TR number [decimal 1-15] Number of Arrays [decimal 0-16] Tested by: EVXBB 2 PCL11 Description: PCL11-B Parallel communications link link: DWn Generic name: XPn Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDPC, EVDPD, EVDPE, ESDPA, ESDPB 2 R80 Description: R80 fixed media disk (IDC) link: DQa Generic name: DQan Tested by: EVRAA, EVRAD, ENRGA, ENRKA 2 RA60 Description: RA60 removable media SDI disk link: DUa Generic name: DJan Tested by: EVRLA, EVRLB 2 RA80 Description: RA80 fixed media SDI disk link: DUa Generic name: DUan Tested by: EVRLA, EVRLB 2 RA81 Description: RA81 fixed media SDI disk link: DUa Generic name: DUan Tested by: EVRLA, EVRLB 2 RB730 Description: Nebula IDC disk controller link: HUB Generic name: DQa Tested by: micro-diagnostics 2 LESI Description: UNIBUS to disk controller link: DWn Generic name: DAa Additional information: IP (CSR) [octal 760000-777774] UNIBUS vector [octal 4-774] UNIBUS BR level [decimal 4-7] Tested by: 2 RC25 Description: RC25 removable media disk link: DAa Generic name: DAan Tested by: EVRMB, EVRMA 2 RCF25 Description: RCF25 fixed media disk link: DAa Generic name: DAan Tested by: EVRMB, EVRMA 2 RH750 Description: RH750 11/750 Massbus adapter link: HUB Generic name: RHn Additional information: BR number [decimal 4-7]<5> Tested by: ECCAA 2 RH780 Description: RH780 11/780, 11/785 or 8600 Massbus adapter link: HUB or SIn Generic name: RHn Additional information: TR number [decimal 1-15]<8_> BR level [decimal 4-7]<5> Tested by: EVCAA, 2 RK06 Description: RK06 disk drive link: DMa Generic name: DMan Tested by: EVXBA, EVRAA, EVRAC, EVRAD, EVREF, EVREG 2 RK07 Description: RK07 disk drive link: DMa Generic name: DMan Tested by: EVXBA, EVRAA, EVRAC, EVRAD, EVREF, EVREG 2 RK611 Description: RK06/07 controller link: DWn Generic name: DMa Additional information: UNIBUS CSR [octal 760000-777776]<777440> UNIBUS vector [octal 2-776]<210> UNIBUS BR level [decimal 4-7]<5> Tested by: EVREA, EVREB, EVREC, EVRED, EVREE 2 RL01 Description: RL01 disk drive link: DLa Generic name: DLan Tested by: ? 2 RL02 Description: RL02 disk drive link: DLa (or DQa) Generic name: DLan (or DQan) Tested by: EVRAA, EVRAD, EVRFA, EVXBB 2 RL11 Description: RL01/02 controller link: DWn Generic name: DLa Additional information: UNIBUS CSR [octal 760000-777776]<774400> UNIBUS vector [octal 2-776]<160> UNIBUS BR level [decimal 4-7]<5> Tested by: EVRFA 2 RM03 Description: RM03 disk drive link: RHn Generic name: DRan Tested by: EVXBA, EVRAA, EVRAC, EVRAD, EVRDA, EVRDB 2 RM05 Description: RM05 disk drive link: RHn Generic name: DRan Tested by: EVRAA, EVRAC, EVRAD, EVRDA, EVRDB 2 RM80 Description: RM80 disk drive link: RHn Generic name: DRan Tested by: EVRAA, EVRAD, EVRDA, EVRGA, EVRGB 2 RP04 Description: RP04 disk drive link: RHn Generic name: DBan Tested by: EVRAA, EVRAC, EVRAD, EVRBA, EVRCA, EVXBA, EVXBB 2 RP05 Description: RP05 disk drive link: RHn Generic name: DBan Tested by: EVRAA, EVRAC, EVRAD, EVRBA, EVRCA, EVXBA, EVXBB 2 RP06 Description: RP06 disk drive link: RHn Generic name: DBan Tested by: EVRAA, EVRAC, EVRAD, EVRBA, EVRCA, EVXBA, EVXBB 2 RP07 Description: RP07 disk drive link: RHn Generic name: DRan Tested by: EVRAA, EVRAD, EVRHA, EVRHB, EVRHC 2 RUX50 Description: UNIBUS to SDI controller link: DWn Generic name: DUa Additional information: IP (CSR) [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVRNB 2 RX02 Description: RX02 floppy drive link: DYa Generic name: DYan Tested by: EVRAA, EVRAC 2 RX180 Description: RX180 floppy drive link: DUa Generic name: DUan Tested by: EVRNB 2 RX31 Description: RX31 floppy drive link: DUa Generic name: DUan Tested by: EVRNB 2 RX32 Description: RX31 floppy drive link: DUa Generic name: DUan Tested by: EVRNB 2 RX50 Description: RX50 floppy drive link: DUa Generic name: DUan Tested by: EVRNB 2 RX211 Description: RX01/02 floppy controller link: DWn Generic name: DYa Additional information: UNIBUS CSR [octal 760000-777776]<777170> UNIBUS vector [octal 2-776]<264> UNIBUS BR level [decimal 4-7]<5> Tested by: EVRIA 2 SBIA Description: SBIA Synchronous Backplane Interconnect Adapter link: HUB Generic name: SIn Additional information: The VAX 8600 supports a dual-sbi configuration. Each SBI that exists must be attached to HUB as follows: for SBIA0 "ATTACH SBIA HUB SI0" for SBIA1 "ATTACH SBIA HUB SI1" Next, any adapter such as DW780, DR780, RH780, or CI780, is attached to either SI0, or SI1. Special cases: DW780s should be attached to an 8600 as follows: to SI0: DW0, 1, 2, or 3 to SI1: DW4, 5, 6, or 7. WARNING: DW0 and DW4 should not be attached to the same SBIA since they translate to the same Unibus address space. Likewise for DW1 and 5, DW2 and 6, and DW3 and 7. Tested by: EDCLA 2 TE16 Description: TE16 magtape drive link: MTa Generic name: MTan Tested by: EVMAA, EVMAB, EVMAC, EVXBA, EVXBB 2 TM03 Description: TM03 Tape subsystem controller/formatter link: RHn Generic name: MTa Additional information: drive number [decimal 0-7] Tested by: EVMAC 2 TM78 Description: TU78 tape subsystem controller link: RHn Generic name: MFa Additional information: drive number [decimal 0-7] Tested by: EVMAE 2 TS11 Description: TS11/TS04 tape subsystem link: DWn Generic name: MSa0 Additional information: UNIBUS CSR [octal 760000-777776]<772520> UNIBUS vector [octal 2-776]<224> UNIBUS BR level [decimal 4-7]<5> Tested by: EVMAA, EVMAD, EVXBB 2 TU45 Description: TU45 magtape drive link: MTa Generic name: MTan Tested by: EVMAA, EVMAB, EVMAC, EVXBA, EVXBB 2 TU58 Description: TU58 DECtape II tape drive link: DWn Generic name: DDan Additional information: UNIBUS CSR [octal 760000-777776]<776500> UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVRAA 2 TU77 Description: TU77 magtape drive link: MTa Generic name: MTan Tested by: EVMAA, EVMAB, EVMAC, EVXBA, EVXBB 2 TU78 Description: TU78 tape drive link: