MAI COMPANY CONFIDENTIAL FIELD INFORMATION BULLETIN SERVICE GROUP(S): MINI MFG: BASIC FOUR NACS TYPE(S): N003 MFG. MODEL(S): MPx & ASxx Systems CATEGORY: HANDBOOKS DESC: Handbook *** TABLE OF CONTENTS AS OF 07/13/93 *** FIB 00001.Software Functions..........................................01/05/90 FIB 00002.Diagnostics Information.....................................10/05/89 FIB 00003.7xxx/8xxx Series Bootstrap Status Word/Error Codes..........05/29/87 FIB 00004.9xxx Series Bootstrap Status Word/Error Codes...............06/25/90 FIB 00005.I/O Devices Address Switch Settings.........................07/29/87 FIB 00006.PCBA Plugging Charts........................................08/07/89 FIB 00007.Lowest Acceptable Revision Levels (LARL)....................01/30/91 FIB 00008.ACS PCBA (7xxx/8xxx Systems)................................06/23/88 FIB 00009.AMS PCBA (9xxx Systems).....................................05/05/89 FIB 00010.AUXILIARY PCBA (810 Systems)................................05/29/87 FIB 00011.BMTC PCBA (7xxx/8xxx Systems)...............................06/10/93 FIB 00012.BMTC PCBA (9xxx & ASxx Systems).............................06/10/93 FIB 00013.COMPUTING ENGINE PCBA (810 Systems).........................05/29/87 FIB 00014.DATA PCBA (810 Systems).....................................05/29/87 FIB 00015.DMA-I PCBA (9xxx Systems)...................................10/30/87 FIB 00016.ESTK PCBA (9xxx Systems)....................................10/30/87 FIB 00017.IDC & IDC-64 PCBA (9xxx Systems)............................01/11/88 FIB 00018.LANC PCBA (9xxx Systems)....................................05/29/87 FIB 00019.MCS PCBA....................................................01/26/89 FIB 00020.MDI PCBA (7xxx/8xxx Systems)................................05/29/87 FIB 00021.MEMORY PCBAs, 1/2 MB and 1 MB...............................09/14/88 FIB 00022.MEMORY PCBAs, 2 MB and 4 MB.................................10/22/87 FIB 00023.MPC PCBA - 903500-001 (7xxx Systems)........................02/22/88 FIB 00024.MPC PCBA - 903546-001 (7xxx Systems)........................10/05/92 FIB 00025.NIMLC PCBA - 903381-001 (810/7xxx/8xxx Systems).............02/22/88 FIB 00026.NIMLC PCBA - 903381-001 (9xxx System).......................03/29/89 FIB 00027.NIMLC PCBA - 903534-001 (810/7xxx/8xxx Systems).............06/23/88 FIB 00028.NIMLC PCBA - 903534-001 (9xxx and ASxx Systems).............03/29/89 FIB 00029.N8WAY PCBA (810/7xxx/8xxx Systems)..........................05/02/88 FIB 00030.N8WAY PCBA (9xxx Systems)...................................09/25/87 FIB 00031.N16WAY PCBA (7xxx/8xxx Systems).............................07/17/90 FIB 00032.N16WAY PCBA (9xxx and Advanced Series Systems)..............07/17/90 FIB 00033.SMDI and SMDII PCBAs........................................08/16/91 FIB 00034.TDP PCBA (7xxx/8xxx Systems)................................08/03/87 FIB 00035.VCON PCBA...................................................05/29/87 FIB 00036.WCS.PCBA (810 Systems)......................................05/29/87 FIB 00037.Memory Time-out & Parity Dump Analysis......................06/01/88 FIB 00038.Disk formatting and defective track assignment..............09/18/87 FIB 00039.MEMORY PCBA - 4/8/16 MB (9xxx & ASxx Systems)...............10/20/88 FIB 00040.DMA-II/SCSI Controller PCBA and SCSI Embedded Disk (9xxx/ASx01/31/91 FIB 00041.Bootable O.S. & Diagnostic Tape Information.................01/11/90 FIB 00042.MBA PCBA - 903617-001 (ASxx Systems)........................09/13/88 FIB 00043.MCS/M PCBA..................................................10/11/89 FIB 00044.NEP PCBA ASxx Systems.......................................12/01/89 FIB 00045.STACHE PCBA - ASxx Systems..................................09/13/88 FIB 00046.DMA III PCBA - (ASxx Systems)...............................06/26/89 FIB 00047.1,x,y,5 & 1,x,y,6 MEM Pty & Timeout Dump Analysis - ASxx Sys09/19/88 FIB 00048.System Hang/Dump Recovery Procedures [ WPSF 506 ]..........02/18/92 FIB 00049.MODE SENSE PARAMETERS FOR SCSI DRIVES.......................06/23/92 HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------Table Of Contents Pg01 of 01 FIB 00001 01/05/90 *** Software Functions *** Due to the ongoing changes in BOSS/VS, this section of the handbook will not be maintained as a step-by-step OS installation procedure. Instead, use the Software Announcement document for the level of BOSS/VS which applies each time. If the customer does not have a copy of the Software Announcement, it should be available to you in the F.I.B. BOSS/VS section of the SOFTWARE category. Also, each new BOSS/VS tape issued by MBF contains a copy of the file which can be submitted for printing. This file is named as follows: LEVELS PRIOR TO n.6C o (Family name).+ release + .INST.DOC.SA + last 2 characters of release. n.6C AND LATER LEVELS o (Family name).+ release +.INST.DOC.ANNOUNCE + last 2 characters of release.. *** EXAMPLES *** (DISK).R6A13.INST.DOC.SA6A = Software Announcement file for n.6A (DISK).R6C15.INST.DOC.ANNOUNCE6C = Software Announcement file for n.6C o It is highly recommended that this file (along with the Errors List and diagnostic information files) be printed at each installation and kept in a binder for future reference. o If you are updating the system to a new O.S. level, the Software Announcement can be restored from tape using SAVERESTORE, and the full file name used as the file specifier. o The new Software Announcement can then be SUBMITted to the SPOOLER and printed prior to starting the update. * The following is a method to obtain a Errors List (four-tuple listing): o While in console mode with a ! prompt, enter: DISPLAY $WHERE(ERRORS.LIST) (press CR) o The system will respond with the ERRORS.LIST fully qualified name (as follows): (DISK).R5C15.SYS.ERRORS.LIST (press CR) o Now enter SUBMIT followed by the above system response (as follows): SUBMIT (DISK).R5C15.SYS.ERRORS.LIST (press CR) o The Errors List will print on the first available 'P' printer. o Also, remember that the error message for a specific four-tuple (from the error list file) can be obtained by entering !ERR followed by the four-tuple code as shown below: !ERR 21,1,1,16 HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB001 Pg001 o The system will respond with the error message for the four-tuple entered. * Consult the presite information package from the MBF Branch Sales office for system/data disk configuration, disk family set-up, special port configurations, and horizontal software packages to be installed if this is an MBF Branch supported area. * Use the appropriate Software Announcement for OS installation and upgrade procedures. The following are some pointers to insure your success: 1. READ the prompts and understand them before responding. 2. Pay attention to the required responces. Do not type Y when YES is required or N when NO is required. 3. When difficulty is encountered or something is unclear in the Software Announcement call for assistance. 4. Get a print-out of the system terminal configuration PRIOR to beginning this procedure (if possible). o During the O.S. installation procedure, all communication with the system will be via Port 0 of the MCS PCBA. This is J10, the bottom connector of the MCS. However, if there is a High Speed Video controller installed in the CCA, then all communication will be on the first port on the first VCON. This is J0, the bottom connector of the VCON. * The size of the dump area is calculated as follows: Each megabyte of main memory.....1024 MCS four way controller............64 Each eight-way controller..........64 Each sixteen-way controller.......128 Each IMLC controller...............64 Each LAN controller................64 Each BMTC controller..............128 If this is a late level OS it will calculate the value for you and display it on the bottom of the screen. ADD 3000 TO THIS VALUE to allow for hardware upgrades without having to re-initialize the family. * Primary and secondary prefixs should be set as follows: on OS levels prior to n.6G (Family name). + release no. + .SYS.,. + release no. + .INST. EX. (DISK).R6A11.SYS.,.R6A11.INST. on OS level n.6G and later (Family name). + release no. + .SYS.,. + release no. + .DIAG. EX. (DISK).R6G43.SYS.,.R6G43.DIAG. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB001 Pg002 * Test load from all slots after OS installation is complete. NOTE: If OS level is n.6G and the customer has not signed the Diagnostic Product License Agreement, diagnostics must be removed from the system. Use the Diagnostic Removal procedure in the Software Announcement. ORIGINATOR: Norm Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB001 Pg003 FIB 00002 10/05/89 *** Diagnostics Information *** All available MPx Series diagnostics are documented via files contained in the INST.DOC. node on the OS disk for OS levels prior to R6Gxx. The files are . in the DIAG.DOC.node starting with release R6Gxx. A program named DOCWRITER is located under the same node. The purpose of DOCWRITER is to print or display the diagnostic files. Diagnostics are in the ().Rxzz.DIAG. node for releases starting with R6G43. To run NEWX your prefix must be set properly also. eg. ().R6G43.DIAG. or ().R6C11.INST. Using DOCWRITER: At each system installation site, a hardcopy of this documentation must be maintained. In order to obtain the hardcopy perform the following: 1. Get into console mode with a ! prompt displayed. 2. Enter SYSPREFIX and press CR. (A) The system will respond by displaying the System Prefix such as: ().R6A13.SYS. <- or -> ().R6A13.SYS.,.R6A13.INST. ().R6G43.SYS. <- or -> ().R6G43.SYS.,.R6G43.DIAG. 3. In order to set your prefix to that desired, enter the following: (A) PREFIX + a space + (). + Rxyzz + .INST. and press CR or for OS R6Gxx and later PREFIX + a space + (). + Rxyzz + .DIAG. and press CR Where xyzz = the O.S. release displayed in step 2 - eg. 6A13 EXAMPLE: PREFIX ().R6A13.INST. or PREFIX ().R6G43.DIAG. (B) The system will respond with "User Prefix Set" 4. Enter DOCWRITER and press CR DOCWRITER will run and display similar to that below: DOCWRITER-VERSION [6.1.29.2] DIAGNOSTIC USER'S MANUAL DOCUMENT WRITER NO. DOCUMENT SYSTEM DESCRIPTION 1.......DOCWRITER..7000-9500....User's Guide 2.......REMIDIA....9000,9500....Resident Micro Diagnostic 3.......REMIDIB....8000.........Resident Micro Diagnostic 4.......PROMIDIA...9000,9500....Production Micro Diagnostic 5.......PROMIDIB...8000.........Production Micro Diagnostic 6.......DEMON......7000-9500....Diagnostic Executive Monitor 7.......DCL........7000-9500....Diagnostic Command List 8.......NEWX.......7000-9500....Diagnostic Exerciser (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB002 Pg001 9.......MDLOAD.....7000-9500....IMLC & ISDC Mfg. Diagnostic 10.......PRTDIA.....7000-9500....IMLC - Printer Diagnostics 11.......MDTDIA.....7000-9500....IMLC - MDT Diagnostics 12.......PROMMPC....7000.........PROMIDI/MPC Diagnostics 13.......REMMPC.....7000.........REMIDI/MPC Diagnostics 14.......PROMLAN....7000-9500....PRMIDI LAN Diagnostics Note that option 1 is the DOCWRITER User's Guide. For complete DOCWRITER instructions and description information, print and refer to this document. Also note that some manuals are for the 7000-7100 series only, some are for the 8000 series only, some are for the 9000-9500 series only and some are for all MPx series. Option to print only those applicable to each particular site. *********************** NOTE ****************************** * * * THESE DOCUMENTS OFTEN CHANGE WITH AN O.S. LEVEL CHANGE. * * THEREFORE, THEY SHOULD BE PRINTED AGAIN AT EACH ACCOUNT * * WHEN IT IS UPGRADED TO A NEW O.S. LEVEL. * * * *********************************************************** Several of the diagnostics were designed for use by manufacturing testing and/or for component level repair purposes (see descriptions below). The following is a listing of those which the Field Engineer should need: DOCWRITER, REMIDI, DEMON, DCL, NEWX, PRTDIA, MDTDIA, REMMPC *** BRIEF DIAGNOSTICS DESCRIPTIONS *** REMIDIA and REMIDIB: REMIDI is the most basic micro diagnostic. The requirements for loading and running of this diagnostic are a working disk with the REMIDI slots written and at least one working computer engine set. When REMIDI is booted, WCS data is loaded into a processor and executed. System dedication is required. The main function of REMIDI is to test the processor(s)/memory functions. See the User's Manual for complete details. PROMIDIA and PROMIDIB: The PROMIDI diagnostics have been designed in such a way as to be able to identify functional faults on any of the Computer Engines PCBAs. The main use of PROMIDI is for component level repair. System dedication is required. DEMON: DEMON is an I/O controller, I/O device and CPU memory diagnostic. Before accepting inputs from the F.E., DEMON interrogates the system to find which devices are attached to the system. DEMON does not utilize the O.S configuration record. System dedication is required. See the User's Manual for complete details. DCL: The purpose of the Diagnostic Command List (DCL) program is to provide an on-line user selectable diagnostic capability. It allows the user to generate and execute I/O command sequences on the desired I/O device(s). This diagnostic can be run on-line and therefore does not require system dedication. See the User's Manual for complete details. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB002 Pg002 NEWX: NEWX is a menu driven, on-line I/O diagnostic. It is in many ways similar to the DEMON diagnostic. Since it is an on-line diagnostic system dedication is not required. See the User's Manual for complete details. MDLOAD: The purpose of MDLOAD is to provide a component level diagnostic for repair center use on the MCS, 8-way, 16-way, LAN, BMTC and IMLC controllers. PRTDIA: PRTDIA is a diagnostic used to test character printers attached to MDT type terminals which are attached to the system via an IMLC. This is an on-line diagnostic and therefore does not require system dedication. See the User's Manual for complete details. MDTDIA: MDTDIA is a diagnostic used to test the MDT terminal - including CPM/VDM memory. It also tests the data path to the MDT through the IMLC. This is an on-line diagnostic and therefore does not require system dedication. PROMMPC: PROMMPC is similar to PROMIDI and is used on the 7000-7100 series for component level repair of the MPC PCBA. REMMPC: REMMPC is similar to REMIDI and is used on the 7000-7100 series for testing the MPC PCBA. Requires system dedication. See the User's Manuals for complete details. PROMLAN: PROMLAN is similar to PROMIDI and is used to test the LAN controller. Requires system dedication. _______________________________________________________________________________ In addition, there is a general system exerciser called COOK. While this is not a "diagnostic", as such, COOK is an excellent method to "load down" the MPx system with work. To run COOK, do the following: You must be logged onto the system with System Manager priviledge and the logon must have no initial command specified. If an initial command is setup for the logon used, all COOK task started will start with that initial command specified instead of the various COOK test programs. 1. Get into console mode with a ! prompt displayed. 2. Enter SYSPREFIX and press CR. (A) The system will respond by displaying the System Prefix such as: ().R6A13.SYS. <- or -> ().R6A13.SYS.,.R6A13.INST. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB002 Pg003 3. In order to set your prefix to that desired, enter the following: (A) PREFIX + a space + (). + Rxyzz + .BURN. and press CR Where xyzz = the O.S. release displayed in step 2 - eg. 6A13 EXAMPLE: PREFIX ().R6A13.BURN. (B) The system will respond with "User Prefix Set" 4. Enter COOK and press CR. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB002 Pg004 FIB 00003 05/29/87 *** 7xxx/8xxx Series Bootstrap Status Word/Error Codes *** ** BOOTSTRAP STATUS WORDS (Y-BUS DISPLAY) ** STATUS WORD DESCRIPTION ----- -----------------------------------------------------------------------. 0000 Jam to zero, no memory errors/transfer to loader 0001 Address Register test: '5555' 0002 Data Register test: '5555' 0003 0004 Address Register test: 'AAAA' 0005 Data Register test: 'AAAA' 0006 0007 Address Register test: 'FFFF' 0008 Data Register test: 'FFFF' 0009 000A Address Register test: '0000' 000B Data Register test: '0000' 000C Set CE Check-in byte 000D 000E 000F Non I/O CE waiting for CE Enable 0010 0011 0012 0013 Reading main memory for parity error 0014 Checking for: Warm/Cold; Disk/Tape; Monitor ??? 0015 Initializing memory with 'address-as-data' 0016 Initializing memory and generating bit vector 0017 0018 Initializing WCS memory and generating bit vector 0019 Initializing WCS memory pointer 001A Clear I/O fast RAM 001B Find loading device 001C Loading loader/WCS 001D Loading all WCS memory 001E CRC WCS memory 001F Initialize SMD device type table 0020 Initialize I/O device type table 0021 0022 Initialize VDT device type table 0023 Read WCS revision level 0024 Write WCS/BOOT revision level and sense switches and set run flip-flop 0025 Enable JAM-TO-ZERO and transfer control 0026 0027 ** BOOTSTRAP ERROR CODES ** ERROR CODE DESCRIPTION ----- -----------------------------------------------------------------------. D001 ACS board TZ6 branch failed D002 ACS board LIT register bad D003 ACS board ALU arithmetic and logical operations failed D004 ACS board PUSH/POP micro-stack bad D005 ACS board GC0/GC1 branch failed (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB003 Pg001 D006 ACS bard 2901 shifts failed D007 ASC board branches failed D008 ACS board IOS branch failed D009 ASC board DIV shift failed D00A ACS board multiple shift failed D00B MDI board General Purpose and byte swap registers failed D00C MDI board GNB or NXB D-sourse failed D00D MDI board failed to respond to Monitor On/OFF command DEAD Unsuccessful Jump into WCS memory E01B Loading device not found E081 Disk: disk not ready Tape: tape off-line E082 Disk: no seek interrupt Tape: formatter busy E083 Disk: seek error Tape: I.D. error E084 Disk: no sector interrupt Tape: blank tape E085 Disk: no sector mark Tape: no read data pulse E086 Disk: data register not full (no SYNC byte) Tape: data error E087 Disk: sector number mismatch E088 Disk: Data Register not set (head/cylinder number) E089 Disk: Data register not full (alternate head/cylinder number) E08A Disk: Head/Cylinde mismatch Tape: BMTC buffer overflow (bad boot tape) E08B Disk: Data Register not full E08C Disk: I.D. CRC error E08D Disk: Data CRC error ---> Note: Error codes E091 - E0A7 are for MPC E091 Disk: Off-line Tape: Not ready E092 Disk: Not ready Tape: Parity error in data transfer from tape to buffer E093 Disk: Head/cylinder error Tape: Parity error in data transfer from buffer to memory E094 Disk: Data ECC error Tape: Expected exception state not received E095 Disk: Buffer parity error Tape: No acknowledge from MTCS E096 Disk: Alternate cylinder error Tape: Exception state will not clear E097 Disk: Sector number error Tape: Unexpected filemark E098 Disk: I.D. ECC error Tape: Read error E099 Disk: I.D. Address Mark error Tape: No cartridge E09A Disk: Data Address Mark error Tape: Illegal command E09B Disk: Command Reject E09C Disk: Seek error E09D Disk: Cannot get Z-80 Bus E09E Disk: Unsolicited seek error E09F Disk: Buffer flag not received E0A1 MPC: No interrupt from boot device (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB003 Pg002 E0A2 MPC: Wrong device interrupted E0A3 MPC: Z-80 did not pass self test E0A4 MPC: MTCS buffer error E0A5 MPC: Z-80 Mailbox error E0A6 MPC: Disk buffer error E0A7 MPC: Unknown device error F000 F001 Write error: Resetting CE Check-in and Enable words F002 Address Register error, test: '5555' F003 Data Register error, test: '5555' F004 F005 Address Register error, test: 'AAAA' F006 Data Register error, test: 'AAAA' F007 F008 Address Register error, test 'FFFF' F009 Data Register error, test: 'FFFF' F00A F00B Address Register error, test: '0000' F00C Data Register error, test: '0000' F00D CE with duplicate ID number F00E Read/Write error: setting the CE Check-in byte F00F Non-I/O CE with bad WCS memory F010 Read error: Non-I/O CE reading CE Enable byte F011 F012 Read error: Warm Start, parity error in main memory F013 Read error: Reading stored sense switches, LOAD/A.LOAD F/F F014 Read error: Reading memory location #1 F015 F016 F017 First 256K of main memory is bad F018 Write error: main memory bit vector F019 Write error: WCS memory bit vector F01A I/O CE with bad WCS memory F01C Write error: Loading BOOT directory into WCS memory F01D Read/write error: Reading BOOT directory; Writing Loader/WCS F01E F01F I/O CE with WCS CRC error F020 Write error: Writing SMD table F021 I/O device responding to two device addresses F022 Write error: I/O device type table F023 Write error: VDT device type table F024 Read error: Reading WCS revision level in WCS memory F025 Write error: WCS/BOOT revision location; sense switch position; word #1 F0FE Warm start: Alternate Load F0FF Warm start: Neither Load or Alternate Load set F1FC JAM-TO-ZERO: Memory time-out/parity error F1FD JAM-TO-ZERO: Memory time-out error F1FE JAM-TO-ZERO: Memory parity error FFFF JAM-TO-ZERO: WCS parity error ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB003 Pg003 FIB 00004 06/25/90 *** 9xxx Series Bootstrap Status Word/Error Codes *** ** BOOTSTRAP STATUS WORDS (Y-BUS DISPLAY) ** STATUS WORD SOURCE DESCRIPTION ----- ------- --------------------------------------------------------------- 0000 O.S. Jam to zero, no memory errors/transfer to loader 0001 MTEST Address Register test: '5555' 0002 MTEST Data Register test: '5555' 0003 MTEST 0004 MTEST Address Register test: 'AAAA' 0005 MTEST Data Register test: 'AAAA' 0006 MTEST 0007 MTEST Address Register test: 'FFFF' 0008 MTEST Data Register test: 'FFFF' 0009 MTEST 000A MTEST Address Register test: '0000' 000B MTEST Data Register test: '0000' 000C START Set CE Check-in byte 000D 000E 000F WAIT Non I/O CE waiting for CE Enable 0010 0011 0012 0013 WARM Reading main memory for parity error 0014 CHECK Checking for: Warm/Cold; Disk/Tape; Monitor ??? 