MFa Generic name: MFan Tested by: EVMAA 2 TU80 Description: TU80 tape subsystem link: DWn Generic name: MSa0 Additional information: UNIBUS CSR [octal 760000-777776]<772520> UNIBUS vector [octal 2-776]<224> UNIBUS BR level [decimal 4-7]<5> Tested by: 2 UBE Description: UBE Unibus exerciser link: DWn Generic name: UBan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: ECCBA, EVXBA, ESCCA, EVCBA 2 UDA50 Description: UNIBUS to SDI controller link: DWn Generic name: DUa Additional information: UDAIP (CSR) [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Burst Rate [decimal 0-63] Tested by: EVRLA 2 UNA11 Description: UNIBUS to NI adapter link: DWn Generic name: XEan Additional information: UNIBUS CSR [octal 760000-777776] UNIBUS vector [octal 2-776] UNIBUS BR level [decimal 4-7] Tested by: EVDWA, EVDWB 2 VT50 Description: VT50 Video terminal link: TTa Generic name: TTan Tested by: EVTAA, EVTBA 2 VT52 Description: VT52 Video terminal link: TTa Generic name: TTan Tested by: EVTAA, EVTBA 2 VT55 Description: VT55 Video terminal link: TTa Generic name: TTan Tested by: EVTAA, EVTBA 2 VT100 Description: VT100 Video terminal link: TTa Generic name: TTan Additional information: Tested by: EVTAA, EVTBA 1 DIRECTORY Type out a list of files which match the specified file specification (type HELP SPECIFY FILE-SPEC for information on file specifications). The filename and/or filetype can be wildcarded with the "*" (matching any sequence of characters), or the "%" (matching any single character) characters. The other fields (device, directory, and version) can NOT be wildcarded. If filename or filetype are not specified, they default to "*". Format: DIRECTORY [qualifiers] [device:][[directory]]filename.filetype;version 2 Parameters device The device from which to type directory. The device must have been previously ATTACHed. In user mode, it must also have been mounted under VMS. directory If the device is directory formatted, specifies the directory to list. The directory name must be enclosed in brackets. It can include subdirectories separated by ".". The original default is the directory from which which the Supervisor was loaded in standalone (either [SYSMAINT] Or [SYSx.SYSMAINT] where "x" is a hex digit); or the [SYSMAINT] account on the current SYS$DISK on-line. Note that as a special case, if SYS$DISK translates to the form "device:[.SYSx]" where "x" is a hex digit, the VDS default will be "device:[SYSx.SYSMAINT]". Examples: DIRECTORY DMA0:[SYSMAINT] DIRECTORY MTA0:.EXE DIRECTORY [DS]E%SAA DIR/WIDE 2 Qualifiers /WIDE Changes the directory display to one filename per line. This switch should be used to display long filenames which would normally be truncated. 1 EXAMINE Displays the contents of the data segment at the specified address, in the current radix and data type. Type "HELP SPECIFY RADIX" for radix information. Format: EXAMINE [qualifiers] address 2 Parameters address Memory address in current radix (physical address if memory management is disabled, virtual address if memory management is enabled). Alternatively, specify a general register (type "HELP SPECIFY REGISTER" for information) or an internal processor register (IPR) (type "HELP SPECIFY IPR" for information on IPR's). 2 Qualifiers /NEXT=n Type the contents of the next n data segments from the specified address. n is a decimal number. /LONGWORD examine a 4-byte data segment /WORD examine a 2-byte data segment /BYTE examine a 1-byte data segment /HEXADECIMAL Type data segment in hexadecimal radix (base 16). /DECIMAL Type data segment in decimal radix (base 10). /OCTAL Type data segment in octal radix (base 8). /ASCII Type data segment as ascii characters 1 EXIT This command causes the Supervisor to terminate. In an on-line mode (under VMS), the Supervisor will execute a $EXIT system service to return to DCL. In standalone mode, the Supervisor will execute a HALT instruction; typing the console CONTINUE command will resume Supervisor execution. Format: EXIT 1 HELP The Supervisor HELP command types out information regarding the Supervisor or a diagnostic program. After reading a specially formatted file from the default load device, it types the information for the topic(s). Help is obtained from EVSAA.HLP by default. If a diagnostic program name is specified as the topic, then help is extracted from the program-name.HLP file. The Supervisor HELP facility allows three types of "wildcards". Type HELP SPECIFY HELP for more information on both wildcarding and the allowable topic formats. Help can be obtained on a particular topic by typing: HELP topic subtopic subsubtopic (etc.) 1 INITPCS Reloads the 11/750 PCS with the patches contained in the file PCS750.BIN which is found on the console TU58. If the file is not found on the console TU58, the supervisor's onboard copy of the patches are loaded into the PCS. Note that the supervisor's onboard copy of patches are loaded into the PCS at supervisor boot time. Format: INITPCS 1 LOAD Load a program image into memory from a device. Format: LOAD file-spec 2 Parameters file-spec File specification for the file to be loaded. (Type "HELP SPECIFY FILE-SPEC" for details on file specification format). The file type defaults to ".EXE". 1 NEXT Executes the next n single machine instructions starting at the current PC. After the instruction(s) is executed, the Supervisor will display the new PC and the next 4 bytes at that address (the next instruction opcode, plus operand specifiers and/or further opcodes). Use NEXT to step through a section of code where a problem is suspected. You can not use NEXT unless the program has been stopped at a breakpoint! Format: NEXT [n] 2 Parameters n decimal number of instructions to execute. Defaults to 1. 1 QA The Diagnostic Supervisor has the capability to automatically perform specific Quality Assurance (QA) checks on diagnostic programs. One should read the "VAX Diagnostic Quality Assurance Checklist" for an explanation of the QA checks. Four Supervisor commands have been enhanced to affect QA. The RUN and START commands cause QA to be performed on a diagnostic program. The SET command allows one to control portions of the QA process by setting certain QA default values. The SHOW command allows one to see the current settings of these values. In the current implementation, four QA checks are performed. These four are the Normal Start check, the Multiple Pass check, the Loop on Test check, and the Run Backwards check. A QA error results from the diagnostic program reporting an error or attempting to ask the operator for input when the no-default flag has been used. If no QA errors are found in the aforementioned checks, QA will print an overall error summary table and then abort the diagnostic. If a QA error is found, information will be printed that should help the diagnostic engineer find out why QA failed. Also, the overall error summary table is printed and the diagnostic is aborted. 2 RUN The RUN command can be used to QA a diagnostic program. The /QA qualifier causes the program to undergo a number of QA checks. 3 Qualifiers /QA The /QA qualifier on the RUN command causes the Supervisor to automatically QA the diagnostic program. QA will execute until either a QA error is found or until all the QA checks have finished. The /PASSES, /TEST, and the /SUBTEST qualifiers are ignored if the /QA qualifier is used. The /SECTION qualifier may be used to run QA on a particular section. 2 SET The SET command allows one to control, to a certain extent, the QA process. There are five QA "flags" that can be set to various values. Only two of these flags have any effect in the current implementation. The QAERRORPRINTS flag, the QASUBTESTLOOPS flag, and the QACKLOOPLOOPS flag are not currently used when QAing a diagnostic, although the SET command will allow one to set these flags. Format: SET option [dec-value] 3 QACKLOOPLOOPS This QA flag controls the number of times that QA will cause a $DS_CKLOOP Supervisor macro to be executed in the QA Error checks. Format: SET QACKLOOPLOOPS dec-value 4 Parameters dec-value The dec-value must be in the range of 2 to 32767. The dec-value must be specified. The default for the QACKLOOPLOOPS flag is 2. That is, each $DS_CKLOOP macro in the diagnostic program will be executed dec-value times. 3 QADEFAULTS This QA flag allows one to set all the QA flags to their default values. The default values for each of the QA flags are as follows: QACKLOOPLOOPS: 2 QAERRORPRINTS: 10 QAMULTIPLEPASS: 10 QASUBTESTLOOPS: 100 QATESTLOOPS: 100 Format: SET QACKLOOPLOOPS 3 QAERRORPRINTS This QA flag controls the number of times that QA will print a specific diagnostic error message in the QA Error checks. Format: SET QAERRORPRINTS dec-value 4 Parameters dec-value The dec-value must be in the range of 2 to 32767. The dec-value must be specified. The default for the QAERRORPRINTS flag is 2. That is, each $DS_ERRxxxx macro in the diagnostic program will be executed dec-value times (where xxxx is DEV, HARD, SOFT, or SYS). 3 QAMULTIPLEPASS This QA flag controls the number of passes that the diagnostic will execute in the QA Multiple Pass check. Format: SET QAMULTIPLEPASS dec-value 4 Parameters dec-value The dec-value must be in the range of 1 to 32767. The dec-value must be specified. The default for the QAMULTIPLEPASS flag is 10. That is, in the Multiple Pass check, the diagnostic will be executed as if dec-value PASSES had been requested. 3 QASUBTESTLOOPS This QA flag controls the number of times that each subtest is executed in the QA Loop on Subtest check. Format: SET QASUBTESTLOOPS dec-value 4 Parameters dec-value The dec-value must be in the range of 1 to 32767. The dec-value must be specified. The default for the QASUBTESTLOOPS flag is 100. That is, each subtest in the diagnostic program will be executed dec-value times. 3 QATESTLOOPS This QA flag controls the number of times that each test is executed in the QA Loop on Test check in this check. Format: SET QATESTLOOPS dec-value 4 Parameters dec-value The dec-value must be in the range of 1 to 32767. The dec-value must be specified. The default for the QATESTLOOPS flag is 100. That is, each test in the diagnostic program will be executed dec-value times. 2 SHOW The SHOW command prints the current settings of the QA flags. There are five QA "flags" that can be set to various values. Only two of these flags have any effect in the current implementation. The QAERRORPRINTS flag, the QASUBTESTLOOPS flag, and the QACKLOOPLOOPS flag are not currently used when QAing a diagnostic, although the SHOW command will allow one to see the current settings of these flags. Format: SHOW option 3 QACKLOOPLOOPS This command will print the current setting of the QACKLOOPLOOPS QA flag. The value of the flag is printed in decimal radix. Format: SHOW QACKLOOPLOOPS 3 QADEFAULTS This command will print the default settings of all the QA flags. The values are printed in decimal radix. Note that the values printed are not the current settings of the flags. Format: SHOW QADEFAULTS 3 QAERRORPRINTS This command will print the current setting of the QAERRORPRINTS QA flag. The value of the flag is printed in decimal radix. Format: SHOW QAERRORPRINTS 3 QAMULTIPLEPASS This command will print the current setting of the QAMULTIPLEPASS QA flag. The value of the flag is printed in decimal radix. Format: SHOW QAMULTIPLEPASS 3 QASUBTESTLOOPS This command will print the current setting of the QASUBTESTLOOPS QA flag. The value of the flag is printed in decimal radix. Format: SHOW QASUBTESTLOOPS 3 QATESTLOOPS This command will print the current setting of the QATESTLOOPS QA flag. The value of the flag is printed in decimal radix. Format: SHOW QATESTLOOPS 2 START The START command can be used to QA a diagnostic program. The /QA qualifier causes the program to undergo a number of QA checks. 