0015 MADDR Initializing memory with 'address-as-data' 0016 MEMORY Initializing memory and generaing bit vector 0017 0018 WCS Initializing WCS memory and generating bit vector 0019 WCSP Initializing WCS memory pointer 001A CLEAR Clear I/O fast RAM 001B FIND Find loading device 001C LOAD Loading loader/WCS 001D LDWCS Loading all WCS memory 001E CRC CRC WCS memory 001F SMD Initialize SMD device type table 0020 IOD Initialize I/O device type table 0021 0022 VDT Initialize VDT device type table 0023 STORE Read WCS revision level 0024 STORE Write WCS/BOOT revision level & sense switches & set RUN F/F 0025 FINI Enable JAM-TO-ZERO and transfer control 0026 0027 ** BOOTSTRAP ERROR CODES ** ERROR CODE SOURCE DESCRIPTION ----- ------- --------------------------------------------------------------- DEAD 'WCS' Unsuccessful Jump into WCS memory E01B FIND Loading device not found E081 LOAD Disk: disk not ready Tape: tape off-line (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB004 Pg001 E082 LOAD Disk: no seek interrupt Tape: formatter busy E083 LOAD Disk: seek error Tape: I.D. error E084 LOAD Disk: no sector interrupt Tape: blank tape E085 LOAD Disk: no sector mark Tape: no read data pulse E086 LOAD Disk: data register not full (no SYNC byte) Tape: data error E087 LOAD Disk: sector number mismatch Tape: BMTC timed out E088 LOAD Disk: Data Register not set (head/cylinder number) Tape: BMTC time-out or parity error E089 LOAD Disk: Data register not full (alternate head/cylinder number) E08A LOAD Disk: Head/Cylinder mismatch Tape: BMTC buffer overflow (bad boot tape) E08B LOAD Disk: Data Register not full E08C LOAD Disk: I.D. CRC error E08D LOAD Disk: Data CRC error F000 F001 START Write error: Resetting CE Check-in and Enable words F002 MTEST Address Register error, test: '5555' F003 MTEST Data Register error, test: '5555' F004 F005 MTEST Address Register error, test: 'AAAA' F006 MTEST Data Register error, test: 'AAAA' F007 F008 MTEST Address Register error, test 'FFFF' F009 MTEST Data Register error, test: 'FFFF' F00A F00B MTEST Address Register error, test: '0000' F00C MTEST Data Register error, test: '0000' F00D START CE with duplicate ID number F00E START Read/Write error: setting the CE Check-in byte F00F WAIT Non-I/O CE with bad WCS memory F010 WAIT Read error: Non-I/O CE reading CE Enable byte F011 F012 WARM Read error: Warm Start, parity error in main memory F013 WARM Read error: Reading stored sense switches, LOAD/A.LOAD F/F F014 CHECK Read error: Reading memory location #1 F015 ALOAD1 Incorrect sense switch setting with alternate load F016 F017 MEMORY First 256K of main memory is bad F018 WCS Write error: main memory bit vector F019 WCS Write error: WCS memory bit vector F01A WCSP I/O CE with bad WCS memory F01C LOAD Write error: Loading BOOT directory into WCS memory F01D LOAD Read/write error: Reading BOOT directory; Writing Loader/WCS and decryption F01E LOAD This is not an 810 B WCS F01F CKWCS I/O CE with WCS CRC error F020 SMD Write error: Writing SMD table F021 IOD I/O device responding to two device addresses F022 IOD Write error: I/O device type table F023 VDT Write error: VDT device type table F024 FINI Write error: WCS/BOOT revision location; sense switch position; word number 1 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB004 Pg002 F025 ---- F026 LOAD Not a 9XXX WCS F0FE WARM Warm start: Alternate Load F0FF WARM Warm start: Neither Load or Alternate Load set F1FC START JAM-TO-ZERO: Memory time-out/parity error F1FD START JAM-TO-ZERO: Memory time-out error F1FE START JAM-TO-ZERO: Memory parity error F4xx LOAD Memory wrap around - check IDC64 >16 meg jumpering FA01 ---- AMS self test failure, ALU failed FA02 ---- AMS self test failure, LITERAL REGISTER: FA03 ---- AMS self test failure, ALU ARITHMETIC OR LOGICAL OPERATION: FA04 ---- AMS self test failure, PUSH/POP MICROSTACK FA05 ---- AMS self test failure, INTERNAL OR EXTERNAL REGISTERS: bad FA06 ---- AMS self test failure, BARREL SHIFTER: bad shift count register FA07 ---- AMS self test failure, BRANCHES: FA08 ---- AMS self test failure, 2910 SEQUENCER: FA08 ---- AMS self test failure, 29203 SHIFTS: FA0A ---- AMS self test failure, WCSA REGISTER FA0B ---- AMS self test failure, WCS MEMORY FA0C ---- AMS self test failure, RANGE ADDRESS ERROR (On WCS) FA0D ---- AMS self test failure, MEMORY HOLDING PROBLEM FA0E ---- AMS self test failure, BAD BY-Bus BRANCHES FE10 ---- ESTK self test failure, BAR1: FE11 ---- ESTK self test failure, BAR2: FE12 ---- ESTK self test failure, WMAR FE13 ---- ESTK self test failure, MDGR: FE14 ---- ESTK self test failure, CSPA FE15 ---- ESTK self test failure, registers failed FE16 ---- ESTK self test failure, LOAD CESP FE17 ---- ESTK self test failure, ESTACK SIZE 2 FE18 ---- ESTK self test failure, SIZE 8 FE19 ---- ESTK self test failure, CESP failure FE1A ---- ESTK self test failure, EStack RAM failed the 5 and A tests FE1B ---- ESTK self test failure, EStack addressing problem FE1C ---- ESTK self test failure, MEMORY OPERATION FAIL (ON ESTK SIDE) FE1D ---- ESTK self test failure, failed push pop FE1E ---- ESTK self test failure, failed mpush FE1F ---- ESTK self test failure, failed mpop FD20 ---- IDC self test failure, CPGC or SGBA registers failed FD21 ---- IDC self test failure, opcode pipeline failed FD22 ---- IDC self test failure, CPGC counter failed FF31 ---- IDC self test failure, MEMORY WRITE TO WORD 11 + CPUID FAILED. If the CPU fails this test with the RSTACK light OFF (RSTK is good and enabled) and the CACHE light is ON (CACHE is good and enabled) then it is likely that something external to the IDC is failing (probably low memory related) FFFF START JAM-TO-ZERO: WCS parity error ORIGINATOR: H. MITCHELL MODIFIED BY: Norm Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB004 Pg003 FIB 00005 07/29/87 *** I/O Devices Address Switch Settings *** This bulletin contains a collection of the various I/O device ADDRESS switch settings for the equipment which may be attached to an MPx CPU. (For quick reference). For the settings of any switches in the device other than the address switch, refer to the Maintenence Manual or F.I.B. section of the individual device. -----------------SWITCH SETTING LEGEND----------------- | | | C = Closed or On O = Open or Off X = Not Used | ------------------------------------------------------- *** DISK DRIVES *** CALCOMP T-83 DISK DRIVE: .Address switch is located on the LOGIC I PCBA. It is SW1 and has four positions which may be set as follows: Drive Switch Positions Address | 1 | 2 | 3 | 4 | -----------------|---|---|---|---| 0 | O | O | O | X | -----------------|---|---|---|---| 1 | C | O | O | X | -----------------|---|---|---|---| 2 | O | C | O | X | -----------------|---|---|---|---| 3 | C | C | O | X | -----------------|---|---|---|---| 4 | O | O | C | X | -----------------|---|---|---|---| 5 | C | O | C | X | -----------------|---|---|---|---| 6 | O | C | C | X | -----------------|---|---|---|---| 7 | C | C | C | X | ---------------------------------- Figure 1 CALCOMP T-303 DISK DRIVE: Address switch is located on the Interface (Input/Output) PCBA. It is SW1 and has four positions which may be set as shown in Figure 1 above. PRIAM P66 and P154 14" DISK DRIVES: The drive may have either a single Main Logic PCBA (later machines) or a "split board" configuration (earlier machines) consisting of an Analog PCBA and an Interface PCBA. The address switch on the single Main Logic PCBA is located at location 10N. The address switch on the Interface PCBA is located at location 8J. Regardless of which type you may have, set the address switch using the following chart, Figure 2: (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB005 Pg001 Drive Switch Position Address | 8 | 7 | 6 | 5 | 4 | 3 | 2 | 1 | ------------------|---|---|---|---|---|---|---|---| 0 | O | C | O | O | O | C | C | C | ------------------|---|---|---|---|---|---|---|---| 1 | O | C | O | O | O | C | C | O | ------------------|---|---|---|---|---|---|---|---| 2 | O | C | O | O | O | C | O | C | ------------------|---|---|---|---|---|---|---|---| 3 | O | C | O | O | O | C | O | O | ------------------|---|---|---|---|---|---|---|---| 4 | O | C | O | O | O | O | C | C | ------------------|---|---|---|---|---|---|---|---| 5 | O | C | O | O | O | O | C | O | ------------------|---|---|---|---|---|---|---|---| 6 | O | C | O | O | O | O | O | C | ------------------|---|---|---|---|---|---|---|---| 7 | O | C | O | O | O | O | O | O | --------------------------------------------------- Figure 2 PRIAM P-807 8" DISK DRIVE: The address switch is SW2 on the R/W PCBA. To set the address on this drive, use the chart shown below in Figure 3. Drive Switch Position Address |8|7|6|5|4|3|2|1| ------------------|-|-|-|-|-|-|-|-| 0 |O|O|C|O|O|O|O|O| ------------------|-|-|-|-|-|-|-|-| 1 |O|O|C|O|O|O|O|C| ------------------|-|-|-|-|-|-|-|-| 2 |O|O|C|O|O|O|C|O| ------------------|-|-|-|-|-|-|-|-| 3 |O|O|C|O|O|O|C|C| ----------------------------------- Figure 3 MAXTOR 5 1/4" DISK DRIVE: The address on the Maxtor drives is set by plugging a jumper into a selected position in a jumper block located near connector J1 on the disk drive PCBA. To set the drive address, use the chart shown below in Figure 4. Phase 1 Phase 2 Drive Jumper Block Jumper Block Address Pins Jumpered Pins Jumpered -------------------------------------------- 0 1 to C 5 to 6 -------------------------------------------- 1 2 to C 4 to 5 -------------------------------------------- 2 3 to C 2 to 3 -------------------------------------------- 3 4 to C 1 to 2 -------------------------------------------- Figure 4 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB005 Pg002 CIPHER 1/2" STREAMER TAPE DRIVE: This drive has only one dip switch which is located on the formatter PCBA. On the MPx systems, the settings shown in Figure 5, below, are correct. Remember that positions 5 and 6 as shown select DRIVE generated parity and if the streamer is connected to a BMTC, BMTC switch S2-7 must be set to OPEN. Drive Switch Position Address |8|7|6|5|4|3|2|1| ---------------|-|-|-|-|-|-|-|-| 0 |O|O|C|O|C|O|C|C| 1 |O|O|C|O|O|O|C|C| Figure 5 CIPHER REEL-TO-REEL TAPE DRIVE: The address of the drive is set to 0 by way of SW1-4. Set this switch to OFF or OPEN. The transport address thumb wheel on the front panel should be set to 0. CIPHER 1/4" STREAMER TAPE DRIVE: The address on this drive is set via jumpers W8 and W9 located on the Formatter PCBA the drive address to unit 1 (or 0) by removing jumpers W8 and W9. Another jumper to be aware of is W6. This jumper should be installed and if the drive is attached to a BMTC, BMTC switch S2-7 must be set to OPEN. STC 1/2" G.C.R. TAPE DRIVE: The drive address and several other options/functions are set via switch SW1 on the CP PCBA at location KC37. The address is determined by the settings of positions 9 and 10 of SW1. Figure 6, below, shows the correct settings for SW1 (all positions). Drive Switch Position Address |10|9|8|7|6|5|4|3|2|1| -------------------|--|-|-|-|-|-|-|-|-|-| 0 | C|C|O|C|O|O|C|C|C|C| 1 | O|C|O|C|O|O|C|C|C|C| TANDBERG 1/4" STREAMER TAPE DRIVE: The drive address is set via JP1 and JP2 on the Control PCBA. Both of these jumpers must be removed for the drive to be connected to an MPx system. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB005 Pg003 FIB 00006 08/07/89 *** PCBA Plugging Charts *** *** NOTE *** Empty backplane slots between PCBAs cause halts, hangs and various other intermittant, hard to diagnose problems. The only place where empty backplane slots between PCBAs is allowed is between the Memory PCBAs and other system PCBAs. This is allowable ONLY on the 7XXX and 8XXX systems. NO empty slots between PCBAs are allowed on the 9XXX and ASXX systems. It is recommended that the PCBAs be arranged so all spare slots are all adjacent.to the end terminators in all systems, thus eliminating the possibility of errors. 7000/7100/8000 BOARD PLACEMENT MODELS: SINGLE MAINFRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | T | | | | | | T | | E | | | | | | D | | | | | | E | | R | M | M | | | | P | 1 | | | | | R | | M | E | E | | | | | 6 | 8 | | | N | M | | I | M | M | | | | O | | | B | V | I | I | | N | O | O | M | M | A | R | W | W | M | C | M | N | | A | R | R | C | D | C | | A | A | T | O | L | A | | T | Y | Y | S | I | S | M | Y | Y | C | N | C | T | | O | | | | | | P | | | | | | O | | R | | | | | | C | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| ............................................................................... BOARD PLACEMENT - LEFT FRAME OF TWO FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | | | | | | | I | | E | | | | | | | | | | | | N | | R | M | M | M | M | | | | | | | | T | | M | E | E | E | E | | | | | | | | E | | I | M | M | M | M | | | | | | | | R | | N | O | O | O | O | M | M | A | M | A | M | A | C | | A | R | R | R | R | C | D | C | D | C | D | C | O | | T | Y | Y | Y | Y | S | I | S | I | S | I | S | N | | O | | | | | | | | | | | | N | | R | | | | | | 0 | 0 | 1 | 1 | 2 | 2 | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - RIGHT FRAME OF TWO FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | I | T | T | T | | | | | | | | | T | | N | D | D | D | | | | | | | | | E | | T | P | P | P | 1 | | | | | | | M | R | | E | | | | 6 | 8 | | | | | N | E | M | | R | O | O | O | | | B | V | V | V | I | M | I | | C | R | R | R | W | W | M | C | C | C | M | O | N | | O | | | | A | A | T | O | O | O | L | R | A | | N | M | M | M | Y | Y | C | N | N | N | C | Y | T | | N | P | P | P | | | | | | | | | O | | . | C | C | C | | | | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| ............................................................................... (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB006 Pg001 BOARD PLACEMENT - LEFT FRAME OF THREE FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | | | | | | | I | | E | | | | | | | | | | | | N | | R | | M | M | M | M | 1 | 1 | | | | | T | | M | S | E | E | E | E | 6 | 6 | 8 | | | | E | | I | P | M | M | M | M | | | | V | V | V | R | | N | A | O | O | O | O | W | W | W | C | C | C | C | | A | R | R | R | R | R | A | A | A | O | O | O | O | | T | E | Y | Y | Y | Y | Y | Y | Y | N | N | N | N | | O | | | | | | | | | | | | N | | R | | | | | | | | | | | | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - CENTER FRAME OF THREE FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | I | | | | | | | | T | T | T | T | I | | N | | | | | | | | D | D | D | D | N | | T | | | | | | | | P | P | P | P | T | | E | | | | | | | | | | | | E | | R | | | | | | | | O | O | O | O | R | | C | M | M | A | M | A | M | A | R | R | R | R | C | | O | C | D | C | D | C | D | C | | | | | O | | N | S | I | S | I | S | I | S | M | M | M | M | N | | N | | | | | | | | P | P | P | P | N | | . | | 0 | 0 | 1 | 1 | 2 | 2 | C | C | C | C | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - RIGHT FRAME OF THREE FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | I | | | | | | | | | | | | T | | N | | | | | | | | | | | | E | | T | | | | | | | | M | M | M | M | R | | E | | | | | 8 | N | N | E | E | E | E | M | | R | V | V | V | B | | I | I | M | M | M | M | I | | C | C | C | C | M | W | M | M | O | O | O | O | N | | O | O | O | O | T | A | L | L | R | R | R | R | A | | N | N | N | N | C | Y | C | C | Y | Y | Y | Y | T | | N | | | | | | | | | | | | O | | . | | | | | | | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB006 Pg002 9000/9100/9400/9500/9600 BOARD PLACEMENT MODELS: SINGLE MAINFRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | | | | | | | T | | E | | | | | | | | | | | | E | | R | 1 | | | | | | | M | | | | R | | M | 6 | 8 | | | | | | E | | | N | M | | I | | | | | E | | | M | B | V | I | I | | N | W | W | M | A | S | I | D | O | M | C | M | N | | A | A | A | C | M | T | D | M | R | T | O | L | A | | T | Y | Y | S | S | K | C | A | Y | C | N | C | T | | O | | | | | | | | | | | | O | | R | | | | | | | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| ............................................................................... BOARD PLACEMENT - LEFT FRAME OF TWO FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | | | | | | | I | | E | | | | | | | | | | | | N | | R | 1 | | 1 | 1 | | | | | | | | T | | M | 6 | 8 | 6 | 6 | | | | | | | | E | | I | | | | | | | E | | | E | | R | | N | W | W | W | W | M | A | S | I | A | S | I | C | | A | A | A | A | A | C | M | T | D | M | T | D | O | | T | Y | Y | Y | Y | S | S | K | C | S | K | C | N | | O | | | | | | | | | | | | N | | R | | | | | | | | | | | | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - RIGHT FRAME OF TWO FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | I | | | | | | | | | | | | T | | N | | | | | | | | | | | | E | | T | | | M | M | | | | | | | | R | | E | | | E | E | | 8 | | | | N | 8 | M | | R | | | M | M | B | | V | V | V | I | | I | | C | D | D | O | O | M | W | C | C | C | M | W | N | | O | M | M | R | R | T | A | O | O | O | L | A | A | | N | A | A | Y | Y | C | Y | N | N | N | C | Y | T | | N | | | | | | | | | | | | O | | . | | | | | | | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| ............................................................................... NOTE| PCBA placement is extremely critical! Strict adherance to the plugging charts is required. In multiframe the rightmost IDC MUST be located in the slot next to the right interconnect PCBA as shown. The DMA and Memory PCBAs MUST be located within the SAME frame! (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB006 Pg003 BOARD PLACEMENT - LEFT FRAME OF THREE FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | | | | | | | I | | E | | | | | | | | | | | | N | | R | | | 1 | 1 | 1 | 1 | 1 | | | | | T | | M | S | S | 6 | 6 | 6 | 6 | 6 | 8 | | | | E | | I | P | P | | | | | | | V | V | V | R | | N | A | A | W | W | W | W | W | W | C | C | C | C | | A | R | R | A | A | W | A | A | A | O | O | O | O | | T | E | E | Y | Y | Y | Y | Y | Y | N | N | N | N | | O | | | | | | | | | | | | N | | R | | | | | | | | | | | | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - CENTER FRAME OF THREE FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | I | | | | | | | | | | | | I | | N | | | | | | | | | | | | N | | T | | | | | | | | | | | | T | | E | | | | | | | | | | | | E | | R | V | | | E | | | E | | | E | | R | | C | C | M | A | S | I | A | S | I | A | S | I | C | | O | O | C | M | T | D | M | T | D | M | T | D | O | | N | N | S | S | K | C | S | K | C | S | K | C | N | | N | | | | | | | | | | | | N | | . | | | | | | | | | | | | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - RIGHT FRAME OF THREE FRAME SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | I | | | | | | | | | | | | T | | N | | | | | | | | | | | | E | | T | | | M | M | M | | | | | | | R | | E | | | E | E | E | | | | N | N | S | M | | R | | | M | M | M | B | V | V | I | I | P | I | | C | D | D | O | O | O | M | C | C | M | M | A | N | | O | M | M | R | R | R | T | O | O | L | L | R | A | | N | A | A | Y | Y | Y | C | N | N | C | C | E | T | | N | | | | | | | | | | | | O | | . | | | | | | | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| NOTE| PCBA placement is extremely critical! Strict adherance to the plugging charts is required. In multiframe the rightmost IDC MUST be located in the slot next to the right interconnect PCBA as shown. The DMA and Memory PCBAs MUST be located within the SAME frame! (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB006 Pg004 AS4x/AS6x BOARD PLACEMENT MODELS: SINGLE MAINFRAME ASxx SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| R | | | | | | I = | | | | | | | R E | | | | | | N = | | | | | | | E A | | | | | | T = | | M | | S | | | A R | I | I | I | I | B | E = M | M | E | N | T | D | D | R | S | S | S | M | M | R = B | C | M | E | A | M | M | T | D | D | D | L | T | C = A | S | O | P | C | A | A | T E | C | C | C | C | C | O = | / | R | | H | | | E R | | | | | | N = | M | Y | | E | | | R M | | | | | | N = | | | | | | | M . | | | | | | . = | | | | | | | . |---|---|---|---|---|---|---|---|---|---|---|---|---| ............................................................................... BOARD PLACEMENT - LEFT FRAME OF TWO FRAME ASxx SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | | | | | | | I | | E | | | | | | | | | | | | N | | R | I | I | I | I | I | I | I | I | I | L | B | T | | M | S | S | S | S | S | S | S | S | M | A | M | E | | I | D | D | D | D | D | D | D | D | L | N | T | R | | N | C | C | C | C | C | C | C | C | C | | C | C | | A | | | | | | | | | | | | O | | T | | | | | | | | | | | | N | | O | | | | | | | | | | | | N | | R | | | | | | | | | | | | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - RIGHT FRAME OF TWO FRAME ASxx SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | | | | | | | | | | | | | T | | | | | | | | | | | | | | E | | | M | M | | S | | S | | | | S | S | R | | M | C | E | N | T | N | T | D | D | D | P | P | M | | B | S | M | E | A | E | A | M | M | M | A | A | I | | A | / | O | P | C | P | C | A | A | A | R | R | N | | | M | R | | H | | H | | | | E | E | A | | | | Y | | E | | E | | | | | | T | | | | | | | | | | | | | | O | | | | | | | | | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| ............................................................................... NOTE| PCBA placement is extremely critical! Strict adherance to the plugging charts is required. For AS4x systems there is no STACHE PCB, move PCBAs shown to the right of the STACHE, left to fill the gap. If there are sufficient slots there may be additional MEMORY and DMA PCBAs. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB006 Pg005 BOARD PLACEMENT - LEFT FRAME OF THREE FRAME ASxx SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | T | | | | | | | | | | | | I | | E | | | | | | | | | | | | N | | R | | | | | | | | | | | | T | | M | S | S | S | I | I | I | I | I | I | I | I | E | | I | P | P | P | S | S | S | S | S | S | S | S | R | | N | A | A | A | D | D | D | D | D | D | D | D | C | | A | R | R | R | C | C | C | C | S | C | C | C | O | | T | E | E | E | | | | | | | | | N | | O | | | | | | | | | | | | N | | R | | | | | | | | | | | | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - CENTER FRAME OF THREE FRAME ASxx SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | I | | | | | | | | | | | | I | | N | | | | | | | | | | | | N | | T | I | I | I | I | I | I | I | I | I | L | B | T | | E | S | S | S | S | S | S | S | M | M | A | M | E | | R | D | D | D | D | D | D | D | L | L | N | T | R | | C | C | C | C | C | C | C | C | C | C | | C | C | | O | | | | | | | | | | | | O | | N | | | | | | | | | | | | N | | N | | | | | | | | | | | | N | | . | | | | | | | | | | | | . | |---|---|---|---|---|---|---|---|---|---|---|---|---| BOARD PLACEMENT - RIGHT FRAME OF THREE FRAME ASxx SYSTEM |---|---|---|---|---|---|---|---|---|---|---|---|---| | | | | | | | | | | | | | T | | | | | | | | | | | | | | E | | | M | M | | S | | S | | S | | | | R | | M | C | E | N | T | N | T | N | T | D | D | D | M | | B | S | M | E | A | E | A | E | A | M | M | M | I | | A | / | O | P | C | P | C | P | C | A | A | A | N | | | M | R | | H | | H | | H | | | | A | | | | Y | | E | | E | | E | | | | T | | | | | | | | | | | | | | O | | | | | | | | | | | | | | R | |---|---|---|---|---|---|---|---|---|---|---|---|---| NOTE| PCBA placement is extremely critical! Strict adherance to the plugging charts is required. If the right frame is a dual backplane (22 slot) additional memory PCBAs may be inserted between the MCS/M and NEP PCBAs as well as additional DMAs plugged to the right of existing DMAs. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB006 Pg006 AS20 BOARD PLACEMENT MODELS: NOTE: The board placements for the AS 20 are absolute, no deviations are allowed, the system will not operate unless the boards are in the proper slots. The backplane contains integrated terminators requiring no slots (or rear-mounted connectors) |---|---|---|---|---|---|---|---|---|---| | 8 | 8 | 8 | 8 | E = M | M | N | D | D | | / | / | / | / | X = B | C | E | M | M | | 1 | 1 | 1 | 1 | T = A | S | P | A | A | | 6 | 6 | 6 | 6 | E = | / | | I | I | | | | | | N = | M | | I | I | | W | W | W | W | D = | | | | / | | A | A | A | A | E = | | | | 4 | | Y | Y | Y | Y | R = | | | | M | | | | / | / | = | | | | B | | | | I | B | = | | | | | | | | M | M | = | | | | M | | | | L | T | = | | | | E | | | | C | C | = | | | | M | | | | / | / | = | | | | O | | | | L | I | = | | | | R | | | | A | M | = | | | | Y | | | | N | L | = | | | | | | | | C | C | = | | | | | | | | | / | = | | | | | | | | | L | = | | | | | | | | | A | = | | | | | | | | | N | = | | | | | | | | | C | = | | | | | |---|---|---|---|---|---|---|---|---|---| ORIGINATOR: H. Mitchell/N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB006 Pg007 FIB 00007 01/30/91 *** Lowest Acceptable Revision Levels (LARL) *** |-------------L.A.R.L.--------------|S |7 |7 |8 |9 |9 |9 |9 |9 |A |A |A |A |P |0 |1 |0 |0 |1 |4 |5 |6 |S |S |S |S |A L UNIT | OPER. MBF |0 |0 |0 |0 |0 |0 |0 |0 |2 |4 |6 |D |R V| NACS DESCRIPION | Part Number|0 |0 |0 |0 |0 |0 |0 |0 |0 |X |X |W |E L| ICN -----------------|------------|--|--|--|--|--|--|--|--|--|--|--|--|---|--------- ACS (Note 1) | 903379-002 |AA|- |L |- |- |- |- |- |- |- |- |- | AA| MM896025 ACS (Note 2) | 903379-003 |AD|AD|AD|- |- |- |- |- |- |- |- |- | AD| MM896026 | | | | | | | | | | | | | | | AMS (Note 9) | 903548-001 |- |- |- |L |L |- |L |L |- |- |- |- | L| MM894015 AMS (Note 9) | 903548-002 |- |- |- |N |N |- |N |N |- |- |- |- | N| MM894016 AMS (Note 12) | 903548-003 |- |- |- |S |S |P |S |S |- |- |- |- | S| MM894017 | | | | | | | | | | | | | | | Backplane | 903193-001 |A |A |A |A |A |A |A |A |- |A |A |- | A| MM891000 Backplane, dual | 903731-001 |- |- |- |- |- |- |- |- |- |- |- |B | B| MM892536 Backplane, split | 903623-001 |- |- |- |- |- |- |- |- |- |B |B |- | B| MM892526 Backplane,AS20 | 903770-001 |- |- |- |- |- |- |- |- |A |- |- |- | A| MM892630 BMTC (Note 3) | 903413-001 |AE|AE|AE|AE|AE|AE|AE|AE|AE|AE|AE|AE| AE| MM896110 | | | | | | | | | | | | | | | Chassis Ext. Lt | 903199-002 |D |D |D |D |D |D |D |D |- |D |D |D | D| MM890120 Chassis Ext. Rt | 903199-003 |D |D |D |D |D |D |D |D |- |D |D |D | D| MM890130 | | | | | | | | | | | | | | | DMA-I (Note 11) | 903554-001 |- |- |- |P |P |P |P |P |R |R |R |R | AA| MM894030 | | | | | | | | | | | | | | | DMA-II (Note 14) | 903599-002 |- |- |- |M |M |M |M |M |N |N |N |N | N| MM894039 DMA-II.(Note 14) | 903741-002 |- |- |- |E |E |E |E |E |F |F |F |F | F| MM894038 | | | | | | | | | | | | | | | DMA III (Note 15)| 903679-001 |- |- |- |J |J |J |J |J |- |J |J |J | J| MM892527 | | | | | | | | | | | | | | | Eight-Way | 903383-001 |A |A |A |A |A |A |A |A |- |A |A |A | A| MM896040 | | | | | | | | | | | | | | | ESTK (Note 4) | 903552-001 |- |- |- |G |G |G |G |G |- |- |- |- | J| MM894005 | | | | | | | | | | | | | | | IDC (With Cache) | 903550-001 |- |- |- |P |P |P |P |P |- |- |- |- | P| MM894018 IDC (W/O Cache) | 903550-002 |- |- |- |P |P |P |P |P |- |- |- |- | P| MM894019 IDC-64 With Cache| 903597-001 |- |- |- |E |E |E |E |E |- |- |- |- | H| MM894020 IDC-64 W/O Cache | 903597-002 |- |- |- |E |E |E |E |E |- |- |- |- | H| MM894025 ^^ (Note 10) ^^ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | IMLC (Note 16) | 903381-001 |K |K |K |K |K |K |K |K |- |- |- |- | K| MM896031 IMLC (Int'l Use) | 903381-002 |N |N |N |N |N |N |N |N |- |- |- |- | N| MM891820 IMLC (Note 16) | 903534-001 |D |D |D |D |D |D |D |D |D |D |D |D | D| MM896030 | | | | | | | | | | | | | | | LAN (Note 5) | 903595-001 |F |F |F |F |F |F |F |F |- |- |- |- | G| MM894055 LAN (Note 5) | 903595-002 |H |H |H |H |H |H |H |H |H |H |H |H | H| MM892519 | | | | | | | | | | | | | | | LS-700 P.S.(No 6)| 907295-001 |AA|- |AA|AA|- |AA|AA|AA|AA|AA|AA|AA| AK| MM896070 LS-700 P.S.(No 6)| 907295-002 |AA|AA|AA|AA|AA|AA|AA|AA|AA|AA|AA|AA| AK| MM894060 | | | | | | | | | | | | | | | MBA (Note 17) | 903617-001 |- |- |- |- |- |- |- |- |H |H |H |H | H| MM892522 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB007 Pg001 |----------L.A.R.L.-----------------|S |7 |7 |8 |9 |9 |9 |9 |9 |A |A |A |A |P |0 |1 |0 |0 |1 |4 |5 |6 |S |S |S |S |A L UNIT | BASIC FOUR |0 |0 |0 |0 |0 |0 |0 |0 |2 |4 |6 |D |R V| NACS DESCRIPION | Part Number|0 |0 |0 |0 |0 |0 |0 |0 |0 |X |X |W |E L| ICN -----------------|------------|--|--|--|--|--|--|--|--|--|--|-----|---|-------- MCS (Note 7) | 903374-001 |L |L |L |S |S |S |S |S |_ |_ |_ |_ | T| MM896000 MCS (Note 7) | 903374-002 |V |V |V |V |V |V |V |V |_ |_ |_ |_ | V| MM896045 MCS/M.(Note 7) | 903718-001 |_ |_ |_ |_ |_ |_ |_ |_ |H |G |G |G | H| MM892535 MCS/M (Note 7) | 903718-002 |_ |_ |_ |_ |_ |_ |_ |_ |H |H |H |H | H| MM892500 MDI | 903361-001 |L |L |L |- |- |- |- |- |- |- |- |- | L| MM896010 MDI | 903408-001 |K |K |K |- |- |- |- |- |- |- |- |- | K| MM896010 | | | | | | | | | | | | | | | MEM .5 MB (No 8) | 903349-007 |J |J |J |V |V |V |V |V |- |- |- |- | V| MM896100 MEM 1 MB (No 8) | 903349-005 |J |J |J |V |V |V |V |V |- |- |- |- | V| MM896095 MEM 1 MB (No 8) | 903516-003 |A |A |A |E |E |E |E |E |- |- |- |- | J| MM896090 MEM 2 MB (No 8) | 903516-001 |A |A |A |E |E |E |E |E |- |- |- |- | J| MM896250 MEM 4 MB (No 8) | 903516-002 |A |A |A |E |E |E |E |E |- |- |- |- | J| MM896260 MEM 4/8/16 4MB | 903621-004 |- |- |- |F |F |F |F |F |- |- |- |- | N| MM896255 MEM 4/8/16 8MB | 903621-003 |- |- |- |F |F |F |F |F |- |- |- |- | N| MM896265 MEM 4/8/16 16MB | 903621-001 |- |- |- |F |F |F |F |F |- |- |- |- | N| MM896270 MEM.4/8/16 4MB | 903621-008 |- |- |- |K |K |K |K |K |N |N |N |N | N| MM892525 MEM 4/8/16 8MB | 903621-007 |- |- |- |K |K |K |K |K |N |N |N |N | N| MM892524 MEM 4/8/16 16MB | 903621-005 |- |- |- |K |K |K |K |K |N |N |N |N | N| MM892523 ^^(Note 18)^^ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | MPC | 903500-001 |H |H |- |- |- |- |- |- |- |- |- |- | H| MM894000 MPC | 903546-001 |B |B |- |- |- |- |- |- |- |- |- |- | B| MM894000 | | | | | | | | | | | | | | | NEP (Note 19) | 903705-001 |- |- |- |- |- |- |- |- |G |E |E |K | K| MM892528 | | | | | | | | | | | | | | | PS II Pow Supply | 903338-001 |E |- |E |E |- |E |E |E |E |E |E |E | E| MM896080 PS II Pow Supply | 903513-001 |A |A |A |A |A |A |A |A |A |A |A |A | A| MM894045 | | | | | | | | | | | | | | | PS -5V (F621 DRV)| 916187-001 |- |- |- |E |E |E |E |E |- |E |E |E | E| MM892538 | | | | | | | | | | | | | | | Sixteen-way. | 903437-001 |J |J |J |J |J |J |J |J |J |J |J |J | J| MM896140 Sixteen-way | 903437-002 |R |R |R |R |R |R |R |R |R |R |R |R | R| MM896141 ^^NOTE 22^^ | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | SMDI | 903531-001 |- |- |B |B |- |B |B |B |- |B |B |B | B| MM560000 SMDI | 903591-001 |- |- |A |A |- |A |A |A |- |A |A |A | E| MM294001 SMDII (Note 13) | 903633-001 |- |- |D |D |D |D |D |D |D |D |D |D | D| MM894075 | | | | | | | | | | | | | | | STACHE (Note 20) | 903707-001 |- |- |- |- |- |- |- |- |- |D |D |F | F| MM892529 | | | | | | | | | | | | | | | TDP | 903217-001 |W |W |W |- |- |- |- |- |- |- |- |- | W| MM890090 TDP | 903453-001 |J |J |J |- |- |- |- |- |- |- |- |- | J| MM890090 | | | | | | | | | | | | | | | Terminator | 903199-001 |D |D |D |D |D |D |D |D |- |- |- |- | D| MM890050 Terminator(No 21)| 903199-004 |H |H |H |H |H |H |H |H |- |H |H |H | H| MM890135 Terminator,Hi Spd| 903769-001 |- |- |- |- |- |- |- |- |- |- |- |A | A| MM892547 | | | | | | | | | | | | | | | VCON | 903377-001 |C |C |C |C |C |C |C |C |- |- |- |- | C| MM896050 (continue on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB007 Pg002 ___________________________________NOTES______________________________________ 1. On 8000 systems, revision T or later of ACS is required for BMTC boot. Revision AA or later of ACS is required for 8" Priam disk boot. 2. ACS 903379-003 required to support the Tandberg 1/4" streamer tape drive. 3. The BMTC must be at Rev. T or later in order to support MTCS. (The O.S. must also be at or above Release 8.6A for BMTC/MTCS support. The BMTC must be at Rev. U or later in order to support the GCR tape drive BMTC Rev Z allows placement to the left of the CPUs. 4. On 9X00 systems with more than 12 MB memory, the ESTK must be at Rev. J or later. 5. LAN controller support requires 8.6/9.6 or later software. LAN controller P/N 903595-001 not to be used on AS, only 903595-002. 6. The 7100 and 9100 Systems will accept only the narrow LS-700 Power Supply, part number MM894060 (907295-002). 7. On 9X00 systems with more than 12 MB memory, the MCS must be: P/N 903374-001 - at or above Revision T P/N 903374-002 - at or above Revision V On 9XXX systems with the 4/8/16MB memory PCBAs, MCS P/N 903374-002 is required. MCS/M P/N 903718-001 and 903718-002 are only used on AS System. Rev. "H" changes a 903718-001 into a 903718-002 and must be used for a SCSI boot (DMA-II). MCS/M Rev J required for 19.2K baud and 7/8 bit data support for T0. 8. On 9XXX systems with more than 12 MB memory, only PCBA P/N 903516-00X may be used and it must be at Rev. J. P/N's 903349-00X cannot be addressed above 12 MB. 9. For support of main memory above 12 MB, the AMS must be at Rev. N or later, and MUST be P/N 903548-002. P/N 903548-001 DOES NOT SUPPORT greater than 12 Megabytes of main memory. 10. For support of main memory above 12 MB, the IDC-64 must be at Rev. E or later. The IDC DOES NOT SUPPORT more than 12 MB of main memory. 11. For support of main memory above 12 MB or to support the 4220 printer, the DMA-I must be at Rev. G or later. DMA-I must be at or above Rev R for systems which also has a DMA-III. DMA-I Rev R is required for 4/8/16 MB Memory for power fail. DMA-I Rev AA is required for systems which also has a DMA-II. DMA-I Rev Z is required for Advanced Series Systems with more than 2 DMAs. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB007 Pg003 12. The AMS PCBA P/N 903548-003 (Rev P) is required for SCSI controller support (9400 systems) but may be used as replacements for either the -001 or -002 AMS PCBAs in other 9xxx systems. The AMS PCBA P/N 903548-003 at or above Rev S is required for support of the Fujitsu F621 600 MB 8" fixed disk. 13. The SMDII PCB at REV D has two .1uf capacitors added to increase its ESD immunity. The caps are on IC 5D between pins 7 & 13 and on IC 5B between pins 7 & 1. 14. DMA-II P/N 903599-001 at or above Rev M is required if there are DMA-Is and DMA-IIs in the same system. Rev M will support M380 & M760 Disk Drives and changes 903599-001 to a 903599-002. DMA-II P/N 903741-002 at or above Rev E is required if there are DMA-I's and DMA-II's in the same system. Rev E will support M380 & M760 Disk Drives and changes 903741-001 to a 903741-002. DMA-II P/N 903741-002 at Rev E and 903599-002 at Rev M are interchangeable DMA-II P/N 903741-002 at Rev F and 903599-002 at Rev N are required for any system using Rev 9/10.6 G O.S. 15. DMA-III P/N 903679-001 at Rev E is required for mixing with DMA Is & IIs. DMA-III P/N 903679-001 Rev G is required if there are more than 2 DMAs. 16. NIMLC P/N 903381 may not be used with AS System, only NIMLC P/N 903534-001 Rev D to be used with AS. 17. MBA P/N 903617-001 must be Rev H for Double-Wide Backplane. 18. MEM 4/8/16 P/N 903621-005/007/008 must be Rev L for Double-Wide Backplane. MEM 4/8/16 MB Rev N required for fully populated 9x30 systems (30 + PCBAs) 19. NEP P/N 903705-001 must be Rev K for Double-Wide Backplane. 20. STACHE P/N 903707-001 must be Rev F for Double-Wide Backplane. 21. TERMINATOR P/N 903199-004 must be used with all systems using 4/8/16 MEG MEM PCBA's. 22. Sixteen-way P/N 903437-002 at Rev R, n.6H O.S. and cable 916509 required for hardware flow control. ORIGINATOR: J.O'Brien MODIFIED BY: Norm Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB007 Pg004 FIB 00008 06/23/88 *** ACS PCBA (7xxx/8xxx Systems) *** The following information applies to these PCBA part numbers: MM896020 - ACS PCBA - 903379-001 MM896025 - ACS PCBA - 903379-002 MM896026 - ACS PCBA - 903379-003 NOTE: The 903379-003 ACS PCBA is REQUIRED for the 7100 system, it may be used as a replacement for either the -001 or -002 PCBAs in other MPX systems. There are no D.I.P. switches to be set on the ACS PCBA. ___________________________________L.E.D.s______________________________________ There are two LEDs at the top of the PCBA. Their function is: CR1 (red, uppermost) indicates a parity error in the BOOT PROM Microcode. CR2 (red, lowermost) indicates a parity error in the WCS Microcode. There is a momentary switch - SW1, just below the LEDs, which resets the errors. ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB008 Pg001 FIB 00009 05/05/89 *** AMS PCBA (9xxx Systems) *** The following information applies to these part numbers: MM894015 - AMS PCBA - 903548-001 MM894016 - AMS PCBA - 903548-002 MM894017 - AMS PCBA - 903548-003 NOTE: AMS PCBA P/N MM894016/903548-002, at or above Revision N, is required if installed in systems with more than 12 megabytes of main memory. AMS PCBA P/N MM894015/903548-001 DOES NOT SUPPORT greater than 12 mega- bytes of main memory. AMS PCBA P/N MM894017/903548-003 is required for SCSI controller support (9400 system) but may be used to replace -001 or -002 AMS PCBAs in other 9xxx systems. There are no dip switches to be set on these PCBAs. ______________________________L.E.D.s______________________________ There are two LEDs, mounted at the top front, which function as follows: DS1 (red, upper) indicates a BOOT PROM parity error. DS2 (red, lower) indicates a WCS parity error. Switch - S1 is a pushbutton type, mounted below DS2, which functions to reset the error LEDs - DS1 and DS2. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB009 Pg001 FIB 00010 05/29/87 *** AUXILIARY PCBA (810 Systems) *** The following information applies to these PCBA part numbers: MM890080 - AUXILIARY - 903209-001 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set Switch 5, SW-5, at location 9R as follows: Switch Positions 8 7 6 5 4 3 2 1 O C O C C O C C ___________________________NOTES____________________________ The four SENSE SWITCHES on the front edge of this PCBA are numbered 0,1,2 and 3, from bottom to top. These switches are in the OFF position when DOWN. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB010 Pg001 FIB 00011 06/10/93 *** BMTC PCBA (7xxx/8xxx Systems) *** The following information applies to this PCBA part number: MM896110 - BMTC (Buffered Magnetic Tape Controller) - 903413-001 (See Note 1) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The ATTACHED TAPE UNIT TYPE switch, SW-3, at location 9A, options are set as follows: * If there are multiple 1/2" tape drives attached to this controller (including HCC tape drives), a corresponding Unit No. switch must be closed on switch SW-3 for each drive attached. * If there are multiple BMTCs in the same CCA, the first tape drive attached to each BMTC is addressed as Unit 0, the second drive on each BMTC is addressed as Unit 1, etc. * If there are multiple tape drives attached to multiple BMTCs, booting can only be done from the BMTC with the lowest ISDC addresses. Switch Positions 9 8 7 6 5 4 3 2 1 ----------------- Positions 9...........X - - - - - - - - .....Not Used Positions 8,7.6...... - O O O - - - - - .....Must be open Position 5........... - - - - O - - - - .....No 1/4" MCS attached Position 5........... - - - - C - - - - .....1/4" MCS attached Positions 4,3,2 & 1 - - - - - O O O O .....If no MTR,MTS,HCC, or GCR attached Positions 4,3,2 & 1 - - - - - - - - C .....Unit 0, MTR,HCC,MTS or GCR attached Positions 4,3,2 & 1 - - - - - - - C - .....Unit 1, MTR,HCC,MTS or GCR attached Positions 4,3,2 & 1 - - - - - - C - - .....Unit 2, MTR,HCC,MTS or GCR attached Positions 4,3,2 & 1 - - - - - C - - - .....Unit 3, MTR,HCC,MTS or GCR attached Switch 2, SW-2, at location 2S, positions 7,8 & 9 must be set per the following options: SW. Pos. 9 8 7 6 5 4 3 2 1 ----------------- Position 9.........C - - - - - - - - ....Online Position 9.........O - - - - - - - - ....Offline - Endless Self-Test Position 8.........