3 Qualifiers /QA The /QA qualifier on the START command causes the Supervisor to automatically QA the currently loaded diagnostic program. QA will execute until either a QA error is found or until all the QA checks have finished. The /PASSES, /TEST, and the /SUBTEST qualifiers are ignored if the /QA qualifier is used. The /SECTION qualifier may be used to run QA on a particular section. 1 RUN Load a program image into memory from a device and cause execution of the image, by passing control first to the program's initialization code and then sequentially to each test within the selected section. Format: RUN file-spec [qualifiers] 2 Parameters file-spec file specification for file to be run. Type "HELP SPECIFY FILE-SPEC" for file specification details. The file type defaults to ".EXE". 2 Qualifiers /SECTION=section-name Select a program section to be executed. This must be a section defined by the program (Type "HELP program SECTIONS" for information on the sections implemented by a particular program). If the SECTION qualifier is not used, the section named DEFAULT, which must be present in all programs, is executed. Only those tests defined by the programmer to be within the specified section are executed. Examples: RUN EVRAA/SECTION=SEEK RUN EVXBA /SEC:DEFAULT /SUBTEST=num /TEST=first[=last] The value first defines a test number, within the selected section, at which to begin program testing. No lower numbered tests will be execute. If the value last is also used, it defines the highest number test to execute. Alternatively, the value first may be used alone, specifying only the starting test number. If so, the /SUBTEST=num qualifier can be used (note that the /SUBTEST qualifier otherwise is meaningless and should not be used). When this form is used, execution will begin at test first. If the /SUBTEST qualifier was used, execution will proceed until subtest num is encountered. If the /PASSES=count qualifier is also used, the program will repeatedly loop on that one subtest until termination, once the subtest has been reached once. If the /SUBTEST qualifier is not used, testing continues to the last test of the section. If the /TEST qualifier is not used, first defaults to 1, and last defaults to the highest test number in the selected section. The values first, last, and num are decimal numbers. /PASSES=count After program execution, as defined by use of other qualifiers, has been completed, count is decremented and execution continues; the program will loop through the specified cycle count times. As a special case, if the count is zero, the program will loop indefinitely. If the /PASSES qualifier is not used, count defaults to 1 unless the SEARCH flag is set, in which case count defaults to infinity. Type "HELP SPECIFY FLAGS SEARCH" for information on the SEARCH feature. /QA Use of this qualifier causes the diagnostic program to undergo a number of Quality Assurance checks. Type 'HELP QA RUN /QA' for more information. 1 SCRIPT A script is an ascii file of Supervisor and/or program input lines, each line prefixed by the exact prompt which it is to answer (e.g., a command line to the Supervisor must begin with the string "DS> "). These lines will be interpreted and echoed at the console. When a script file is completed, "@ " will be typed to signify that control has passed out of the script. A script may invoke another script, and will continue when the script it invoked has completed. When all scripts have been completed, control returns to the console. If a script is interrupted by typing ^C, any active scripts are flushed, and can not be continued. Scripts are loaded into memory when invoked; therefore the media need not remain on-line during execution of the script. Note that this is distinct from the use of a VMS script file which must not include prompt strings, which can only be utilized in user mode, does require an on-line media, and will cause termination of the Supervisor when it completes. Also, a VMS command file must cause execution of the Supervisor, and can not be invoked from within the Supervisor. Format: @file-spec 2 Parameters file-spec The filename to be loaded as a script. The file extension defaults to ".COM". 1 SELECT Specify that a device may be accessed for testing by a diagnostic program. A device must be ATTACHed before it can be selected. When a device is ATTACHed it is deselected by default. In user mode, the device will be allocated by the Supervisor if the device Ptable descriptor so specifies. Format: SELECT [Qualifiers] device-list 2 Parameters device-list A list of generic device names to be selected, separated by commas. Or alternatively, the keyword "ALL" to select all devices. 2 Qualifiers /NOALLOCATE The devices specified will not be allocated when selected. /ADAPTER=name Limit the SELECT command to only affect devices which are attached to the device with generic name 'name'. For example, the command 'SELECT/ADAPTER=HUB ALL' will select only devices attached directly to HUB (e.g., DW0, KA0). This does NOT include the link device itself, nor any devices attached to the selected devices. 1 SET Alters characteristics of the Supervisor and/or program by setting flags, default values, breakpoints, etc. Format: SET option 2 BASE Set a base value which will be added to all address input to the EXAMINE, DEPOSIT and SET or CLEAR BREAKPOINT commands. This is useful for referencing location offsets within a routine, loadable I/O driver, etc. Format: SET BASE offset 3 Parameters offset An address value in the current radix by which subsequent address-type input is modified. The initial offset is 0. Type "SET BASE 0" to remove an offset once set. 2 BREAKPOINT Set a breakpoint at the specified address. Program execution will be interrupted immediately prior to execution of the instruction at that address, and control passed to the Supervisor command wait state. Format: SET BREAKPOINT address 3 Parameters address An address value in the current radix at which to set the breakpoint. The address is affected by the SET BASE command. 2 DEFAULT Alters the default data type and radix for the EXAMINE and DEPOSIT commands. Format: SET DEFAULT arg-list 3 Parameters arg-list A radix and/or data type specifier. If only one is used, the other is not affected. If both are used, they may be in either order and must be separated by commas. The initial default is HEX and LONG. Radix: HEXADECIMAL, DECIMAL, OCTAL Data type: BYTE, WORD, LONG Example: SET DEFAULT DECIMAL, BYTE 2 ENFORCE Enables device name enforcement. It is the default condition when VDS starts, EXCEPT when running under APT. WARNING% - Some old scripts or diagnostic programs may not function with ENFORCE set. Format: SET ENFORCE Example: DS>SET ENFORCE DS>ATTACH RP06 HUB DB0 ?? Error in controller part of name, format should be "DBan" Device name? ^C DS>CLEAR ENFORCE DS>ATTACH RP06 HUB DB0 DS>SHOW DEVICE _DB0 RP06 HUB 00000000 2 EVENT Set event flag(s). Some programs utilize event flags as control flags for non-standard options. Format: SET EVENT [FLAGS] arg-list 3 Parameters arg-list A list of event flag numbers, from decimal 1 to 23, to be set; separate them by commas. Or, the keyword "ALL" may be used to set all event flags. Examples: SET EVENT 1,20 SET EVENT FLAGS 3 SET EVENT ALL 2 FLAGS Causes Supervisor control flags to be set. The "FLAGS" keyword is optional. Format: SET [FLAGS] arg-list 3 Parameters arg-list A list of flag names to be set, separated by commas. Type "HELP SPECIFY FLAGS" for information on specifying flag keywords, and their significance. 2 LOAD Alter the default load device and/or directory. Format: SET LOAD [device:][[directory]] 3 Parameters device The device from which files are to be loaded. The device must have been previously ATTACHed. directory If the device is directory formatted, specifies the directory to load files from. The directory name must be enclosed in brackets. The original default is directory [SYSMAINT] on the device from which the Supervisor was loaded. Example: SET LOAD DMA0:[SYSMAINT] 2 MM Turn processor memory management on or off. Format: SET MM state Examples: SET MM ON SET MM OFF 3 Parameters state Specify whether memory management is to be turned ON or OFF 2 MEMORY Change the amount of total physical memory available to the supervisor and diagnostic programs. The command will not be accepted in user mode. Format: SET MEMORY n 3 Parameters n The unit of measurement for "n" is pages of memory. The value of "n" must be greater than or equal to zero, but less than the last value specified for total available physical memory. Total available physical memory may be reset to the actual available physical memory by using a value of zero for "n". A value greater than the actual available physical memory will be accepted but not used. 2 PAGE Set the terminal page size. When the specified number of lines have been printed, output is stopped and the user must respond to a prompt in order to continue output. Format: SET PAGE n 3 Parameters n The number of lines which will be printed on the terminal before the user is prompted for more. The default value is zero, which indicates that no paging will be done. 2 QACKLOOPLOOPS Set the QACKLOOPLOOPS QA flag. Type 'HELP QA SET QACKLOOPLOOPS' for more information. Format: SET QACKLOOPLOOPS dec-value 2 QADEFAULTS Set the QA flags to their default values. Type 'HELP QA SET QADEFAULTS' for more information. Format: SET QADEFAULTS 2 QAERRORPRINTS Set the QAERRORPRINTS QA flag. Type 'HELP QA SET QAERRORPRINTS' for more information. Format: SET QAERRORPRINTS dec-value 2 QAMULTIPLEPASS Set the QAMULTIPLEPASS QA flag. Type 'HELP QA SET QAMULTIPLEPASS' for more information. Format: SET QAMULTIPLEPASS dec-value 2 QASUBTESTLOOPS Set the QASUBTESTLOOPS QA flag. Type 'HELP QA SET QASUBTESTLOOPS' for more information. Format: SET QASUBTESTLOOPS dec-value 2 QATESTLOOPS Set the QATESTLOOPS QA flag. Type 'HELP QA SET QATESTLOOPS' for more information. Format: SET QATESTLOOPS dec-value 2 WIDTH Set the terminal width. When the print head (or cursor) reaches the column number set, a carriage return and linefeed will be forced. Format: SET WIDTH n 3 Parameters n A number from 1 to 132 inclusive. The default terminal width is 80. 1 SHOW Examine current value of flags, breakpoints, etc. Format: SHOW option 2 BASE Display the current BASE value (in hex). Format: SHOW BASE 2 BREAKPOINTS All breakpoints currently set will be displayed. Format: SHOW BREAKPOINTS 2 DEFAULT Show the current default values for radix and data type (as in the SET DEFAULT command). Format: SHOW DEFAULT 2 DEVICE List characteristics of ATTACH-ed devices. The display format is: generic device-type link HUB-addr device-specific Example output: _TTA DZ11 _DW0 6013E050 CSR=00000760120(O) - VECTOR=00000000000(O) BR=4. Format: SHOW [Qualifiers] DEVICE [Qualifiers] [arg-list] 3 Parameters arg-list List of device generic names to be displayed, separated by commas. If no parameters are given, all devices are displayed. Examples: SHOW DEVICE SHOW DEV DMA0, LPA0:, DLA0 3 Qualifiers /ADAPTER=name Limit the scope of the SHOW DEVICE command to devices which are attached to the device 'name'. If no arg-list is given, all devices attached to the named device are listed; if arg-list is given, the named devices will be displayed only if they are attached to the specified adapter. This allows devices with identical names, but on different adapters, to co-exist (e.g., multiple DECnet paths to a given node). /BRIEF Type only the name of each device, rather than all parameters. 2 EVENT Show state of event flags. Those flags currently set are listed. Format: SHOW EVENT [FLAGS] 2 FLAGS Show current state of control flags. Both currently set and currently clear flags are displayed. Type "HELP SPECIFY FLAGS" for description of control flags. Format: SHOW FLAGS 2 LOAD Display current default load device and directory. Format: SHOW LOAD 2 MEMORY Show current memory map. Shows the addresses of various important sections of the Diagnostic Supervisor and diagnostic, as well as physical memory size. Format: SHOW MEMORY [/Qualifiers] 3 Qualifiers /ALL Combines the effects of /MAP, /DATA_STRUCTURE, and /BUFFER /BUFFER Shows the size and location of memory available for diagnostic buffers (through $DS_GETBUF service). Only meaningfull if a diagnostic is loaded. In on-line mode (under VMS), only the buffer space below the Diagnostic Supervisor is shown. /DATA_STRUCTURE This qualifier causes listing of internal data structures, including SCB, Page tables, etc. Most of this data is shown only in standalone mode. /MAP This qualifier is the default if no qualifiers are present. It causes the Diagnostic Supervisor to list only the major components of the diagnostic system, and the physical memory size if system is standalone. 2 MM Show current state of memory management (on or off). Format: SHOW MM 2 PAGE Show current terminal page size. Format: SHOW PAGE 2 QACKLOOPLOOPS Show the current setting of the QACKLOOPLOOPS QA flag. Type 'HELP QA SHOW QACKLOOPLOOPS' for more information. Format: SHOW QACKLOOPLOOPS 2 QADEFAULTS Show the default settings (not necessarily the current settings) of the QA flags. Type 'HELP QA SHOW QADEFAULTS' for more information. Format: SHOW QADEFAULTS 2 QAERRORPRINTS Show the current setting of the QAERRORPRINTS QA flag. Type 'HELP QA SHOW QAERRORPRINTS' for more information. Format: SHOW QAERRORPRINTS 2 QAMULTIPLEPASS Show the current setting of the QAMULTIPLEPASS QA flag. Type 'HELP QA SHOW QAMULTIPLEPASS' for more information. Format: SHOW QAMULTIPLEPASS 2 QASUBTESTLOOPS Show the current setting of the QASUBTESTLOOPS QA flag. Type 'HELP QA SHOW QASUBTESTLOOPS' for more information. Format: SHOW QASUBTESTLOOPS 2 QATESTLOOPS Show the current setting of the QATESTLOOPS QA flag. Type 'HELP QA SHOW QATESTLOOPS' for more information. Format: SHOW QATESTLOOPS 2 SECTIONS Display the section names supported by the currently loaded diagnostic. If no diagnostic is loaded, a message is typed to that effect. Format: SHOW SECTIONS 2 SELECTED List the characteristics of all currently selected devices. The display format is: generic device-type link HUB-adr device-specific Format: SHOW [Qualifiers] SELECTED [Qualifiers] 3 Qualifiers /BRIEF Type only the name of each device, rather than all parameters. 2 STATUS Show the status of the running diagnostic (current section, pass, test, subtest, time, error count, and PC). If no diagnostic is running, a message will be typed to that effect. This command may be used when a diagnostic is Control-C'd to check test progression; the diagnostic may then be CONTINUE'd. Format: SHOW STATUS 2 SUPPORT List the device types supported by the currently loaded diagnostic. If no diagnostic is loaded, a message will be typed to that effect. Format: SHOW SUPPORT 2 WIDTH Show current terminal width setting. Format: SHOW WIDTH 2 TESTS Displays the number and title of each test in the currently loaded diagnostic program. Format: SHOW TESTS 1 Specify 2 Device A device name has the general format "GGan", where "GG" is a two alphabetic character string generally derived from the hardware designation. "a" is an alphabetic character denoting the controller number, and "n" is a decimal number from 0 to 255, specifying which unit number the device responds to on it's controller. "a" and/or "n" may be used, when appropriate for the device. Devices which do not have controllers as such will use "n", for devices attached directly to the main bus (e.g., RH0, MS0, KA0), or "an" where "a" is arbitrary, for devices at subsidiary levels (e.g., XMA0). 2 File-Spec File specifications have the format: device:[directory]filename.filetype;version The punctuation marks and brackets are required to separate the fields. All but filename may be omitted to allow default values. field contents syntax default ----- -------------- ------- ------- device device name GGan: (last SET LOAD) directory directory name [directory] (last SET LOAD) filename file name filename none filetype file type .type command-dependent version file version ;n highest numbered NOTE The directory field may include subdirectories, in the form [directory.subdirectory.subdirectory...]. 2 Flags Supervisor flags are represented by keywords. For the SET and CLEAR FLAGS commands, any keywords may be used, or the additional keyword "ALL". "ALL" will set or clear all control flags except SEARCH and BINARY, which must be controlled individually. 3 BELL Bell on error. When set, this flag will cause the Supervisor to transmit a bell character (ASCII 7) to the console whenever the program detects an error. 3 BINARY When this flag is set, each message (including prompts) output by the Supervisor will begin with a one byte type code field. This type code will specify the class of the message (e.g., ERRHARD, ERRSYS, command error, etc.). It should not be set by human operators, and is intended only for use by programs such as EVXBB which interact directly with the Supervisor. 3 HALT Halt on error. When a program detects an error and if this flag is set, the Supervisor enters command wait state after all error messages associated with the failure (and which are enabled) have been output. The operator may then CONTINUE, ABORT, or START. This flag has precedence over LOOP. 3 IE1 Inhibit error messages at level 1. When set, this flag supresses all error messages except those specially forced by the program or by the Supervisor via a $DS_PRINTF call. 3 IE2 Inhibit error messages at level 2. When set, this flag supresses basic and extended information concerning the failure. Only the first 3 lines (header) of the message are typed for each failure. 3 IE3 Inhibit error messages at level 3. When set, this flag supresses extended information concerning the failure. The header and basic information messages are typed for each failure. 3 IES Inhibit summary report. When set, this flag supresses statistical report messages. 3 LOOP Loop on error. When set, this flag causes the program to enter a predetermined scope loop on a test or subtest which detects a failure. Set the IE1 flag to inhibit error messages, thus speeding up the loop. Looping will continue until the operator returns control to the Supervisor with a ^C command. The operator may then CONTINUE with or without first clearing the LOOP flag; or ABORT the program. 3 OPERATOR Operator present. When set, this flag informs the program that tests requiring human intervention can be performed. When this flag is clear, programs will avoid such tests. 3 PROMPT Display long dialogue. When set, this flag indicates to the Supervisor that the operator wants to see the limits and defaults for all questions asked by the program. 3 QUICK Quick verify. When set, this flag indicates to the program that the operator wants a quick verify mode of operation. The interpretation of this flag is dependent on the program. Type "HELP program QUICK" for a program's interpretation of QUICK. 3 SEARCH Enable error search mode. When set, this flag causes automatic test limit modification. When an error is reported by a test, the upper test limit is set to the previous test. With an "infinite" pass count (the default when the SEARCH flag is set), the testing cycle will eventually be reduced to include only those lowest numbered tests which do not fail; providing device exerciser at the highest level of functionality. 3 TRACE Report the execution of each test. When set, this flag causes the Supervisor to print the number and title of each test before dispatching control to the test. 3 VERIFY When this flag is set, commands and prompts within SCRIPT files will be echoed to the output console or file. This is analogous to the VMS 'SET VERIFY' and 'SET NOVERIFY' commands. It does not affect command read from a VMS script, only commands within a file passed to the Supervisor via an '@ filespec' command. This flag is cleared by default. 2 Help Help can be obtained on a particular topic by typing: HELP topic subtopic subsubtopic (etc.) For information on specifying topics and subtopics, type HELP SPECIFY HELP TOPICS_AND_SUBTOPICS. The Supervisor HELP command supports "wildcards". The wildcards supported by the Supervisor include "*", "%", and "...". Type HELP SPECIFY HELP WILDCARDS for more information. Type HELP SPECIFY ABBREVIATIONS for help on using abbreviations for the topics and subtopics. 3 Abbreviations Abbreviations (which do not include wildcarded characters) result in all matches being displayed. For example, the following two commands are equivalent: HELP S HELP S* For information on one specific topic (subtopic), the topic (subtopic) may be abbreviated to the least number of characters that distinguishes that topic (subtopic) from another. 3 Examples Below are some examples of Supervisor HELP commands: HELP HELP ATTACH * HELP EVRAA DEVICE ... HELP EXA HELP DEVICE LP1% HELP S* HELP SPECIFY ... HELP SPECIFY HELP EXAMPLES 3 Topics_And_Subtopics A topic can have the following formats: 1) An alphanumeric string (e.g., a command name, option) 2) An alphanumeric string preceded by a "/" (interpreted as a qualifier) 3) As in 1) or 2), with embedded "*" or "%" to specify a wildcarded topic 4) Any of the above followed by "...", causing all remaining topic levels to act as if they were "*". 5) The first topic may be a diagnostic program name, in which case all following topic keys are promoted (subtopic becomes topic, etc.) and help text is extracted from the appropriate diagnostic help file. 3 Wildcards A topic or subtopic can contain the following embedded wildcard characters: o "*" matches anything o "A*" matches all words beginning with "A" o "*A" matches all words ending with "A" o "A*A" matches all words beginning and ending with "A" o "*A*" matches all words containing an "A" o "A%C" matches any 3-character word beginning with "A" and ending with "C" In addition, a topic (subtopic) followed by "..." causes all remaining topic (subtopic) levels to act as if they were "*". 2 IPR Internal Processor Registers (IPRs) can only be accessed in standalone mode, as use of privileged instructions (MFPR and MTPR) is required. They are specified by the character "P" suffixed by a number in the current radix. Note as a special case that IPR C (hex) cannot be accessed by "PC" which would refer to general register 15, but may be accessed as "P12" decimal, or as "P0C" or "P%XC" to force hexadecimal interpretation (Type "HELP SPECIFY RADIX" for more radix control information). 3 Mnemonics-definitions Register name mnemonic dec hex access processor ---------------------- -------- --- --- ------ ------------ Kernel stack pointer KSP 0 0 R/W all Executive stack pointer ESP 1 1 R/W all Supervisor stack pointer SSP 2 2 R/W all User stack pointer USP 3 3 R/W all Interrupt stack pointer ISP 4 4 R/W all P0 Base Register P0BR 8 8 R/W all P0 Length Register P0LR 9 9 R/W all P1 Base Register P1BR 10 A R/W all P1 Length Register P1LR 11 B R/W all System Base Register SBR 12 C R/W all System Limit Register SLR 13 D R/W all Process Control Blk Base PCBB 16 10 R/W all System Control Blk Base SCBB 17 11 R/W all Interrupt Priority Level IPL 18 12 R/W all AST Level ASTLVL 19 13 R/W all Sftware Interrupt Request SIRR 20 14 W all Sftware Interrupt Summary SISR 21 15 R/W all CMI Error Status CMIERR 23 17 R 750 Interval Clock Control ICCS 24 18 R/W all Next Interval Count NICR 25 19 W all Interval Count ICR 26 1A R all Time Of Year TODR 27 1B R/W all (option) Console Storage R/S CSRS 28 1C R/W 750/730 Console Storage R/D CSRD 29 1D R 750/730 Console Storage T/S CSTS 30 1E R/W 750/730 Console Storage T/D CSTD 31 1F W 750/730 Console Receiver C/S RXCS 32 20 R/W all Console Receiver D/B RXDB 33 21 R all Console Transmit C/S TXCS 34 22 R/W all Console Transmit D/B TXDB 35 23 W all Trnsltn Buffr Grp Disable TBDR 36 24 R/W 750/730 Cache Disable CADR 37 25 R/W 750/730 Machine Chk Error Summary MCESR 38 26 R/W 750/730 Cache Error CAER 39 27 R/W 750/730 Accelerator C/S ACCS 40 28 R/W all Accelerator Maintenance ACCR 41 29 R/W 780 WCS address WCSA 44 2C R/W 780 WCS data WCSD 45 2D R/W 780 SBI Fault/Status SBIFS 48 30 R/W 780 SBI Silo SBIS 49 31 R 780 SBI Silo Comparator SBISC 50 32 R/W 780 SBI Maintenance SBIMT 51 33 R/W 780 SBI Error Register SBIER 52 34 R/W 780 SBI Timeout Address SBITA 53 35 R 780 SBI Quadword Clear SBIQC 54 36 W 780 Initialize UNIBUS UBRESET55 37 W 750/730 Memory Management Enable MAPEN 56 38 R/W all Trans. Buf. Inv. All TBIA 57 39 W all Trans. Buf. Inv. Single TBIS 58 3A W all Translation Buffer TB 59 3B R/W 750 Micro Program Breakpoint MBRK 60 3C R/W 780 Performance Monitor Enb. PMR 61 3D R/W all System Identification SID 62 3E R all Translation Buffer Check TBCHK 63 3F W all PAMM Access PAMACC 64 40 R/W 8600 PAMM Location PAMLOC 65 41 R/W 8600 Cache Sweep CSWP 66 42 R/W 8600 MBOX Data ECC MDECC 67 43 R/W 8600 MBOX Error Enable MENA 68 44 R/W 8600 MBOX Data Control MDCTL 69 45 R/W 8600 MBOX MCC Control MCCTL 70 46 R/W 8600 MBOX Error Generator MERG 71 47 R/W 8600 Console Reboot CRBT 72 48 W 8600 Diagnostic Fault Insert DFI 73 49 W 8600 Error Handling Status EHSR 74 4A R/W 8600 Console Block Storage C/S STXCS 76 4C R/W 8600 Console Block Storage D/B STXDB 77 4D R/W 8600 EBOX Scratchpad Address ESPA 78 4E W 8600 EBOX Scratchpad Data ESPD 79 4F R 8600 2 Radix Most numeric values and addresses may be input in any convenient radix, except where specified (e.g., UNIBUS device CSR and vector addresses are always octal, TR and BR numbers are always decimal). For the EXAMINE and DEPOSIT commands, permanent default radix may be set with the SET DEFAULT command, or the default for a single command may be set using qualifiers. More generally, a radix may be specified by prefixing a number with a radix specifier: %Xn causes n to be interpreted as hexadecimal %Dn causes n to be interpreted as decimal %On causes n to be interpreted as octal Examples: %O100 = octal 100 %X4F = hexadecimal 4F %D80 = decimal 80 2 Register General registers are specified by appending the decimal register number (0 to 15) to the character "R". Or, R15 may be specified as "PC", R14 as "SP", R13 as "FP", and R12 as "AP". 1 START Execute an image previously loaded either by the LOAD command or by a previous RUN command. Execute the image by passing control first to the program's initialization code and then sequentially to each test within the selected section. Format: START [qualifiers] 2 Qualifiers /SECTION=section-name Select a program section to be executed. This must be a section defined by the program (Type "HELP program SECTIONS" for information on the sections implemented by a particular program). If the SECTION qualifier is not used, the section named DEFAULT, which must be present in all programs, is executed. Only those tests defined by the programmer to be within the specified section are executed. Examples: START /SECTION=SEEK START /SEC:DEFAULT /SUBTEST=num /TEST=first[=last] The value first defines a test number, within the selected section, at which to begin program testing. No lower numbered tests will be execute. If the value last is also used, it defines the highest number test to execute. Alternatively, the value first may be used alone, specifying only the starting test number. If so, the /SUBTEST=num qualifier can be used (note that the /SUBTEST qualifier otherwise is meaningless and should not be used). When this form is used, execution will begin at test first. If the /SUBTEST qualifier was used, execution will proceed until subtest num is encountered. If the /PASSES=count qualifier is also used, the program will repeatedly loop on that one subtest until termination, once the subtest has been reached once. If the /SUBTEST qualifier is not used, testing continues to the last test of the section. If the /TEST qualifier is not used, first defaults to 1, and last defaults to the highest test number in the selected section. The values first, last, and num are decimal numbers. /PASSES=count After program execution, as defined by use of other qualifiers, has been completed, count is decremented and execution continues; the program will loop through the specified cycle count times. As a special case, if the count is zero, the program will loop indefinitely. If the /PASSES qualifier is not used, count defaults to 1 unless the SEARCH flag is set, in which case count defaults to infinity. Type "HELP SPECIFY FLAGS SEARCH" for information on the SEARCH feature. /QA Use of this qualifier causes the currently loaded diagnostic to undergo a number of Quality Assurance checks. Type 'HELP QA START /QA' for more information. 1 SUMMARY Dispatch control to the program's summary-generating code. The effects of this command are program-dependent. Type "HELP program SUMMARY" for information on the summary of a particular program. 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