- O - - - - - - - ....1/2" MTR attached (Reel to Reel) Position 8.........- C - - - - - - - ....1/2" MTS, HCC or GCR attached Position 7.........- - C - - - - - - ....BMTC generates parity (See Note 2) Position 7.........- - O - - - - - - ....Drive generates parity (See Note 2) (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB011 Pg001 Switch 2, SW-2, at location 2S, positions 1 through 6 must be set to assign two ISDC addresses to the BMTC. The setting options are as follows: ISDC Sw. Pos. ISDC Sw. Pos. ISDC Sw. Pos. No. 9 8 7 6 5 4 3 2 1 No. 9 8 7 6 5 4 3 2 1 No. 9 8 7 6 5 4 3 2 1 ----- ----------------- ----- ----------------- ----- -----------------. 2/3 - - - O C C O O C 24/25 - - - C O O C O O 46/47 - - - C O C C C C 4/5 - - - O C C O C O 26/27 - - - C O O C O C 48/49 - - - C C O O O O 6/7 - - - O C C O C C 28/29 - - - C O O C C O 50/51 - - - C C O O O C 8/9 - - - O C C C O O 30/31 - - - C O O C C C 52/53 - - - C C O O C O 10/11 - - - O C C C O C 32/33 - - - C O C O O O 54/55 - - - C C O O C C 12/13 - - - O C C C C O 34/35 - - - C O C O O C 56/57 - - - C C O C O O 14/15 - - - O C C C C C 36/37 - - - C O C O C O 58/60 - - - C C O C O C 16/17 - - - C O O O O O 38/39 - - - C O C O C C 60/61 - - - C C O C C O 18/19 - - - C O O O O C 40/41 - - - C O C C O O 62/63 - - - C C O C C C 20/21 - - - C O O O C O 42/43 - - - C O C C O C 22/23 - - - C O O O C C 44/45 - - - C O C C C O ___________________________________L.E.D.s___________________________________ There are two LEDs at the top of the PCBA. They function as follows: DS2 (green) indicates successful completion of self-test. DS1 (red) indicates BMTC parity error. Pushbutton switch - S1 is mounted beneath DS1 and resets DS1. ___________________________________JUMPERS______________________________________ Near location 8CC are JMP 1 and JMP 2. JMP 1 should be open, JMP 2 should be jumpered. _____________________________________NOTES______________________________________ 1. The addresses shown in the above table DO NOT apply to the 9X00 Systems. Any addresses other than those shown above are invalid. 2. The PREFERRED setting for position 7 of SW-2 is CLOSED. This causes parity to be generated by the BMTC. There is an associated switch in the MTR and MTS that must be set according to how BMTC SW-2 is set: MTS MTR Formatter PCBA Formatter PCBA Switch at location 5W Switch S1-3 Position 5 Position 6 . ---------------- ---------- ---------- BMTC S2-7 CLOSED............OPEN...................CLOSED.............OPEN BMTC S2-7 OPEN............ CLOSED...................OPEN.............CLOSED HCC and GCR default switch settings support BMTC generated parity (BMTC SW2-7 CLOSED). 3. BMTC PCBAs at all revision levels prior to Rev Z MUST be installed to the right of the CPU PCBA sets. Revision Z and above may be installed either to the right or the left. ORIGINATOR: H. Mitchell N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB011 Pg002 FIB 00012 06/10/93 *** BMTC PCBA (9xxx & ASxx Systems) *** The following information applies to this PCBA part number: MM896110 - BMTC (Buffered Magnetic Tape Controller) - 903413-001 (See Note 1) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The ATTACHED TAPE UNIT TYPE switch, SW-3, at location 9A, options are set as follows: * If there are multiple 1/2" tape drives attached to this controller (including HCC tape drives), a corresponding Unit No. switch must be closed on switch SW-3 for each drive attached. * If there are multiple BMTCs in the same CCA, the first tape drive attached to each BMTC is addressed as Unit 0, the second drive on each BMTC is addressed as Unit 1, etc. * If there are multiple tape drives attached to multiple BMTCs, booting can only be done from the BMTC with the lowest ISDC addresses. Switch Positions 9 8 7 6 5 4 3 2 1 ----------------- Position 9.......... X - - - - - - - - .....Not Used Positions 8,7,6...... - O O O - - - - - .....Must be OPEN Position 5........... - - - - O - - - - .....No 1/4" MCS attached Position 5........... - - - - C - - - - .....1/4" MCS attached Positions 4,3,2 & 1 - - - - - O O O O .....If no MTR,MTS,HCC, or GCR attached Positions 4,3,2 & 1 - - - - - - - - C .....Unit 0, MTR,MTS,HCC or GCR attached Positions 4,3,2 & 1 - - - - - - - C - .....Unit 1, MTR,MTS,HCC or GCR attached Positions 4,3,2 & 1 - - - - - - C - - .....Unit 2, MTR,MTS,HCC or GCR attached Positions 4,3,2 & 1 - - - - - C - - - .....Unit 3, MTR,MTS,HCC or GCR attached ............................................................................... Switch 2, SW-2, at location 2S, positions 1 through 6 must be set to assign two ISDC addresses to the BMTC. The setting options are as follows: ISDC Sw. Pos. ISDC Sw. Pos. No. 9 8 7 6 5 4 3 2 1 No. 9 8 7 6 5 4 3 2 1 ----- ----------------- ----- ----------------- 2/3 - - - O C C O O C 40/41 - - - O O C C O O 4/5 - - - O C C O C O 42/43 - - - O O C C O C 6/7 - - - O C C O C C 44/45 - - - O O C C C O 8/9 - - - O C C C O O 46/47 - - - O O C C C C 10/11 - - - O C C C O C 48/49 - - - O C O O O O 12/13 - - - O C C C C O 50/51 - - - O C O O O C 14/15 - - - O C C C C C 52/53 - - - O C O O C O Do not use 16 thru 31 54/55 - - - O C O O C C 32/33 - - - O O C O O O 56/57 - - - O C O C O O 34/35 - - - O O C O O C 58/59 - - - O C O C O C 36/37 - - - O O C O C O 60/61 - - - O C O C C O 38/39 - - - O O C O C C 62/63 - - - O C O C C C HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB012 Pg001 Switch 2, SW-2, at location 2S, positions 7,8 & 9 must be set per the following options: SW. Pos. 9 8 7 6 5 4 3 2 1 ----------------- Position 9.........C - - - - - - - - ....Online Position 9.........O - - - - - - - - ....Offline - Endless Self-Test Position 8.........- O - - - - - - - ....1/2" MTR attached Position 8.........- C - - - - - - - ....1/2" MTS, GCR or HCC attached Position 7.........- - C - - - - - - ....BMTC generates parity (See Note 2) Position 7.........- - O - - - - - - ....Drive generates parity (See Note 2) ___________________________________L.E.D.s___________________________________ There are two LEDs at the top of the PCBA. They function as follows: DS2 (green) indicates successful completion of self-test. DS1 (red) indicates BMTC parity error. Pushbutton switch - S1 is mounted beneath DS1 and resets DS1. ___________________________________JUMPERS______________________________________ Near location 8CC are JMP 1 and JMP 2. JMP 1 should be open, JMP 2 should be jumpered. _____________________________________NOTES______________________________________ 1. The addresses shown in the above table apply ONLY to 9xxx and ASxx Systems. Any addresses other than those shown above are invalid. 2. The PREFERRED setting for position 7 of SW-2 is CLOSED. This causes parity to be generated by the BMTC. There is an associated switch in the MTR and MTS that must be set according to how BMTC SW-2 is set: MTS MTR Formatter PCBA Formatter PCBA Switch at location 5W Switch S1-3 Position 5 Position 6 . ---------------- ---------- ---------- BMTC S2-7 CLOSED............OPEN...................CLOSED.............OPEN BMTC S2-7 OPEN............ CLOSED...................OPEN.............CLOSED HCC and GCR default switch settings support BMTC generated parity (BMTC SW2-7 CLOSED). 3. BMTC PCBAs at all revision levels prior to Rev Z MUST be installed to the right of the CPU PCBA sets. Revision Z and above may be installed either to the right or the left. ORIGINATOR: H. MITCHELL N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB012 Pg002 FIB 00013 05/29/87 *** COMPUTING ENGINE PCBA (810 Systems) *** The following information applies to this PCBA part number: MM890020 - COMPUTING ENGINE - 903221-001 ____________________________________NOTES______________________________________ There are no D.I.P. switches to be set on the C.E. PCBA. SW-1, accessable from the front, at the bottom of the PCBA, Has three positions: 1. The UP position is used to place the respective Computing Engine OFFLINE. 2. The CENTER position is the normal, ONLINE position. 3. The DOWN position is used to inhibit the respective Computing Engine from becoming the I/O Engine at Boot time. ** NOTE ** Do not change the position of switch 1 while the system is running as the system will go down if you do so! There are three LEDs at the top of the PCBA: 1. The TOP LED is green and glows when the Computing Engine is ON-LINE (CR1). 2. The CENTER LED glows to indicate a parity problem in the Computing Engine and is amber in color (CR2). 3. The BOTTOM LED is a bi-color type. It glows amber to indicate PROM Parity and glows red to indicate a WCS error (CR3). SW-2, just above SW-1, is a momentary type used to extinguish the error LEDs - CR2 and CR3. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB013 Pg001 FIB 00014 05/29/87 *** DATA PCBA (810 Systems) *** The following information applies to this PCBA part number: MM890030 - DATA - 903213-001 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the Computer Engine No. Switch, SW-5, at location 1C as follows: Switch Positions Computer Engine 8 7 6 5 4 3 2 1 --------------- --------------- 0 O O O O O O O C 1 O O O O O O C O 2 O O O O O C O O ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB014 Pg001 FIB 00015 10/30/87 *** DMA-I PCBA (9xxx Systems) *** The following information applies to these PCBA part numbers: MM894030 - DMA-I PCBA - 903554-001 (See Notes below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the Printer Configuration switch - SW2 (at location 6J) as follows: PRINTER 1 : PRINTER 0 PRINTER SW2 Switch : Positions TYPE :9:8:7:6:5 : 4:3:2:1: ----------------------:-:-:-:-:--:--:-:-:-: Model 4201 Matrix :O:C:O:O:O : C:O:O:O: ----------------------:-:-:-:-:--:--:-:-:-: Model 4209 Band :O:O:O:O:C : O:O:O:C: ----------------------:-:-:-:-:--:--:-:-:-: Model 4214 DMP :O:C:O:C:O : C:O:C:O: ----------------------:-:-:-:-:--:--:-:-:-: Undefined :O:O:O:C:C : O:O:C:C: ------------------------------------------- SW2, position 9 must be in the OPEN position for normal operation. This switch is placed in the CLOSED position to cause the DMA to self-test continuously. Set the Disk Drive Configuration switches - SW3 (location 6R), for Drives 1 and 0, and SW4 (location 6S), for Drives 2 and 3, as follows: SW3 = DISK 1 : SW3 = DISK 0 DISK SW4 = DISK 3 : SW4 = DISK 2 TYPE :9:8:7:6:5 : 4:3:2:1: ----------------------:-:-:-:-:--:--:-:-:-: Model 4510 8" P314 :X:O:O:O:O : O:O:O:O: ----------------------:-:-:-:-:--:--:-:-:-: Model 4501 14" P66 :X:O:O:O:C : O:O:O:C: -----------------------:-:-:-:-:--:--:-:-:-: Model 4505 Rem T83 :X:O:O:C:O : O:O:C:O: ----------------------:-:-:-:-:--:--:-:-:-: Model 4501 14" P154 :X:O:O:C:C : O:O:C:C: ----------------------:-:-:-:-:--:--:-:-:-: Model 4502 Rem T303 :X:O:C:O:O : O:C:O:O: ----------------------:-:-:-:-:--:--:-:-:-: UNDEFINED :X:O:C:O:C : O:C:O:C: ----------------------:-:-:-:-:--:--:-:-:-: Model 4510 8" P207 :X:O:C:C:O : O:C:C:O: ----------------------:-:-:-:-:--:--:-:-:-: Model 4510 8" P303 :X:O:C:C:C : O:C:C:C: ------------------------------------------- (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB015 Pg001 _____________________________JUMPERS______________________________ Jumpers JMP1 and JMP2 select DMA PCBA PROM size. They MUST be installed as follows: JMP1 - REMOVED JMP2 - INSTALLED Jumpers JMP3 and JMP4 select the clock that will appear on connector J10. These jumpers MUST be installed as follows: JMP3 - REMOVED JMP4 - INSTALLED ______________________________NOTES________________________________ 1. The DMA controller MUST be installed in the first available card slot to the right of the right-most IDC PCBA. 2. There is no address switch for the DMA PCBA. 3. There are four LEDs near the top of the DMA PCBA. They function as follows: DS1 (red, upper) indicates a main memory parity error. DS2 (yellow) indicates a main memory time-out error. DS3 (green) indicates the DMA has successfully completed self-test. DS4 (red, lower) indicates a DMA buffer parity error. 4. Pushbutton switch - SW1 is used to reset the error LEDs. It is mounted between DS2 and DS3 5. In order to support greater than 12 Megabytes of main memory, the IDC-I PCBA must be at or above Revision G. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB015 Pg002 FIB 00016 10/30/87 *** ESTK PCBA (9xxx Systems) *** The following information applies to the this part number: MM894005 - ESTK PCBA - 903552-001 (See Note 1) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- There are two artwork versions of this PCBA. The Processor Address switch - SW4 will be located either near the jumpers at location 6-DD (old style) or at location 9-CC (new style). The old style is an eight position switch and the new style is a four position switch. Set the Processor Address switch SW4 as follows: CPU Switch Positions Address :8:7:6:5:4:3:2:1: ---------------:-:-:-:-:-:-:-:-: 0 :C:C:X:X:X:X:X:X: OLD STYLE --> ---------------:-:-:-:-:-:-:-:-: 1 :C:O:X:X:X:X:X:X: ---------------:-:-:-:-:-:-:-:-: 2 :O:C:X:X:X:X:X:X: -------------------------------- - OR - CPU Switch Positions Address :4:3:2:1: -------------------:-:-:-:-: 0 :X:X:C:C: NEW STYLE --> -------------------:-:-:-:-: 1 :X:X:O:C: -------------------:-:-:-:-: 2 :X:X:C:O: ---------------------------- _____________________________L.E.D.s______________________________ There are four LEDs on this PCBA, which function as follows: DS1 (amber, upper) indicates the RSTACK is disabled. DS2 (amber, lower) indicates the CPU clock is held. DS3 (red) indicates an RSTACK parity error. DS4 (green) indicates the CPU is on-line. _________________________OTHER SWITCHES___________________________ Toggle switch SW1, mounted above the red LED DS3, has two positions: The DOWN position enables the RSTACK. The UP position disables the RSTACK. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB016 Pg001 Pushbutton switch SW2, mounted beneath the red LED DS3, resets the red LED, DS3 Toggle switch SW3, mounted under the green LED DS4, has three positions: The UP position forces the CPU off-line. The CENTER position places the CPU on-line. The DOWN position inhibits the I/O CPU function. ______________________________JUMPERS______________________________ There is a jumper block located at 6-DD, labeled E1, E2 and E3. Which is plugged according to the RSTACK capacity. The correct setting is a jumper installed from E1 to E2. _______________________________NOTES_______________________________ 1. In order for the ESTK PCBA to support greater than 12 megabytes of main memory, it must be at or above Revision J. ORIGINATOR: H. Mitchell HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB016 Pg002 FIB 00017 01/11/88 *** IDC & IDC-64 PCBA (9xxx Systems) *** The following information applies to these part numbers: MM894018 - IDC (with cache) - 903550-001 MM894019 - IDC (without cache) - 903550-002 MM894020 - IDC-64 (with cache) - 903597-001 MM894025 - IDC-64 (without cache) - 903597-002 There are no dip switches to set on these PCBAs. However, on the IDC-64 PCBAs, there is a jumper which must be plugged as follows: If Main Memory is less than or equal to 12 MB install jumper from E6 to E7. If Main Memory is greater than 12 MB remove jumper from E6 to E7. IDC-64 PCBAs can be used to replace IDC PCBAs if the jumper is installed. IDC PCBA will not support main memory above 12 MB. IDC-64 PCBA must be at or above Revision E in order to support greater than 12 Megabytes of main memory. ______________________________L.E.D.s______________________________ There are four LEDs mounted at the top of these PCBAs. They function as follows: DS1 (red) indicates a parity error while accessing main memory. DS2 (amber, upper) indicates a memory time-out error. DS3 (amber, lower) indicates Data Cache or Opcode Cache parity error. DS4 (green) indicates Data Cache is enabled. ______________________________SWITCHES______________________________ There are two switches accessable from the front: S1 is a pusbutton switch mounted between DS2 and DS3. It functions to reset the error LEDs - DS1,DS2 and DS3. S2 is a three position toggle switch mounted above DS3: The UP position disables Opcode Caching and Data Caching. The CENTER position enables Opcode Caching and Data Caching. The DOWN position disables Opcode Caching only. ORIGINATOR: H. Mitchell HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB017 Pg001 FIB 00018 05/29/87 *** LANC PCBA (9xxx Systems) *** The following information applies to this part number: MM894055 - LANC PCBA - 903595-001 Set the Board Address switch - S1 as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 -------------------- -------------------- -------------------- 0.....Not Used 22.....Not Used 44.....O O C C C O O 1.....O C C O O O C 23.....Not Used 45.....O O C C C O C 2.....O C C O O C O 24.....Not Used 46.....O O C C C C O 3.....O C C O O C C 25.....Not Used 47.....O O C C C C C 4.....O C C O C O O 26.....Not Used 48.....O C O O O O O 5.....O C C O C O C 27.....Not Used 49.....O C O O O O C 6.....O C C O C C O 28.....Not Used 50.....O C O O O C O 7.....O C C O C C C 29.....Not Used 51.....O C O O O C C 8.....O C C C O O O 30.....Not Used 52.....O C O O C O O 9.....O C C C O O C 31.....Not Used 53.....O C O O C O C 10.....O C C C O C O 32.....O O C O O O O 54.....O C O O C C O 11.....O C C C O C C 33.....O O C O O O C 55.....O C O O C C C 12.....O C C C C O O 34.....O O C O O C O 56.....O C O C O O O 13.....O C C C C O C 35.....O O C O O C C 57.....O C O C O O C 14.....O C C C C C O 36.....O O C O C O O 58.....O C O C O C O 15.....O C C C C C C 37.....O O C O C O C 59.....O C O C O C C 16.....Not Used 38.....O O C O C C O 60.....O C O C C O O 17.....Not Used 39.....O O C O C C C 61.....O C O C C O C 18.....Not Used 40.....O O C C O O O 62.....O C O C C C O 19.....Not Used 41.....O O C C O O C 63.....O C O C C C C 20.....Not Used 42.....O O C C O C O 21.....Not Used 43.....O O C C O C C Set the Controller Subtype switch - S2 as follows: Position 1 - OPEN , positions 2 through 8 CLOSED. Switch 3 - S3 selects which endless self-test will be run. This switch is set in hexadecimal form as shown in the following example: MSB SETTING LSB SETTING 8 7 6 5 4 3 2 1 ---------- ---------- EXAMPLE: C C C O O C O C = TEST 1A NOTE: For normal online operation set all S3 positions to CLOSED. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB018 Pg001 Set the LAN Station Address switch 4 - S4 as follows: Station Switch Positions Station Switch Positions Address :3:4:5:6:7:8: Address :3:4:5:6:7:8: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 0 :C:C:C:C:C:C: 32 :O:C:C:C:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 1 :C:C:C:C:C:O: 33 :O:C:C:C:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 2 :C:C:C:C:O:C: 34 :O:C:C:C:O:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 3 :C:C:C:C:O:O: 35 :O:C:C:C:O:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 4 :C:C:C:O:C:C: 36 :O:C:C:O:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 5 :C:C:C:O:C:O: 37 :O:C:C:O:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 6 :C:C:C:O:O:C: 38 :O:C:C:O:O:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 7 :C:C:C:O:O:O: 39 :O:C:C:O:O:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 8 :C:C:O:C:C:C: 40 :O:C:O:C:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 9 :C:C:O:C:C:O: 41 :O:C:O:C:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 10 :C:C:O:C:O:C: 42 :O:C:O:C:O:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 11 :C:C:O:C:O:O: 43 :O:C:O:C:O:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 12 :C:C:O:O:C:C: 44 :O:C:O:O:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 13 :C:C:O:O:C:O: 45 :O:C:O:O:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 14 :C:C:O:O:O:C: 46 :O:C:O:O:O:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 15 :C:C:O:O:O:O: 47 :O:C:O:O:O:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 16 :C:O:C:C:C:C: 48 :O:O:C:C:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 17 :C:O:C:C:C:O: 49 :O:O:C:C:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 18 :C:O:C:C:O:C: 50 :O:O:C:C:O:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 19 :C:O:C:C:O:O: 51 :O:O:C:C:O:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 20 :C:O:C:O:C:C: 52 :O:O:C:O:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 21 :C:O:C:O:C:O: 53 :O:O:C:O:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 22 :C:O:C:O:O:C: 54 :O:O:C:O:O:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 23 :C:O:C:O:O:O: 55 :O:O:C:O:O:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 24 :C:O:O:C:C:C: 56 :O:O:O:C:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 25 :C:O:O:C:C:O: 57 :O:O:O:C:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 26 :C:O:O:C:O:C: 58 :O:O:O:C:O:C: (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB018 Pg002 Station Switch Positions Station Switch Positions Address :3:4:5:6:7:8: Address :3:4:5:6:7:8: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 27 :C:O:O:C:O:O: 59 :O:O:O:C:O:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 28 :C:O:O:O:C:C: 60 :O:O:O:O:C:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 29 :C:O:O:O:C:O: 61 :O:O:O:O:C:O: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 30 :C:O:O:O:O:C: 62 :O:O:O:O:O:C: -------------:-:-:-:-:-:-: --------------:-:-:-:-:-:-: 31 :C:O:O:O:O:O: 63 :O:O:O:O:O:O: -------------------------- --------------------------- If this LAN is to terminate the cable, set S4-1 to OPEN. If this LAN is not to terminate the cable, set S4-1 to CLOSED. If this LAN is to supply cable bias, set S4-2 to OPEN. If this LAN is not to supply cable bias, set S4-2 to CLOSED. ______________________________L.E.D.s______________________________ The LANC has four LEDs near the top front. They function as follows: DS1 (red, upper) indicates on board memory parity error. DS2 (amber) indicates on board memory time-out error. DS3 (red, lower) indicates the CPU has detected a parity error while accessing the LAN shared-memory array. DS4 (green) indicates sucessful completion of self-test. Pushbutton switch - SW5 is mounted between DS3 and DS4 and functions to reset DS1, DS2 and DS3. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB018 Pg003 FIB 00019 01/26/89 *** MCS PCBA *** The following information applies to these PCBA part numbers: MM896000 - MCS (Memory & Communications Support) - 903374-001 MM896045 - MCS (Memory & Communications Support) - 903374-002 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set Switch 1, SW-1, at location 9R as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- Positions 2 & 1...... - - - - - - O O ...1200 BAUD - Port T1 Remote Diagnostics Positions 2 & 1...... - - - - - - O C ...9600 BAUD - Port T1 Remote Diagnostics Positions 2 & 1...... - - - - - - C O ....300 BAUD - Port T1 Remote Diagnostics Position 3........... - - - - - O - - ...Enable 4-WAY ports Position 3........... - - - - - C - - ...Disable 4-WAY ports Position 4........... - - - - O - - - ...7X00 or 8X00 Systems Position 4........... - - - - C - - - ...9X00 Systems (See Note 1) Positions 7,6 & 5.... - X X X - - - - ...Not Used Position 8........... O - - - - - - - ...Memory Inhibit __________________________________CABLES_______________________________________ There are four jacks used to connect serial devices to the four MCS ports. These are labeled J10,J11,J12 and J13: J10, the lowermost connector, connects to serial port 0. J13, the uppermost connector, connects to serial port 3. __________________________________NOTES________________________________________ 1. In order for Position 4 to be active, and therefore to work on a 9X00 System with more than 12 MB of memory, the MCS PCBA must be: P/N 903374-001 - at or above Revision T P/N 903374-002 - at or above Revision V If any 4/8/16 Megabyte Memory PCBAs, P/N 903621-001, are installed in the CCA, MCS PCBA - P/N 903374-002 MUST be used and TERMINATOR PCBAs, P/N 903199-004, at or above Revision H, must be used. (continued on next page) 2. The four SENSE SWITCHES on the front edge of this PCBA are numbered 0,1,2 and HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB019 Pg001 3, from bottom to top. These switches are in the OFF position when DOWN. 3. There is a RED LED located directly below Sense Switch 0. This LED indicates a Parity error in the 4-Way. The momentary switch at the top of the PCBA will reset this LED. ORIGINATOR: H. Mitchell HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB019 Pg002 FIB 00020 05/29/87 *** MDI PCBA (7xxx/8xxx Systems) *** The following information applies to this PCBA part number: MM896010 - MDI (Memory Data Interface) - 903361-001 and 903408-001 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the CPU NUMBER Switch, SW-1, at location 1E as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- CPU 0...............X X X X O O O C CPU 1...............X X X X O O C O CPU 2...............X X X X O C O O ___________________________________L.E.D.s______________________________________ There are four LEDs mounted at the top of this PCBA. Their functions are: CR2 (amber, uppermost) indicates memory time-out. CR3 (red) indicates a memory parity error. CR4 (amber, lowermost) indicates a clock hang. CR1 (green) indicates the CPU is on-line. ________________________ADDITIONAL SWITCHES_____________________________________ Beneath the Memory Parity LED - CR3, is located the Error Reset switch - SW3. Beneath the CPU On-Line LED - CR1, is located a three-position toggle switch - SW2. It functions as follows: UP - This CPU set OFFLINE. CENTER - This CPU set ONLINE. DOWN - This CPU set disabled for I/O. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB020 Pg001 FIB 00021 09/14/88 *** MEMORY PCBAs, 1/2 MB and 1 MB *** The following information applies to these PCBA part numbers: MM891030 .5 MB (810 only) MM891020 1.0 MB (810 only) MM896100 .5 MB - 903349-007 MM896095 1.0 MB - 903349-005 MM896090 1.0 MB - 903516-003 (see note) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the Memory Address Switch, SW-1, at location 10D to one of the following options: HIGHEST 1/2 MB PCBA 1 MB PCBA Memory Address Switch Positions Switch Positions on this PCBA 7 6 5 4 3 2 1 7 6 5 4 3 2 1 -------------------------------------------------------------- .5 Meg..............X O O O O O O 1.0 Meg..............X O O O O C O...........X O O O O X X 1.5 Meg..............X O O O C O O 2.0 Meg..............X O O O C C O...........X O O O C X X 2.5 Meg..............X O O C O O O 3.0 Meg..............X O O C O C O...........X O O C O X X 3.5 Meg..............X O O C C O O 4.0 Meg..............X O O C C C O...........X O O C C X X 4.5 Meg..............X O C O O O O 5.0 Meg..............X O C O O C O...........X O C O O X X 5.5 Meg..............X O C O C O O 6.0 Meg..............X O C O C C O...........X O C O C X X 6.5 Meg..............X O C C O O O 7.0 Meg..............X O C C O C O...........X O C C O X X 7.5 Meg..............X O C C C O O 8.0 Meg..............X O C C C C O...........X O C C C X X 8.5 Meg..............X C O O O O O 9.0 Meg..............X C O O O C O...........X C O O O X X 9.5 Meg..............X C O O C O O 10.0 Meg............. X C O O C C O...........X C O O C X X 10.5 Meg..............X C O C O O O 11.0 Meg..............X C O C O C O...........X C O C O X X 11.5 Meg..............X C C O O O O 12.0 Meg..............X C C O O C O...........X C O C C X X _______Delay Line and Jumper Installation Information________ This does not apply to P/N MM896090/903516-003. 810 CPU: At location 6C, install delay line P/N 155002-004 - 250 ns At location 5C, install delay line P/N 155002-002 - 150 ns At location 3C, install jumper from Pin 1 to Pin 2 7X00/8000/9X00 CPU: At location 6C, install delay line P/N 155002-003 - 200 ns At location 5C, install delay line P/N 155002-001 - 120 ns At location 3C, install jumper from Pin 2 to Pin 3 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB021 Pg001 ___________________________________L.E.D.s______________________________________ There are two LEDs at the top of these PCBAs. Their functions are: CR1 (red) indicates double or multibit errors. CR2 (amber) indicates single bit errors. Pushbutton switch - SW2, mounted under CR2, resets the error LEDs. _____________________________________NOTES______________________________________ This Note applies to the 1.0 MB memory PCBA P/N MM896090 903516-003. 1. Not to be used in a system with greater than 12 MB. 2. Jumper JP5 and the IC pad at location 1A (if these are present) are jumpered as follows: JP5 = 2 to 3 IC at 1A = 9 to 10 ORIGINATOR: H. Mitchell N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB021 Pg002 FIB 00022 10/22/87 *** MEMORY PCBAs, 2 MB and 4 MB *** The following information applies to these PCBA part numbers: MM896250 - 2 MB MEMORY PCBA - 903516-001 MM896260 - 4 MB MEMORY PCBA - 903516-002 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the Memory Address Switch, SW-1, at location 10D, to one the following options: HIGHEST 2 MB PCBA 4 MB PCBA Memory Address Switch Positions Switch Positione on this PCBA 7 6 5 4 3 2 1 7 6 5 4 3 2 1 -------------------------------------------------------------- 2.0 Meg..............X O O O X O O 4.0 Meg..............X O O C X O O...........X O O X X O O 6.0 Meg..............X O C O X O O 8.0 Meg..............X O C C X O O...........X O C X X O O 10.0 Meg..............X C O O X O O 12.0 Meg..............X C O C X O O...........X C O X X O O 14.0 Meg..............DO NOT USE! 16.0 Meg..............DO NOT USE! 18.0 Meg..............X O O O X O C 20.0 Meg..............X O O C X O C...........X O O X X O C 22.0 Meg..............X O C O X O C 24.0 Meg..............X O C C X O C...........X O C X X O C 26.0 Meg..............X C O O X O C 28.0 Meg..............X C O C X O C...........X C O X X O C 30.0 Meg..............DO NOT USE! 32.0 Meg..............DO NOT USE! 34.0 Meg..............X O O O X C O 36.0 Meg..............X O O C X C O...........X O O X X C O 38.0 Meg..............X O C O X C O 40.0 Meg..............X O C C X C O...........X O C X X C O 42.0 Meg..............X C O O X C O 44.0 Meg..............X C O C X C O...........X C O X X C O 46.0 Meg..............DO NOT USE! 48.0 Meg..............DO NOT USE! 50.0 Meg..............X O O O X C C 52.0 Meg..............X O O C X C C...........X O O X X C C 54.0 Meg..............X O C O X C C 56.0 Meg..............X O C C X C C...........X O C X X C C 58.0 Meg..............X C O O X C C 60.0 Meg..............X C O C X C C...........X C O X X C C 62.0 Meg..............DO NOT USE! 64.0 Meg..............DO NOT USE! S E E N O T E S O N T H E N E X T P A G E ! ! ! -------------------------------------------------------------- (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB022 Pg001 ___________________________________NOTES____________________________________ 1. The 2 MB and 4 MB boards MUST be addressed on EVEN boundaries. 2. They MUST NOT be addressed as 1,3,5 etc. 3. When using these boards intermixed with other capacity Memory boards, to avoid addressing problems, address the HIGHEST capacity boards in the LOWEST addresses. 4. If the PCBA is to be installed in a 9xxx system with total main memory above 12MB, the PCBA must be at or above Revision J. 5. On Revision J, jumper JP5 was added at location 1E and an IC jumper pad was added at location 1A. The proper settings are as follows: Systems with up to 12 MB: JP5 = 2 to 3 IC at 1A = 9 to 10 Systems with above 12 MB: JP5 = 1 to 2 IC at 1A = 8 to 9 ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB022 Pg002 FIB 00023 02/22/88 *** MPC PCBA - 903500-001 (7xxx Systems) *** The following information applies to these part numbers: MM894000 - MPC PCBA - 903500-001 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the Printer and Tape device type switch SW2 as follows: SW2 Switch Tape Device Positions Type 1 4 --------------------------------- 1/4" Streamer O O (this is the ONLY valid setting) SW2 Switch Positions Printer Device Printer 0 : Printer 1 Type :2:5:8 : 3:6:7: -----------------------:-:-:--:--:-:-: Model 4201 Matrix :O:O:O : O:O:O: -----------------------:-:-:--:--:-:-: Model 4209 Band :O:C:C : O:C:C: -----------------------:-:-:--:--:-:-: Model 4214 DMP :C:O:O : C:O:O: -------------------------------------- Set the Disk Drive device type switches SW3 and SW4 as follows: SW4 = Disk 0 SW4 = Disk 1 Disk Drive Switch Positions Switch Positions Device Type :1:3:5:7: :2:4:6:8: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M65 :C:O:O:O: :C:O:O:O: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M105 :C:O:C:O: :C:O:C:O: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M140 126MB :O:O:C:O: :O:O:C:O: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4513 M190 169MB :O:C:O:O: :O:C:O:O: --------------------------------------------------------- (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB023 Pg001 SW3 = Disk 2 SW3 = Disk 3 Disk Drive Switch Positions Switch Positions Device Type :1:3:5:7: :2:4:6:8: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M65 :O:C:O:O: :O:C:O:O: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M105 :O:C:O:C: :O:C:O:C: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M140 :O:O:O:C: :O:O:O:C: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M160 :C:O:O:O: :C:O:O:O: --------------------------------------------------------- There is no switch 5 - SW5 on the 903500-001 MPC PCBA. The following chart shows the settings of the Self-Test switch SW6: Switch Normal Position Use Setting ---------------------------------------------- 1 Reserved OPEN ---------------------------------------------- 2 Unused OPEN ---------------------------------------------- 3 Unused OPEN ---------------------------------------------- ONLINE OPEN 4 -------------------------------------- OFFLINE,self-test CLOSED ---------------------------------------------- 5 Unused OPEN ---------------------------------------------- 6 Unused OPEN ---------------------------------------------- 7 Unused OPEN ---------------------------------------------- 8 Unused OPEN ---------------------------------------------- _____________________________JUMPERS______________________________ There are three jumpers on this PCBA. Set them as follows: JMP1 - jumper 1 to 2 JMP2 - jumper 2 to 3 JMP3 - removed ______________________________L.E.D.s______________________________ There are three LEDs near the top-front of this PCBA. Their functions are: DS1 (red, upper) indicates a tape buffer parity error. DS2 (red, lower) indicates a disk buffer parity error. DS3 (green) indicates successful completion of self-test. Pushbutton switch - SW1 is mounted between DS2 and DS3 and is used to reset the error LEDs, DS1 and DS2. ORIGINATOR: H. Mitchell HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB023 Pg002 FIB 00024 MAI COMPANY CONFIDENTIAL 10/05/92 *** MPC PCBA - 903546-001 (7xxx Systems) *** The following information applies to these part numbers: MM894000 - MPC PCBA - 903546-001 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the Printer and Tape device type switch SW2 as follows: SW2 Switch Tape Device Positions Type 1 2 --------------------------------- 1/4" Streamer O O (this is the ONLY valid setting) SW2 Switch Positions Printer Device Printer 0 : Printer 1 Type :3:4:5 : 6:7:8: -----------------------:-:-:--:--:-:-: Model 4201 Matrix :O:O:O : O:O:O: -----------------------:-:-:--:--:-:-: Model 4209 Band :C:O:O : C:O:O: -----------------------:-:-:--:--:-:-: Model 4214 DMP :O:C:O : O:C:O: -------------------------------------- Set the Disk Drive device type switches SW3 and SW4 as follows: SW3 = Disk 0 SW3 = Disk 1 SW4 = Disk 2 SW4 = Disk 3 Disk Drive Switch Positions Switch Positions Device Type :1:2:3:4: :5:6:7:8: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M65 :C:O:O:O: :C:O:O:O: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M105 :C:C:O:O: :C:C:O:O: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4509 M140 126MB :O:C:O:O: :O:C:O:O: -----------------------:-:-:-:-:---------------:-:-:-:-: Model 4513 M160 169MB :C:C:C:O: :C:C:C:O: -------------------------------------------------------- Set the Printer Data Strobe switch - SW5 as follows: Printer 0 Printer 1 Printer type SW5-1 SW5-2 ----------------------------------------------- Model 4201 Matrix OPEN OPEN ----------------------------------------------- Model 4209 Band CLOSED CLOSED ----------------------------------------------- Model 4214 DMP OPEN OPEN (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB024 Pg001 SW5 positions 3 through 8 are unused, set them to OPEN. The following chart shows the settings of the Self-Test switch SW6: Switch Normal Position Use Setting ---------------------------------------------- ONLINE OPEN 1 --------------------------------------- OFFLINE, self-test CLOSED ---------------------------------------------- 2 Unused OPEN ---------------------------------------------- 3 Unused OPEN ---------------------------------------------- 4 Reserved OPEN ---------------------------------------------- 5 Unused OPEN ---------------------------------------------- 6 Unused OPEN ---------------------------------------------- 7 Unused OPEN ---------------------------------------------- 8 Unused OPEN ---------------------------------------------- _____________________________JUMPERS______________________________ There are three jumpers on this PCBA. Set them as follows: JMP1 - jumper 1 to 2 JMP2 - jumper 2 to 3 JMP3 - removed ______________________________L.E.D.s______________________________ There are three LEDs near the top-front of this PCBA. Their functions are: DS1 (red, upper) indicates a tape buffer parity error. DS2 (red, lower) indicates a disk buffer parity error. DS3 (green) indicates successful completion of self-test. Pushbutton switch - SW1 is mounted between DS2 and DS3 and is used to reset the error LEDs, DS1 and DS2. ORIGINATOR: H. Mitchell and J.O'Brien HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB024 Pg002 FIB 00025 02/22/88 *** NIMLC PCBA - 903381-001 (810/7xxx/8xxx Systems) *** The following information applies to this PCBA part number: MM896030 - NIMLC - 903381-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The SUBTYPE Switch, SW-1, at location 2M, must be set as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- O O O O O C C C The BOARD (ISDC) ADDRESS Switch, SW-3, at location 1A, options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 --------------------- --------------------- --------------------- 63....X C C C C O C C 41....X C O O C C O C 19....X C C O O O O C 62....X O C C C O C C 40....X O O O C C O C 18....X O C O O O O C 61....X C O C C O C C 39....X C C C O C O C 17....X C O O O O O C 60....X O O C C O C C 38....X O C C O C O C 16....X O O O O O O C 59....X C C O C O C C 37....X C O C O C O C 15....X C C C C C C O 58....X O C O C O C C 36....X O O C O C O C 14....X O C C C C C O. 57....X C O O C O C C 35....X C C O O C O C 13....X C O C C C C O 56....X O O O C O C C 34....X O C O O C O C 12....X O O C C C C O 55....X C C C O O C C 33....X C O O O C O C 11....X C C O C C C O 54....X O C C O O C C 32....X O O O O C O C 10....X O C O C C C O 53....X C O C O O C C 31....X C C C C O O C 9....X C O O C C C O 52....X O O C O O C C 30....X O C C C O O C 8....X O O O C C C O 51....X C C O O O C C 29....X C O C C O O C 7....X C C C O C C O 50....X O C O O O C C 28....X O O C C O O C 6....X O C C O C C O 49....X C O O O O C C 27....X C C O C O O C 5....X C O C O C C O 48....X O O O O O C C 26....X O C O C O O C 4....X O O C O C C O 47....X C C C C C O C 25....X C O O C O O C 3....X C C O O C C O 46....X O C C C C O C 24....X O O O C O O C 2....X O C O O C C O 45....X C O C C C O C 23....X C C C O O O C 1....X C O O O C C O 44....X O O C C C O C 22....X O C C O O O C 0.......NOT USED.... 43....X C C O C C O C 21....X C O C O O O C 42....X O C O C C O C 20....X O O C O O O C The PORT A Switch, SW-4, at location 8R can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............C O O O O O O O RS423 or RS449...........O C O O O O O O ICOM - DATAWORD..........O O C C C C C C (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB025 Pg001 The PORT B Switch, SW-5, at location 8F can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............C O O O O O O O RS423 or RS449...........O C O O O O O O ICOM - DATAWORD..........O O C C C C C C The rocker switch SW-6, at location 5L, selects memory cycle times of 200 or 160 nanoseconds. The 160 nanosecond setting is used on all MPx 7XXX,8XXX,9XXX systems. The 200 nanosecond setting is used only on the 810 systems. ____________________________________JUMPERS____________________________________ The JMP positions must be plugged to the appropriate positions according to the desired operating mode. The JMPs are located in Row 10 of the NIMLC PCBA. Use the following chart to plug the JMPs: PORT A :---------------------------------------------------------------------: : JMP : JMP : JMP : JMP : JMP : OPERATING : : D : E : G : H : F : MODE : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : 1-2 : 1-2,3-4,7-8,9-10,11-12,13-14 : RS232 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : --- : 1-2,5-6,7-8,9-10,11-12,13-14 : RS423 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 2-3 : 2-3 : 2-3 : - : - : RS422 - ICOM : :---------------------------------------------------------------------: PORT B :---------------------------------------------------------------------: : JMP : JMP : JMP : JMP : JMP : OPERATING : : J : K : M : N : L : MODE : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : 1-2 : 1-2,3-4,7-8,9-10,11-12,13-14 : RS232 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : --- : 1-2,5-6,7-8,9-10,11-12,13-14 : RS423 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 2-3 : 2-3 : 2-3 : - : - : RS422 - ICOM : :---------------------------------------------------------------------: JMP C may be installed for endless self-test. ___________________________________L.E.D.s______________________________________ There are two LEDs near the top of the NIMLC PCBA. They function as follows: CR2 (red) indicates a NIMLC Memory parity error. CR4 (green) indicates successful completion of self-test. Below the two LEDs is a momentary switch which resets the red LED. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB025 Pg002 _____________________________________NOTES______________________________________ 1. The addresses shown in the above table DO NOT apply to the 9X00 Systems. 2. This IMLC PCBA - P/N 903381-001 MUST be installed to the RIGHT of the CPU PCBAs. If it becomes necessary to install the IMLC to the left of the CPU PCBAs, IMLC PCBA - P/N 903534-001 must be used. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB025 Pg003 FIB 00026 03/29/89 *** NIMLC PCBA - 903381-001 (9xxx System) *** The following information applies to this PCBA part number: MM896031 - NIMLC - 903381-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The SUBTYPE Switch, SW-1, at location 2M, must be set as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- X X X X O C C C The BOARD (ISDC) ADDRESS Switch, SW-3, at location 1A, options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 --------------------- --------------------- --------------------- 63....X C C C C O C O 41....X C O O C C O O 19....not used 62....X O C C C O C O 40....X O O O C C O O 18....not used 61....X C O C C O C O 39....X C C C O C O O 17....not used 60....X O O C C O C O 38....X O C C O C O O 16....not used 59....X C C O C O C O 37....X C O C O C O O 15....X C C C C C C O 58....X O C O C O C O 36....X O O C O C O O 14....X O C C C C C O. 57....X C O O C O C O 35....X C C O O C O O 13....X C O C C C C O 56....X O O O C O C O 34....X O C O O C O O 12....X O O C C C C O 55....X C C C O O C O 33....X C O O O C O O 11....X C C O C C C O 54....X O C C O O C O 32....X O O O O C O O 10....X O C O C C C O 53....X C O C O O C O 31....not used 9....X C O O C C C O 52....X O O C O O C O 30....not used 8....X O O O C C C O 51....X C C O O O C O 29....not used 7....X C C C O C C O 50....X O C O O O C O 28....not used 6....X O C C O C C O 49....X C O O O O C O 27....not used 5....X C O C O C C O 48....X O O O O O C O 26....not used 4....X O O C O C C O 47....X C C C C C O O 25....not used 3....X C C O O C C O 46....X O C C C C O O 24....not used 2....X O C O O C C O 45....X C O C C C O O 23....not used 1....X C O O O C C O 44....X O O C C C O O 22....not used 0....not used 43....X C C O C C O O 21....not used 42....X O C O C C O O 20....not used The PORT A Switch, SW-4, at location 8R can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............C O O O O O O O RS423 or RS449...........O C O O O O O O ICOM - DATAWORD..........O O C C C C C C (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB026 Pg001 The PORT B Switch, SW-5, at location 8F can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............C O O O O O O O RS423 or RS449...........O C O O O O O O ICOM - DATAWORD..........O O C C C C C C The rocker switch SW-6, at location 5L, selects memory cycle times of 200 or 160 nanoseconds. The 160 nanosecond setting is used on all MPx 7XXX,8XXX,9XXX systems. The 200 nanosecond setting is used only on the 810 systems. ____________________________________JUMPERS_____________________________________ The JMP positions must be plugged to the appropriate positions according to the desired operating mode. The JMPs are located in Row 10 of the NIMLC PCBA. Use the following chart to plug the JMPs: PORT A :---------------------------------------------------------------------: : JMP : JMP : JMP : JMP : JMP : OPERATING : : D : E : G : H : F : MODE : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : 1-2 : 1-2,3-4,7-8,9-10,11-12,13-14 : RS232 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : --- : 1-2,5-6,7-8,9-10,11-12,13-14 : RS423 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 2-3 : 2-3 : 2-3 : - : - : RS422 - ICOM : :---------------------------------------------------------------------: PORT B :---------------------------------------------------------------------: : JMP : JMP : JMP : JMP : JMP : OPERATING : : J : K : M : N : L : MODE : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : 1-2 : 1-2,3-4,7-8,9-10,11-12,13-14 : RS232 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 1-2 : 1-2 : 1-2 : --- : 1-2,5-6,7-8,9-10,11-12,13-14 : RS423 - XCOM : :-----:-----:-----:-----:------------------------------:--------------: : 2-3 : 2-3 : 2-3 : - : - : RS422 - ICOM : :---------------------------------------------------------------------: For normal on-line operation JMPC must be installed. If endless self test is desired, the sense switches must be set to the up (on) position. ___________________________________L.E.D.s______________________________________ There are two LEDs near the top of the NIMLC PCBA. They function as follows: CR2 (red) indicates a NIMLC Memory parity error. CR4 (green) indicates successful completion of self-test. Below the two LEDs is a momentary switch which resets the red LED. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB026 Pg002 _____________________________________NOTES______________________________________ 1. The addresses shown in the above table apply ONLY to the 9X00 Systems. 2. This IMLC PCBA - P/N 903381-001 MUST be installed to the RIGHT of the CPU PCBAs. If it becomes necessary to install the IMLC to the left of the CPU PCBAs, IMLC PCBA - P/N 903534-001 must be used. ORIGINATOR: H. Mitchell/N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB026 Pg003 FIB 00027 06/23/88 *** NIMLC PCBA - 903534-001 (810/7xxx/8xxx Systems) *** The following information applies to this PCBA part number: MM896030 - NIMLC - 903534-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The SUBTYPE Switch, SW-1, at location 2M, must be set as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- X X X X O C C C The BOARD (ISDC) ADDRESS Switch, SW-3, at location 2J, options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 --------------------- --------------------- --------------------- 63....X C C C C O C C 41....X C O O C C O C 19....X C C O O O O C 62....X O C C C O C C 40....X O O O C C O C 18....X O C O O O O C 61....X C O C C O C C 39....X C C C O C O C 17....X C O O O O O C 60....X O O C C O C C 38....X O C C O C O C 16....X O O O O O O C 59....X C C O C O C C 37....X C O C O C O C 15....X C C C C C C O 58....X O C O C O C C 36....X O O C O C O C 14....X O C C C C C O. 57....X C O O C O C C 35....X C C O O C O C 13....X C O C C C C O 56....X O O O C O C C 34....X O C O O C O C 12....X O O C C C C O 55....X C C C O O C C 33....X C O O O C O C 11....X C C O C C C O 54....X O C C O O C C 32....X O O O O C O C 10....X O C O C C C O 53....X C O C O O C C 31....X C C C C O O C 9....X C O O C C C O 52....X O O C O O C C 30....X O C C C O O C 8....X O O O C C C O 51....X C C O O O C C 29....X C O C C O O C 7....X C C C O C C O 50....X O C O O O C C 28....X O O C C O O C 6....X O C C O C C O 49....X C O O O O C C 27....X C C O C O O C 5....X C O C O C C O 48....X O O O O O C C 26....X O C O C O O C 4....X O O C O C C O 47....X C C C C C O C 25....X C O O C O O C 3....X C C O O C C O 46....X O C C C C O C 24....X O O O C O O C 2....X O C O O C C O 45....X C O C C C O C 23....X C C C O O O C 1....X C O O O C C O 44....X O O C C C O C 22....X O C C O O O C 0.......NOT USED.... 43....X C C O C C O C 21....X C O C O O O C 42....X O C O C C O C 20....X O O C O O O C The PORT A Switch, SW-4, at location 8U, can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............O O O O O O O O ICOM - DATAWORD..........C O C C C C C C X.21.....................C C O O O O O O (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB027 Pg001 The PORT B Switch, SW-5, at location 7U, can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............O O O O O O O O ICOM - DATAWORD..........C O C C C C C C X.21.....................C C O O O O O O The CPU TYPE switch, SW-6, at location 4C, can be set for the following options: The PCBA is etched 160 and 200: Switch Positions CPU TYPE 4 3 2 1 -------- ------- 810.......Set all four switches to the '200' position (end nearest 4B down) MPx.......Set all four switches to the '160' position (end nearest 4D down) The PORT A switch, SW-7, at location 9U, can be set for the following options: Switch Positions Option 4 3 2 1 -------------- ------- XCOM - RS232.................C C C C NOTE: CLOSED = toward the X stamped on ICOM - DATAWORD..............O O O O the PCBA X.21.........................C C C C OPEN = toward the I The PORT B switch, SW-8, at location 9L can be set for the following options: Switch Positions Option 4 3 2 1 -------------- ------- XCOM - RS232.................C C C C NOTE: CLOSED = toward the X stamped on ICOM - DATAWORD..............O O O O the PCBA X.21.........................C C C C OPEN = toward the I ____________________________________JUMPERS_____________________________________ JMP C near location 3N may be installed for endless self-test. ___________________________________L.E.D.s______________________________________ There are two LEDs near the top of the NIMLC PCBA. They function as follows: CR2 (red) indicates a NIMLC Memory parity error. CR4 (green) indicates successful completion of self-test. Below the two LEDs is a momentary switch which resets the red LED. _____________________________________NOTES______________________________________ 1. The addresses shown in the above table DO NOT apply to the 9X00 Systems. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB027 Pg002 FIB 00028 03/29/89 *** NIMLC PCBA - 903534-001 (9xxx and ASxx Systems) *** The following information applies to this PCBA part number: MM896030 - NIMLC - 903534-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The SUBTYPE Switch, SW-1, at location 2M, must be set as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- X X X X O C C C The BOARD (ISDC) ADDRESS Switch, SW-3, at location 2J, options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 No. 8 7 6 5 4 3 2 1 --------------------- --------------------- --------------------- 63....X C C C C O C O 41....X C O O C C O O 19....not used 62....X O C C C O C O 40....X O O O C C O O 18....not used 61....X C O C C O C O 39....X C C C O C O O 17....not used 60....X O O C C O C O 38....X O C C O C O O 16....not used 59....X C C O C O C O 37....X C O C O C O O 15....X C C C C C C O 58....X O C O C O C O 36....X O O C O C O O 14....X O C C C C C O. 57....X C O O C O C O 35....X C C O O C O O 13....X C O C C C C O 56....X O O O C O C O 34....X O C O O C O O 12....X O O C C C C O 55....X C C C O O C O 33....X C O O O C O O 11....X C C O C C C O 54....X O C C O O C O 32....X O O O O C O O 10....X O C O C C C O 53....X C O C O O C O 31....not used 9....X C O O C C C O 52....X O O C O O C O 30....not used 8....X O O O C C C O 51....X C C O O O C O 29....not used 7....X C C C O C C O 50....X O C O O O C O 28....not used 6....X O C C O C C O 49....X C O O O O C O 27....not used 5....X C O C O C C O 48....X O O O O O C O 26....not used 4....X O O C O C C O 47....X C C C C C O O 25....not used 3....X C C O O C C O 46....X O C C C C O O 24....not used 2....X O C O O C C O 45....X C O C C C O O 23....not used 1....X C O O O C C O 44....X O O C C C O O 22....not used 0....not used 43....X C C O C C O O 21....not used 42....X O C O C C O O 20....not used The PORT A Switch, SW-4, at location 8U, can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............O O O O O O O O ICOM - DATAWORD..........C O C C C C C C X.21.....................C C O O O O O O (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB028 Pg001 The PORT B Switch, SW-5, at location 7U, can be set for the following options: Switch Positions Option 8 7 6 5 4 3 2 1 -------------- --------------- XCOM - RS232.............O O O O O O O O ICOM - DATAWORD..........C O C C C C C C X.21.....................C C O O O O O O The CPU TYPE switch, SW-6, at location 4C, can be set for the following options: The PCBA is etched 160 and 200: Switch Positions CPU TYPE 4 3 2 1 -------- ------- 810........Set all four switches to the '200' position (end nearest 4B down) . MPx & ASx..Set all four switches to the '160' position (end nearest 4D down) The PORT A switch, SW-7, at location 9U, can be set for the following options: Switch Positions Option 4 3 2 1 -------------- ------- XCOM - RS232.................C C C C NOTE: CLOSED = toward the X stamped on ICOM - DATAWORD..............O O O O the PCBA X.21.........................C C C C OPEN = toward the I The PORT B switch, SW-8, at location 9L can be set for the following options: Switch Positions Option 4 3 2 1 -------------- ------- XCOM - RS232.................C C C C NOTE: CLOSED = toward the X stamped on ICOM - DATAWORD..............O O O O the PCBA X.21.........................C C C C OPEN = toward the I ___________________________________L.E.D.s______________________________________ There are two LEDs near the top of the NIMLC PCBA. They function as follows: CR2 (red) indicates a NIMLC Memory parity error. CR4 (green) indicates successful completion of self-test. Below the two LEDs is a momentary switch which resets the red LED. ____________________________________JUMPERS_____________________________________ JMP C near location 3N: For normal on-line operation this jumper must be installed if in a 9xxx system, must be removed if in an ASxx system. If endless self test is desired, the sense switches must be set to the up (on) position. JMP G 16MHZ CLOCK INSTALLED _____________________________________NOTES______________________________________ 1. The addresses shown in the above table apply ONLY to the 9X00 & ASx Systems. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB028 Pg002 ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB028 Pg003 FIB 00029 05/02/88 *** N8WAY PCBA (810/7xxx/8xxx Systems) *** The following information applies to this PCBA part number: MM896040 - N8WAY PCBA - 903383-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The SUBTYPE switch, SW-2, at location 1A, must be set as follows: Switch Positions 7 6 5 4 3 2 1 ------------- X X X X O O O The BOARD (ISDC) ADDRESS Switch - SW-1, at location 3B, options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 -------------------- -------------------- -------------------- 0.....Not Used 22.....C O O O C C O 44.....C O C C C O O 1.....O C C O O O C 23.....C O O O C C C 45.....C O C C C O C 2.....O C C O O C O 24.....C O O C O O O 46.....C O C C C C O 3.....O C C O O C C 25.....C O O C O O C 47.....C O C C C C C 4.....O C C O C O O 26.....C O O C O C O 48.....C C O O O O O 5.....O C C O C O C 27.....C O O C O C C 49.....C C O O O O C 6.....O C C O C C O 28.....C O O C C O O 50.....C C O O O C O 7.....O C C O C C C 29.....C O O C C O C 51.....C C O O O C C 8.....O C C C O O O 30.....C O O C C C O 52.....C C O O C O O 9.....O C C C O O C 31.....C O O C C C C 53.....C C O O C O C 10.....O C C C O C O 32.....C O C O O O O 54.....C C O O C C O 11.....O C C C O C C 33.....C O C O O O C 55.....C C O O C C C 12.....O C C C C O O 34.....C O C O O C O 56.....C C O C O O O 13.....O C C C C O C 35.....C O C O O C C 57.....C C O C O O C 14.....O C C C C C O 36.....C O C O C O O 58.....C C O C O C O 15.....O C C C C C C 37.....C O C O C O C 59.....C C O C O C C 16.....C O O O O O O 38.....C O C O C C O 60.....C C O C C O O 17.....C O O O O O C 39.....C O C O C C C 61.....C C O C C O C 18.....C O O O O C O 40.....C O C C O O O 62.....C C O C C C O 19.....C O O O O C C 41.....C O C C O O C 63.....C C O C C C C 20.....C O O O C O O 42.....C O C C O C O 21.....C O O O C O C 43.....C O C C O C C ____________________________________JUMPERS____________________________________ When used in Series 7xxx or 8xxx: JMPE (two jumper posts near location 2G) should be closed... Jumper must be in place. JMPF (three jumper posts near location 1N) should be jumpered 1 to 2. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB029 Pg001 When used in System 810: JMPE (two jumper posts near location 2G) should be open... NO jumper in place. JMPF (three jumper posts near location 1N) should be jumpered from 2 to 3. ____________________________________CABLES____________________________________ . There are eight jacks on the 8-way used to connect serial devices to the ports: J1, the uppermost jack, is the connector for the first 8-way port, 0. J8, the lowermost jack, is the connector for the last 8-way port, 7. The auto-dial connector, J9 is recessed from the outer PCBA edge, near the J8 at the bottom of the PCBA. ____________________________________NOTES______________________________________ 1. The addresses shown in the above table DO NOT apply to the 9X00 Systems. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB029 Pg002 FIB 00030 09/25/87 *** N8WAY PCBA (9xxx Systems) *** The following information applies to this PCBA part number: MM896040 - N8WAY - 903383-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The DEVICE SUBTYPE switch, SW-2, at location 1A, must be set as follows: Switch Positions 7 6 5 4 3 2 1 ------------- X X X X O O O The BOARD (ISDC) ADDRESS Switch - SW-1, at location 3B, options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 -------------------- -------------------- -------------------- 0.....Not Used 22.....Not Used 44.....O O C C C O O 1.....O C C O O O C 23.....Not Used 45.....O O C C C O C 2.....O C C O O C O 24.....Not Used 46.....O O C C C C O 3.....O C C O O C C 25.....Not Used 47.....O O C C C C C 4.....O C C O C O O 26.....Not Used 48.....O C O O O O O 5.....O C C O C O C 27.....Not Used 49.....O C O O O O C 6.....O C C O C C O 28.....Not Used 50.....O C O O O C O 7.....O C C O C C C 29.....Not Used 51.....O C O O O C C 8.....O C C C O O O 30.....Not Used 52.....O C O O C O O 9.....O C C C O O C 31.....Not Used 53.....O C O O C O C 10.....O C C C O C O 32.....O O C O O O O 54.....O C O O C C O 11.....O C C C O C C 33.....O O C O O O C 55.....O C O O C C C 12.....O C C C C O O 34.....O O C O O C O 56.....O C O C O O O 13.....O C C C C O C 35.....O O C O O C C 57.....O C O C O O C 14.....O C C C C C O 36.....O O C O C O O 58.....O C O C O C O 15.....O C C C C C C 37.....O O C O C O C 59.....O C O C O C C 16.....Not Used 38.....O O C O C C O 60.....O C O C C O O 17.....Not Used 39.....O O C O C C C 61.....O C O C C O C 18.....Not Used 40.....O O C C O O O 62.....O C O C C C O 19.....Not Used 41.....O O C C O O C 63.....O C O C C C C 20.....Not Used 42.....O O C C O C O 21.....Not Used 43.....O O C C O C C ____________________________________JUMPERS____________________________________ JUMP E (near location 2G) - Jumper from 1 to 2 JUMP F (near location 1N) - Jumper from 1 to 2 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB030 Pg001 ____________________________________CABLES____________________________________ . There are eight jacks on the 8-way used to connect serial devices to the ports: J1, the uppermost jack, is the connector for the first 8-way port, 0. J8, the lowermost jack, is the connector for the last 8-way port, 7. The auto-dial connector, J9 is recessed from the outer PCBA edge, near the J8 at the bottom of the PCBA. _____________________________________NOTES_____________________________________ 1. The addresses shown in the above table apply ONLY to the 9X00 Systems. 2. Addresses 16 through 31 MUST NOT be used. 3. Any addresses other than those shown above are invalid. ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB030 Pg002 FIB 00031 07/17/90 *** N16WAY PCBA (7xxx/8xxx Systems) *** The following information applies to this PCBA part number: MM896140 - N16WAY PCBA - 903437-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The DEVICE SUBTYPE switch, SW-1, at location 6N, must be set as follows: Switch Positions 7 6 5 4 3 2 1 ------------- C C C C C C C (All positions closed) The BOARD (ISDC) ADDRESS Switch, SW-2, at location 4K, must be set to assign two ISDC addresses to each N16WAY. The setting options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. Bd. Sw. Pos. No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 -------------------- --------------------- --------------------- 2/3....O C C O O C X 24/25...C O O C O O X 46/47...C O C C C C X 4/5....O C C O C O X 26/27...C O O C O C X 48/49...C C O O O O X 6/7....O C C O C C X 28/29...C O O C C O X 50/51...C C O O O C X 8/9....O C C C O O X 30/31...C O O C C C X 52/53...C C O O C O X 10/11...O C C C O C X 32/33...C O C O O O C 54/55...C C O O C C X 12/13...O C C C C O X 34/35...C O C O O C X 56/57...C C O C O O X 14/15...O C C C C C X 36/37...C O C O C O X 58/60...C C O C O C X 16/17...C O O O O O X 38/39...C O C O C C X 60/61...C C O C C O X 18/19...C O O O O C X 40/41...C O C C O O X 62/63...C C O C C C X 20/21...C O O O C O X 42/43...C O C C O C X 22/23...C O O O C C X 44/45...C O C C C O X __________________________Other Switches and L.E.D.s____________________________ There are four LEDs on this board, two at the top and two at the bottom: 1. A RED LED at the top indicates a parity error in the ODD half. 2. A RED LED at the bottom indicates a parity error in the EVEN half. 3. A GREEN LED at the top indicates self-test has passed in the ODD half. 4. A GREEN LED at the bottom indicates self-test has passed in the EVEN half. There is a momentary switch near the top which resets the RED LEDs. _____________________________________CABLES____________________________________ There are four jacks used to connect the ports to the backpanel - J1,J2,J3 and J4. The first four ports (0-3) are on the bottom jack - J1, The last four ports (12-15) are on the top jack J4. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB031 Pg001 _____________________________________NOTES______________________________________ 1. The addresses shown in the above table apply only to 7xxx and 8xxx Systems. 2. Any addresses other than those shown above are invalid. ORIGINATOR: H. MITCHELL MODIFIED BY: Norm Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB031 Pg002 FIB 00032 07/17/90 *** N16WAY PCBA (9xxx and Advanced Series Systems) *** The following information applies to this PCBA part number: MM896140 - N16WAY - 903437-001 (See Note 1, below) -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- The DEVICE SUBTYPE switch, SW-1, at location 6N, must be set as follows: Switch Positions 7 6 5 4 3 2 1 ------------- C C C C C C C (All positions closed) The BOARD (ISDC) ADDRESS Switch, SW-2, at location 4K, must be set to assign two ISDC addresses to each N16WAY. The setting options are as follows: Bd. Sw. Pos. Bd. Sw. Pos. No. 7 6 5 4 3 2 1 No. 7 6 5 4 3 2 1 --------------------- --------------------- 2/3....O C C O O C X 40/41...O O C C O O X 4/5....O C C O C O X 42/43...O O C C O C X 6/7....O C C O C C X 44/45...O O C C C O X 8/9....O C C C O O X 46/47...O O C C C C X 10/11...O C C C O C X 48/49...O C O O O O X 12/13...O C C C C O X 50/51...O C O O O C X 14/15...O C C C C C X 52/53...O C O O C O X Do Not use 16 thru 31 54/55...O C O O C C X 32/33...O O C O O O X 56/57...O C O C O O X 34/35...O O C O O C X 58/59...O C O C O C X 36/37...O O C O C O X 60/61...O C O C C O X 38/39...O O C O C C X 62/63...O C O C C C X __________________________Other Switches and L.E.D.s____________________________ There are four LEDs on this board, two at the top and two at the bottom: 1. A RED LED at the top indicates a parity error in the ODD half. 2. A RED LED at the bottom indicates a parity error in the EVEN half. 3. A GREEN LED at the top indicates self-test has passed in the ODD half. 4. A GREEN LED at the bottom indicates self-test has passed in the EVEN half. There is a momentary switch near the top which resets the RED LEDs. _____________________________________CABLES____________________________________ There are four jacks used to connect the ports to the backpanel - J1,J2,J3 and J4. The first four ports (0-3) are on the bottom jack - J1, The last four ports (12-15) are on the top jack J4. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB032 Pg001 _____________________________________NOTES______________________________________ 1. The addresses shown in the above table apply ONLY to 9X00 and Advanced Series Systems. 2. Any addresses other than those shown above are invalid. ORIGINATOR: H. MITCHELL MODIFIED BY: Norm Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB032 Pg002 FIB 00033 08/16/91 *** SMDI and SMDII PCBAs *** The following information applies to these PCBA part numbers: MM560000 - SMDI PCBA - 903531-001 MM294001 - SMDI PCBA - 903591-001 MM894075 - SMDII PCBA - 903633-001 There are no dip switches to be set on these PCBAs. There is one LED on this PCBA, near the top. It indicates that power is on. ADDRESSING: On the SMDI PCBAs (903531-001 & 903591-001), there is no drive address select jumpering. Each SMDI will accept two drives. The drive whose radial cable connects to SMDI connector J6 must have its address set for drive 0 (or 2) and the drive whose radial cable connects to SMDI connector J5 must have its address set for drive 1 (or 3). On the SMDII PCBA (903663-001), jumper JP1, located between the chips at locations 5E and 5F, is used to select the addresses which the DMA will be presenting to the SMDII. The silkscreen on the PCBA shows how to jumper and depends whether the drives connected to the SMDII are 0 and 1 or 2 and 3 (controller relative rather than system relative, the first two drives on a controller will always be 0 & 1 even if they are drives 6 & 7 to the system). Both drives attached to the SMDII must have their addresses set to drive 0. TIME DELAY: On the SMDI PCBAs (903531-001 & 903591-001), near the Power-On LED, is located a Time Delay jumper block. This jumper selects the time delay for the PFD IN - to - PFD OUT signal used in the sequencing of "run power" to each 8" drive. The jumper may be placed in any one of the eight positions to delay the PFD OUT signal from 10 to 80 seconds. The time delays provided by each jumper position are as follows: JUMPER DELAY POSITION (SECONDS) -------- --------- 0 10 1 20 2 30 3 40 4 50 5 60 6 70 7 80 Installation in position 0 is satisfactory for the MPx Systems. On the SMDII PCBA (903633-001), near the bottom and between the Radial cable connectors, are located JP2 and JP3. These jumpers function the same as the jumper block mentioned in the above SMDI paragraph, except that there is a separate jumper for the two drives attached to the SMDII; JP3 controls drive 0 and JP2 controls drive 1. The time delay is marked on the PCBA under the jumper blocks. The selections are 0, 30 and 60 seconds. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB033 Pg001 Jumpering for 0 seconds is satisfactory for MPx Systems. NOTE: If the jumper(s) are left out of these PCBAs, the disk drive(s) will not power down with the system. TERMINATION: The SMD interface PCBA is terminated by three (3) sip resistor networks, which are socketed for easy removal and replacement (near J1). If no other drives or SMDs are connected to the SMD PCBA BUS OUT connector - J2, then the terminators must be installed. Terminator SIP pack orientation is as follows: SMDI PCBA - pin 1 (identified by a black dot) faces pin 50 (left) of the 50 pin bus cable in connector J1. When correctly oriented, the black dot on all three resistor packs (SIPs) will be towards pin 50 (left) of the bus cable. SMDII PCBA - pin 1 (identified by a black dot) faces pin 1 (right) of the 50 pin bus cable in connector J1. When correctly oriented, the black dot on all three resistor packs (SIPs) will be towards pin 1 (right) of the bus cable. There may have been a few SMDII PCBAs revision "X1" shipped in the MPx 9100 Beta units. The correct terminator pack orientation on these PCBAs will be the same as the SMDI PCBAs. The SMDI has a daisy chained bus cable. The last drive attached to the SMDI must have a bus terminator installed. The SMDII has a separate bus cable connecting to each drive attached. All drives attached to the SMDII must have a bus terminator attached. NOTE: The SMDII can be used to replace an SMDI (and vice-versa) if the additional bus cable/terminators are available. However, the SMDII is required in the 71XX systems. ORIGINATOR: Norm Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB033 Pg002 FIB 00034 08/03/87 *** TDP PCBA (7xxx/8xxx Systems) *** The following information applies to these PCBA part numbers: MM890090 - TDP - 903217-001 or 903453-001 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the switches as required as shown below: Switch Switch Positions Location 8 7 6 5 4 3 2 1 Conditions -------- --------------- ------------- 1B.................O O O C O C C O..........UNCONDITIONAL 1D.................O O C C O O C O..........UNCONDITIONAL 4B.................C O O O O O O O..........UNCONDITIONAL 4C.................C C O X O O O O..........BAND PRINTER INSTALLED 4C.................O C C X O O O O..........MATRIX PRINTER INSTALLED 4C.................O O C X O O O O..........DMP PRINTER INSTALLED 2Z...... 8 & 4.....C - - - C - - -..........REEL-REEL TAPE INSTALLED 2Z...... 8 & 4.....C - - - O - - -..........STREAMER TAPE INSTALLED 2Z...... 7,6 & 5 - C C O - - - -..........DISK 1 = P66 2Z...... 7,6 & 5 - C O C - - - -..........DISK 1 = T83 2Z...... 7,6 & 5 - C O O - - - -..........DISK 1 = P154 2Z...... 7,6 & 5 - O C C - - - -..........DISK 1 = T303 2Z...... 7,6 & 5 - C C C - - - -..........DISK 1 = P314 2Z...... 3,2 & 1 - - - - - C C O..........DISK 0 = P66 2Z...... 3,2 & 1 - - - - - C O C..........DISK 0 = T83 2Z...... 3,2 & 1 - - - - - C O O..........DISK 0 = P154 2Z...... 3,2, & 1 - - - - - O C C..........DISK 0 = T303 2Z...... 3,2, & 1 - - - - - C C C..........DISK 0 = P314 ORIGINATOR: H. MITCHELL .X HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB034 Pg001 FIB 00035 05/29/87 *** VCON PCBA *** The following information applies to this PCBA part number: MM896050 - VCON - 903377-001 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- ....................CONFIGURATION SWITCH...................... Switch Switch Positions Location 8 7 6 5 4 3 2 1 Conditions -------- --------------- ---------- 8V...........O O O C O O C C..........UNCONDITIONAL .........BOARD ADDRESS SWITCH on 7000/7100/8000 Systems....... Switch Switch Positions Location 8 7 6 5 4 3 2 1 Conditions -------- --------------- ---------- 2C...........X X O C C C C C..........VCON #0 2C...........X X O C C C C O..........VCON #1 2C...........X X O C C C O C..........VCON #2 2C...........X X O C C C O O..........VCON #3 2C...........X X O C C O C C..........VCON #4 2C...........X X O C C O C O..........VCON #5 2C...........X X O C C O O C..........VCON #6 2C...........X X O C C O O O..........VCON #7 2C...........X X O C O C C C..........VCON #8 2C...........X X O C O C C O..........VCON #9 2C...........X X O C O C O C..........VCON #10 2C...........X X O C O C O O..........VCON #11 2C...........X X O C O O C C..........VCON #12 2C...........X X O C O O C O..........VCON #13 2C...........X X O C O O O C..........VCON #14 2C...........X X O C O O O O..........VCON #15 2C...........X X O O C C C C..........VCON #16 2C...........X X O O C C C O..........VCON #17 2C...........X X O O C C O C..........VCON #18 2C...........X X O O C C O O..........VCON #19 2C...........X X O O C O C C..........VCON #20 2C...........X X O O C O C O..........VCON #21 2C...........X X O O C O O C..........VCON #22 2C...........X X O O C O O O..........VCON #23 2C...........X X O O O C C C..........VCON #24 2C...........X X O O O C C O..........VCON #25 2C...........X X O O O C O C..........VCON #26 2C...........X X O O O C O O..........VCON #27 2C...........X X O O O O C C..........VCON #28 2C...........X X O O O O C O..........VCON #29 2C...........X X O O O O O C..........VCON #30 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB035 Pg001 .........BOARD ADDRESS SWITCH on 9000/9100/9500 Systems......... Switch Switch Positions Location 8 7 6 5 4 3 2 1 Conditions -------- --------------- ---------- 2C...........X X X O C C C C..........VCON #0 2C...........X X X O C C C O..........VCON #1 2C...........X X X O C C O C..........VCON #2 2C...........X X X O C C O O..........VCON #3 2C...........X X X O C O C C..........VCON #4 2C...........X X X O C O C O..........VCON #5 2C...........X X X O C O O C..........VCON #6 2C...........X X X O C O O O..........VCON #7 2C...........X X X O O C C C..........VCON #8 2C...........X X X O O C C O..........VCON #9 2C...........X X X O O C O C..........VCON #10 2C...........X X X O O C O O..........VCON #11 2C...........X X X O O O C C..........VCON #12 2C...........X X X O O O C O..........VCON #13 2C...........X X X O O O O C..........VCON #14 Do not address VCON boards above 14 on 9X00 Systems ____________________________________JUMPERS____________________________________ JUMPERS 810 Systems MPx Systems ------------------------- ------------------ ------------------ JUMP 8 (near location 2C) Jumper from 1 to 2 Jumper from 2 to 3 (200 NS) (160 NS) ___________________________________CABLES______________________________________ The video cables connect to the four jacks - J0,J1,J2 AND J3: J0 is the bottom jack and connects to the first HSVDT of the VCON (T0). J3 is the top jack and connects to the last HSVDT of the VCON (T3). ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB035 Pg002 FIB 00036 05/29/87 *** WCS PCBA (810 Systems) *** The following information applies to this PCBA part number: MM890040 - 8K WCS - 903247-004 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- Set the Computer Engine No. Switch, SW-1,at location 1C to one of the following options: Switch Positions Computer Engine 8 7 6 5 4 3 2 1 --------------- --------------- 0 X O O O O C O O 1 X O O O O C O C 2 X O O O O C C O ORIGINATOR: H. MITCHELL HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB036 Pg001 FIB 00037 06/01/88 *** Memory Time-out & Parity Dump Analysis *** Memory dumps may be reported in several ways depending on OS level and the error being detected. Some of the different Four-tuples are: MEMORY PARITY ERRORS MEMORY TIME-OUT ERRORS ____________________ ______________________ 1,0,xxx,6 1,0,xxx,5 1,64,xxx,6 1,64,xxx,5 1,128,xxx,6 1,128,xxx,5 1,255,xxx,6 1,255,xxx,5 28,106,1,xxx 28,105,1,xxx 1,255,255,6 - probable bad ESTK 1,255,255,5 - probable bad ESTK Whenever a Memory Time-out Error or a Memory Parity Error four-tuple occurs, the value of X (contained within the four-tuple) may be used to determine which system PCBA caused the dump. Since the memory maps are different between the 7XXX/8XXX and the 9XXX Systems, separate charts for diagnosis are required. Use the appropriate chart below to determine which PCBA caused the dump. *** 7XXX or 8XXX SYSTEMS *** The following are examples of how to use the chart: EXAMPLE #1: The system has dumped, producing a four-tuple of 1,0,76,6. In this case the four-tuple "X VALUE" is 76. Locate 76 in the "FOUR-TUPLE X VALUE" column. This number falls within the bracket for the second half megabyte of the 5th megabyte of main memory. The failing PCBA may be found by observing the address switch setting on the memory PCBAs, looking for Megabyte 5, second half. EXAMPLE #2: The system has dumped, producing a four-tuple of 1,0,199,5. In this case the . four-tuple "X VALUE" is 199. Locate 199 in the "FOURTUPLE X VALUE" column. The arrow to the right of 199 indicates that the ISDC that is addressed "08" caused this dump. Remember that 16ways and BMTCs have two ISDC addresses assigned. FOUR-TUPLE FOUR-TUPLE X X VALUE FAILING PCBA <> VALUE FAILING PCBA ----- -------------------- <> ----- -------------------- 0 \ <> 128 --> unused 1 \ <> 129 --> unused 2 \ 1st half of <> 130 --> unused 3 > 1st Megabyte <> 131 --> unused 4 / of Main Memory <> 132 --> unused 5 / <> 133 --> unused 6 / <> 134 --> unused 7 _/ <> 135 --> unused (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB037 Pg001 FOUR-TUPLE FOUR-TUPLE X X VALUE FAILING PCBA <> VALUE FAILING PCBA ----- -------------------- <> ----- -------------------- 8 \ <> 136 --> unused 9 \ <> 137 --> unused 10 \ <> 138 --> unused 11 \ 2nd half of <> 139 --> unused 12 > 1st Megabyte <> 140 --> unused 13 / of Main Memory <> 141 --> unused 14 / <> 142 --> unused 15 _ / <> 143 --> unused 16 \ <> 144 --> ISDC addressed 63 17 \ <> 145 --> ISDC addressed 62 18 \ 1st half of <> 146 --> ISDC addressed 61 19 > 2nd Megabyte <> 147 --> ISDC addressed 60 20 / of Main Memory <> 148 --> ISDC addressed 59 21 / <> 149 --> ISDC addressed 58 22 / <> 150 --> ISDC addressed 57 23 _/ <> 151 --> ISDC addressed 56 24 \ <> 152 --> ISDC addressed 55 25 \ <> 153 --> ISDC addressed 54 26 \ <> 154 --> ISDC addressed 53 27 \ 2nd half of <> 155 --> ISDC addressed 52 28 > 2nd Megabyte <> 156 --> ISDC addressed 51 29 / of Main Memory <> 157 --> ISDC addressed 50 30 / <> 158 --> ISDC addressed 49 31 _ / <> 159 --> ISDC addressed 48 32 \ <> 160 --> ISDC addressed 47 33 \ <> 161 --> ISDC addressed 46 34 \ 1st half of <> 162 --> ISDC addressed 45 35 > 3rd Megabyte <> 163 --> ISDC addressed 44 36 / of Main Memory <> 164 --> ISDC addressed 43 37 / <> 165 --> ISDC addressed 42 38 / <> 166 --> ISDC addressed 41 39 _/ <> 167 --> ISDC addressed 40 40 \ <> 168 --> ISDC addressed 39 41 \ <> 169 --> ISDC addressed 38 42 \ <> 170 --> ISDC addressed 37 43 \ 2nd half of <> 171 --> ISDC addressed 36 44 > 3rd Megabyte <> 172 --> ISDC addressed 35 45 / of Main Memory <> 173 --> ISDC addressed 34 46 / <> 174 --> ISDC addressed 33 47 _ / <> 175 --> ISDC addressed 32 48 \ <> 176 --> ISDC addressed 31 49 \ <> 177 --> ISDC addressed 30 50 \ 1st half of <> 178 --> ISDC addressed 29 51 > 4th Megabyte <> 179 --> ISDC addressed 28 52 / of Main Memory <> 180 --> ISDC addressed 27 53 / <> 181 --> ISDC addressed 26 54 / <> 182 --> ISDC addressed 25 55 _/ <> 183 --> ISDC addressed 24 56 \ <> 184 --> ISDC addressed 23 57 \ <> 185 --> ISDC addressed 22 58 \ <> 186 --> ISDC addressed 21 59 \ 2nd half of <> 187 --> ISDC addressed 20 60 > 4th Megabyte <> 188 --> ISDC addressed 19 61 / of Main Memory <> 189 --> ISDC addressed 18 62 / <> 190 --> ISDC addressed 17 63 _ / <> 191 --> ISDC addressed 16 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB037 Pg002 FOUR-TUPLE FOUR-TUPLE X X VALUE FAILING PCBA <> VALUE FAILING PCBA ----- -------------------- <> ----- -------------------- 64 \ <> 192 --> ISDC addressed 15 65 \ <> 193 --> ISDC addressed 14 66 \ 1st half of <> 194 --> ISDC addressed 13 67 > 5th Megabyte <> 195 --> ISDC addressed 12 68 / of Main Memory <> 196 --> ISDC addressed 11 69 / <> 197 --> ISDC addressed 10 70 / <> 198 --> ISDC addressed 09 71 _/ <> 199 --> ISDC addressed 08 72 \ <> 200 --> ISDC addressed 07 73 \ <> 201 --> ISDC addressed 06 74 \ <> 202 --> ISDC addressed 05 75 \ 2nd half of <> 203 --> ISDC addressed 04 76 > 5th Megabyte <> 204 --> ISDC addressed 03 77 / of Main Memory <> 205 --> ISDC addressed 02 78 / <> 206 --> ISDC addressed 01 79 _ / <> 207 --> ISDC #00 MCS 4way 80 \ <> 208 --> unused 81 \ <> 209 --> unused 82 \ 1st half of <> 210 --> unused 83 > 6th Megabyte <> 211 --> unused 84 / of Main Memory <> 212 --> unused 85 / <> 213 --> unused 86 / <> 214 --> unused 87 _/ <> 215 --> unused 88 \ <> 216 --> unused 89 \ <> 217 --> unused 90 \ <> 218 --> unused 91 \ 2nd half of <> 219 --> unused 92 > 6th Megabyte <> 220 --> unused 93 / of Main Memory <> 221 --> unused 94 / <> 222 --> unused 95 _ / <> 223 --> unused 96 \ <> 224 --> VCON addressed 00 97 \ <> 225 --> VCON addressed 01 98 \ 1st half of <> 226 --> VCON addressed 02 99 > 7th Megabyte <> 227 --> VCON addressed 03 100 / of Main Memory <> 228 --> VCON addressed 04 101 / <> 229 --> VCON addressed 05 102 / <> 230 --> VCON addressed 06 103 _/ <> 231 --> VCON addressed 07 104 \ <> 232 --> VCON addressed 08 105 \ <> 233 --> VCON addressed 09 106 \ <> 234 --> VCON addressed 10 107 \ 2nd half of <> 235 --> VCON addressed 11 108 > 7th Megabyte <> 236 --> VCON addressed 12 109 / of Main Memory <> 237 --> VCON addressed 13 110 / <> 238 --> VCON addressed 14 111 _ / <> 239 --> VCON addressed 15 112 \ <> 240 --> VCON addressed 16 113 \ <> 241 --> VCON addressed 17 114 \ 1st half of <> 242 --> VCON addressed 18 115 > 8th Megabyte <> 243 --> VCON addressed 19 116 / of Main Memory <> 244 --> VCON addressed 20 117 / <> 245 --> VCON addressed 21 118 / <> 246 --> VCON addressed 22 119 _/ <> 247 --> VCON addressed 23 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB037 Pg003 FOUR-TUPLE FOUR-TUPLE X X VALUE FAILING PCBA <> VALUE FAILING PCBA ----- -------------------- <> ----- -------------------- 120 \ <> 248 --> VCON addressed 24 121 \ <> 249 --> VCON addressed 25 122 \ <> 250 --> VCON addressed 26 123 \ 2nd half of <> 251 --> VCON addressed 27 124 > 8th Megabyte <> 252 --> VCON addressed 28 125 / of Main Memory <> 253 --> VCON addressed 29 126 / <> 254 --> VCON addressed 30 127 _ / <> 255 --> Reserved (globals/kbd) ------------------------------------------------------------------------------- *** 9XXX SYSTEMS *** If the CPU number (indicated in the dump) contains an IDC, use the X value (from the four-tuple) listed under "IDC". In this case, the failing PCBA is one of the four shown bracketed. See example #1 below: EXAMPLE #1: The dump shows a 1,0,55,5 four-tuple and CPU 1 on a 9020 system. CPU 1 is checked and found to have an IDC - not an IDC-64. The "X VALUE" from the four-tuple is 55. Find the number 55, looking under the "X VALUE IDC" column. Looking to the right, you will find that this failure was caused by one of the ISDCs addressed 48,49,50 or 51. Remember that 16-ways and BMTCs have two addresses assigned to them. Isolation of the exact failing ISDC (of the four possibles) must be done by replacement (if there is no error LED illuminated). If the CPU number (indicated in the dump) contains an IDC-64, use the X value (from the four-tuple) listed under "IDC-64". In this case the failing PCBA is the one immediately to the right of the X value. See example #2 below: EXAMPLE #2: The dump shows a 1,0,55,6 four-tuple and CPU #0 on a 9530 system. CPU #0 is checked and found to have an IDC-64 - not an IDC. The "X VALUE" from the four-tuple is 55. Find the number 55, looking under the "X VALUE IDC-64" column. Looking to the right, you will find that this failure was caused by the Main Memory PCBA that is addressed as 1st half megabyte of the 4th megabyte. ** NOTE ** RSTK PCBA parity errors will also cause a 1,0,X,6 dump. The dump message, therefore, does not descriminate between RSTK and Main Memory errors. It is necessary to check the error LEDs if a memory PCBA is indicated in the chart below. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB037 Pg004 X X <> X X VALUE VALUE <> VALUE VALUE IDC IDC-64 FAILING PCBA <> IDC IDC-64 FAILING PCBA ----- ------ --------------- <> ----- ------ --------------- 0 0 \ <> 32 128 \ 1 \ <> 129 \ 2 \ 1st half of <> 130 \ 1st half of ___________ 3 > 1st Megabyte <> _________ 131 > 9th Megabyte 1 4 / of Main Memory <> 33 132 / of Main Memory 5 / <> 133 / 6 / <> 134 / ___________ 7 _/ <> _________ 135 _/ 2 8 \ <> 34 136 \ 9 \ <> 137 \ 10 \ <> 138 \ __________ 11 \ 2nd half of <> _________ 139 \ 2nd half of 3 12 > 1st Megabyte <> 35 140 > 9th Megabyte 13 / of Main Memory <> 141 / of Main Memory 14 / <> 142 / __________ 15 _ / <> _________ 143 _ / 4 16 \ <> 36 144 \ 17 \ <> 145 \ 18 \ 1st half of <> 146 \ 1st half of __________ 19 > 2nd Megabyte <> _________ 147 > 10th Megabyte 5 20 / of Main Memory <> 37 148 / of Main Memory 21 / <> 149 / 22 / <> 150 / __________ 23 _/ <> _________ 151 _/ 6 24 \ <> 38 152 \ 25 \ <> 153 \ 26 \ <> 154 \ __________ 27 \ 2nd half of <> _________ 155 \ 2nd half of 7 28 > 2nd Megabyte <> 39 156 > 10th Megabyte 29 / of Main Memory <> 157 / of Main Memory 30 / <> 158 / __________ 31 _ / <> _________ 159 _ / 8 32 \ <> 40 160 \ 33 \ <> 161 \ 34 \ 1st half of <> 162 \ 1st half of __________ 35 > 3rd Megabyte <> _________ 163 > 11th Megabyte 9 36 / of Main Memory <> 41 164 / of Main Memory 37 / <> 165 / 38 / <> 166 / __________ 39 _/ <> _________ 167 _/ 10 40 \ <> 42 168 \ 41 \ <> 169 \ 42 \ <> 170 \ __________ 43 \ 2nd half of <> _________ 171 \ 2nd half of 11 44 > 3rd Megabyte <> 43 172 > 11th Megabyte 45 / of Main Memory <> 173 / of Main Memory 46 / <> 174 / __________ 47 _ / <> _________ 175 _ / 12 48 \ <> 44 176 \ 49 \ <> 177 \ 50 \ 1st half of <> 178 \ 1st half of __________ 51 > 4th Megabyte <> _________ 179 > 12th Megabyte 13 52 / of Main Memory <> 45 180 / of Main Memory 53 / <> 181 / 54 / <> 182 / __________ 55 _/ <> _________ 183 _/ (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB037 Pg005 X X <> X X VALUE VALUE <> VALUE VALUE IDC IDC-64 FAILING PCBA <> IDC IDC-64 FAILING PCBA ----- ------ --------------- <> ----- ------ --------------- 14 56 \ <> 45 184 \ 57 \ <> 185 \ 58 \ <> 186 \ __________ 59 \ 2nd half of <> _________ 187 \ 2nd half of 15 60 > 4th Megabyte <> 47 188 > 12th Megabyte 61 / of Main Memory <> 189 / of Main Memory 62 / <> 190 / __________ 63 _ / <> _________ 191 _ / 16 64 \ <> 48 192 ---> ISDC addressed 15 65 \ <> 193 ---> ISDC addressed 14 . 66 \ 1st half of <> 194 ---> ISDC addressed 13 __________ 67 > 5th Megabyte <> _________ 195 ---> ISDC addressed 12 17 68 / of Main Memory <> 49 196 ---> ISDC addressed 11 69 / <> 197 ---> ISDC addressed 10 70 / <> 198 ---> ISDC addressed 09 __________ 71 _/ <> _________ 199 ---> ISDC addressed 08 18 72 \ <> 50 200 ---> ISDC addressed 07 73 \ <> 201 ---> ISDC addressed 06 74 \ <> 202 ---> ISDC addressed 05 __________ 75 \ 2nd half of <> _________ 203 ---> ISDC addressed 04 19 76 > 5th Megayte <> 51 204 ---> ISDC addressed 03 77 / of Main Memory <> 205 ---> ISDC addressed 02 78 / <> 206 ---> ISDC addressed 01 __________ 79 _ / <> _________ 207 ---> ISDC 00 MCS 4WAY 20 80 \ <> 52 208 ---> ISDC addressed 63 81 \ <> 209 ---> ISDC addressed 62 82 \ 1st half of <> 210 ---> ISDC addressed 61 __________ 83 > 6th Megabyte <> _________ 211 ---> ISDC addressed 60 21 84 / of Main Memory <> 53 212 ---> ISDC addressed 59 85 / <> 213 ---> ISDC addressed 58 86 / <> 214 ---> ISDC addressed 57 __________ 87 _/ <> _________ 215 ---> ISDC addressed 56 22 88 \ <> 54 216 ---> ISDC addressed 55 89 \ <> 217 ---> ISDC addressed 54 90 \ <> 218 ---> ISDC addressed 53 __________ 91 \ 2nd half of <> _________ 219 ---> ISDC addressed 52 23 92 > 6th Megabyte <> 55 220 ---> ISDC addressed 51 93 / of Main Memory <> 221 ---> ISDC addressed 50 94 / <> 222 ---> ISDC addressed 49 __________ 95 _ / <> _________ 223 ---> ISDC addressed 48 24 96 \ <> 56 224 ---> ISDC addressed 47 . 97 \ <> 225 ---> ISDC addressed 46 98 \ 1st half of <> 226 ---> ISDC addressed 45 __________ 99 > 7th Megabyte <> _________ 227 ---> ISDC addressed 44 25 100 / of Main Memory <> 57 228 ---> ISDC addressed 43 101 / <> 229 ---> ISDC addressed 42 102 / <> 230 ---> ISDC addressed 41 _________ 103 _/ <> _________ 231 ---> ISDC addressed 40 26 104 \ <> 58 232 ---> ISDC addressed 39 105 \ <> 233 ---> ISDC addressed 38 106 \ <> 234 ---> ISDC addressed 37 _________ 107 \ 2nd half of <> _________ 235 ---> ISDC addressed 36 27 108 > 7th Megabyte <> 59 236 ---> ISDC addressed 35 109 / of Main Memory <> 237 ---> ISDC addressed 34 110 / <> 238 ---> ISDC addressed 33 _________ 111 _ / <> _________ 239 ---> ISDC addressed 32 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB037 Pg006 X X <> X X VALUE VALUE <> VALUE VALUE IDC IDC-64 FAILING PCBA <> IDC IDC-64 FAILING PCBA ----- ------ --------------- <> ----- ------ --------------- 28 112 \ <> 60 240 ---> VCON addressed 00 113 \ <> 241 ---> VCON addressed 01 114 \ 1st half of <> 242 ---> VCON addressed 02 _________ 115 > 8th Megabyte <> _________ 243 ---> VCON addressed 03 29 116 / of Main Memory <> 61 244 ---> VCON addressed 04 117 / <> 245 ---> VCON addressed 05 118 / <> 246 ---> VCON addressed 06 _________ 119 _/ <> _________ 247 ---> VCON addressed 07 30 120 \ <> 62 248 ---> VCON addressed 08 121 \ <> 249 ---> VCON addressed 09 122 \ <> 250 ---> VCON addressed 10 _________ 123 \ 2nd half of <> _________ 251 ---> VCON addressed 11 . 31 124 > 8th Megabyte <> 63 252 ---> VCON addressed 12 125 / of Main Memory <> 253 ---> VCON addressed 13 126 / <> 254 ---> VCON addressed 14 _________ 127 _ / <> _________ 255 - Reserved (global/kbd) ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB037 Pg007 FIB 00038 09/18/87 *** Disk formatting and defective track assignment *** The information in this bulletin will assist you in Fixed Disk formatting and defective track assignment and relocation using the D.I.V.E. software. D.I.V.E is an acronym for Disk Initialization, Verification and Evaluation. The program is located on and may be loaded from the customer's O.S. tape. R.O.T. is an acronym for Relocate One Track. This is an option on the D.I.V.E.. program menu. LOADING THE D.I.V.E. PROGRAM: *** NOTE *** If you are about to relocate (ROT) a track, before loading the DIVE program, proceed to the "DEFECTIVE TRACK RELOCATION:" heading on page 2 and follow the instructions. 1. Obtain the system from the customer and make certain that no users are on the system. 2. Mount the customer's O.S. tape on the streamer tape drive and make the drive READY and ONLINE. 3. Press the ALTLOAD key on the system operator console. The system will boot from the streamer. The screen on terminal T0 (bottom port of MCS PCBA or if there is a VCON in the system, the bottom port on the 1st VCON) will be cleared and the system will display: L O A D I N G . . While the L O A D I N G message is displayed, toggle the upper switch on the MCS PCBA. This must be done within 5 seconds or you will miss the D.I.V.E. load and the system will display options for updating O.S. and WCS slot 0. If you were too slow, perform step 3 again (the tape will rewind by itself when you press ALTLOAD). 4. The D.I.V.E. program menu will be displayed. There will be three options: 1. FORMAT A DISK 2. RELOCATE ONE TRACK 3. QUIT 5. If you wish to format the disk, type 1 and press CR; if you want to relocate one track, type 2 and press CR. FIXED DISK DRIVE FORMATTING: o The system will run through several prompts which are quite simple to answer. The following are some things to remember: . A. Read each answer option carefully. If the prompt answer says (YES/NO) then enter YES or NO. If you answer with Y or N, the system may not react as expected. Conversely, don't answer YES or NO to a (Y/N) prompt. B. Be certain to answer the "STOP ON ERROR?" prompt with NO. C. The 5 1/4" disks on the 7xxx systems are to be formatted using the ECC option only - DO NOT use CRC format on the 5 1/4" drives. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB038 Pg001 D. On all drives other than the 5 1/4" units, formatting must be done using the CRC option only - DO NOT use ECC format. E. Be certain to type in all known defects from the drive's printed defect list. DEFECTIVE TRACK RELOCATION: o When it is necessary to assign an alternate track on a disk drive or pack, you MUST first determine which files may be affected by the ROT action. In order to do this, perform the following steps: 1. Determine (from the Error Log) the problem Drive number, Cylinder number and Head number and record that information on paper. As an example the problem information is as follows: DRIVE 3 (Unit Address 32), CYLINDER 344, HEAD 1 2. From a ! prompt, enter SYSPREFIX and press CR. The system will respond with: (xxxx).Rxxxx.SYS.,etc o Set your prefix to the INST node using the above as follows: Enter PREFIX (xxxx).Rxxxx.INST. and press CR. (use the actual data displayed on the SYSPREFIX in place of the x's) o From a ! prompt, enter ALTTRACKS and press CR. The system will respond with a screen similar to this: ******************************************************************************* *. * * DRV TDP Dev Unit Description * *. --- --- --- ---- --------------------------- * * 0) 1 0 16 Disk F P62 * * 1) 1 1 17 Disk F P144 * * 2) 2 2 18 Disk R T285 * * 3) 3 3 32 Disk F P144 * *. * ******************************************************************************* o Find the problem drive number on this screen and write down the description. o In this example, Drive 3, Unit 32 (Unit Address) is a Disk F P144. The F means FIXED, the P144 indicates that this is a Priam drive with a FORMATTED capacity of 144 megabytes. The portion of the description we need in this procedure is the P144. 3. From a ! prompt, enter HEADS and press CR. (continued on next page) The system will respond with a screen similar to this: HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB038 Pg002 ******************************************************************************* *. * * Vari Name* cyls1 hds1 secs1 reloc diagcyl * * 0) P307 1551 10 17 36 1512 * * 1) P62 1115 2 17 40 1072 * * 2) T75 814 4 17 19 792 * * 3) P144 1115 6 17 40 1072 * * 4) T285 814 18 17 19 792 * * 5) M150 839 5 28 25 811 * * 6) P197 1022 10 17 26 993 * * 7) P287 1648 9 17 53 1592 * * 8) M43 829 5 8 15 811 * * 9) M55 917 6 8 18 896 * * 10) M118 917 14 8 12 902 * * 11) M95 917 10 8 15 899 * *. * * V) Disk Vari - 0 S) Disk Sector - 0 * *. * * C) Cylinder - 0 V) Variance, S)ect, C)yl, Q)uit? * * Head - 0 * * Sector - 0 * *. * ******************************************************************************* o Using the information previously written down, do the following: 1. In the "Name*" column, find the description (Example is P144). 2. The cursor will be after the "V) Variance, etc" line. Type the number in the "Vari" column next to the applicable Name* item (Example is 3). The system will place the description next to the "V) Disk Vari -". 3. The cursor will return to the "V) Variance, etc" line. Type C and the cursor will move to the "C) Cylinder -" line. Type the problem Cylinder number (Example is 344) and press CR. 4. The cursor will move to the "Head -" line. Type the problem Head number (Example is 1) and press CR. 5. The cursor will move to the "Sector -" line. Type 0 and press CR. 6. The system will calculate the physical sector number and display it after the "S) Disk sector -" line. 7. Record this physical sector number. It is the START SECTOR of the track which is to be relocated. 8. Perform the above steps 3 and 4 again and then go to step 9. 9. Look in the "secs1" column and find the number in the same row with the selected drive in the "Name* column (Example is 17 in the same row with P144). 10. The cursor will be next to the "Sector -". Type the number located in step 9 and press CR. 11. The system will calculate the physical sector number and display it after the "S) Disk sector -" line. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB038 Pg003 12. Record this physical sector number. It is the END SECTOR of the track which is to be relocated. o Type Q and the system will display a ! prompt. Type DISKANALYZER and press CR. o The system will display the Disk Analyzer Utility menu. Type 7 and press CR. (LIST FILES IN A SECTOR RANGE) o The system will display a new screen with the cursor after "DRIVE NUMBER:". Type the problem drive number (Example is 3) and press CR. o The system will display the FAMILY NAME and FAMILY INDEX and the cursor will. move to the "START SECTOR:" line. Type the START SECTOR number recorded in step 7 above (Example is 43362) and press CR. o The cursor will move to the "END SECTOR:" line. Type the END SECTOR number recorded in step 12 above (Example is 43379) and press CR. o The cursor will move to the "OUTPUT DEVICE:" line. If possible, a printed output from this utility is desirable. If a printer is available, type the printer ID such as LP, P1, etc. and press CR. If it is not possible to print, then type VDT and press CR. o Type Y and press CR at the "PAUSE ON FULL SCREEN (Y/N):" prompt. o The cursor will move to the "ENTRIES CORRECT (Y/N):" line. Check the START SECTOR and END SECTOR just entered for accuracy and if they are correct type Y and press CR. o The system will check the disk and find the names of all files which have data contained within the track you are about to relocate. When this is complete the system will display a screen similar to the one below (this is what printed out when the example START and END sectors were entered with the example numbers of 43362 and 43379): ******************************************************************************* *. * * FAMILY : SNSS3 - DISK ANALYZER - LIST FILES IN A SECTOR RANGE * * FILENAME EXTENT STRTSCT - ENDSCT $STRTSCT - $ENDSCT * * .F.ED.REC08271149 0 42367 - 43368 $00A57F - $00A968 * * .FIB.DATA.FIB000900003 0 43369 - 43377 $00A969 - $00A971 * * .FIB.DATA.FIB011900008 0 43378 - 43386 $00A972 - $00A97A * *.DONE * *.CR TO CONTINUE -> * *. * ******************************************************************************* o The disk family name is, as shown, "SNSS3". The family name is enclosed in () and preceeds the file name(s) - ie. (SNSS3).filename. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB038 Pg004 o Under FILENAME are the names of all files which have data contained within the track that is to be relocated. In this example the file names are: ".F.ED.REC08271149", ".FIB.DATA.FIB000900003" and ".FIB.DATA.FIB0119000008" *** CAUTION *** Since some sectors in that track are defective, the data may not be recovered on the ROT operation, in which case the file(s) will be corrupted. If no file names are given under FILENAME, but instead, the system displays "< BELOW FS DOMAIN", this means that the defective sectors are located in either the disk label area or other crucial BOSS/VS areas. If this is the case, be aware that, if data is unrecoverable, it will be necessary to perform various disk repair operations after the ROT is done. If you have this situation, contact the local Basic Four Program Support group or Sorbus support personel before proceeding with the ROT. In any case, BE CERTAIN a COMPLETE, VERIFIED backup of the disk is available! File names that begin with a colon (:) are special File System files. If any of the file names given start with a colon (such as :DIRECTORY, :DIR, :NODES, :AVSP01, etc.) and the data is not recoverable during the ROT, it will be necessary to repair the file via Diskanalyzer, Type II load, etc. This is true for all files starting with a colon except ":OVERLAY" which is cleared during each boot of BOSS/VS. If any other file starting with a colon is given contact the local Basic Four Program Support group or Sorbus support personel before proceeding with the ROT. o If neither of the conditions of the above two paragraphs apply, advise the customer of the file names and verify that they have an adequate backup of the files prior performing the ROT activity. o If no file names are given under FILENAME, but instead, the system displays "(AVAILABLE FILE SPACE)", then you may proceed with the ROT since the track contains no active data. o Perform all steps listed under "LOADING THE D.I.V.E. PROGRAM" shown on page 1 and then proceed with the track relocation prompts. ORIGINATOR: H. Mitchell HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB038 Pg005 FIB 00039 10/20/88 *** MEMORY PCBA - 4/8/16 MB (9xxx & ASxx Systems) *** The following information applies to this PCBA part number: MM892525 - 4/8/16 MB (4 MB) MEMORY PCBA - 903621-008 - ASxx/9xxx MM892524 - 4/8/16 MB (8 MB) MEMORY PCBA - 903621-007 - ASxx/9xx MM892523 - 4/8/16 MB (16 MB) MEMORY PCBA - 903621-005 - ASxx/9xxx MM896255 - 4/8/16 MB (4 MB) MEMORY PCBA - 903621-004 - 9xxx only MM896265 - 4/8/16 MB (8 MB) MEMORY PCBA - 903621-003 - 9xxx only MM896270 - 4/8/16 MB (16 MB) MEMORY PCBA - 903621-001 - 9xxx only -----------------SWITCH SETTING LEGEND----------------- | | | C = Closed or On O = Open or Off X = Not Used | ------------------------------------------------------- Starting Memory Address Switches, S2 and S3, determine the starting location of each bank on the PCBA and whether or not the bank is enabled. Each 4MB bank MUST have its own starting address location. (Think of the 16MB PCBA as if it were four (4) separate 4MB PCBA's). Set the memory address switches, S2 and S3, at locations 11D and 11E as follows assigning a unique starting address for each bank: USE THIS ADDRESS CHART IF JUMPERS JP 1 & 2 SET FOR GREATER THAN 12 MEG ASxx Systems Must be Set for Greater than 12 MEG MEMORY BANK | ADDRESS SWITCH NO. - POSITION | MEMORY | | BANK BANK 0 | S3-6 | S3-7 | S3-8 | S3-9 | S3-10 | ADDRESS BANK 1 | S3-1 | S3-2 | S3-3 | S3-4 | S3-5 | RANGE BANK 2 | S2-6 | S2-7 | S2-8 | S2-9 | S2-10 | IN BANK 3 | S2-1 | S2-2 | S2-3 | S2-4 | S2-5 | MEGABYTES ----------------|------|------|------|------|-------|----------- | O | O | O | O | C | 0-3 | C | O | O | O | C | 4-7 | O | C | O | O | C | 8-11 | - | - | - | - | - | 12-15 -> NOT USED | O | O | C | O | C | 16-19 | C | O | C | O | C | 20-23 | O | C | C | O | C | 24-27 | - | - | - | - | - | 28-31 -> NOT USED | O | O | O | C | C | 32-35 | C | O | O | C | C | 36-39 | O | C | O | C | C | 40-43 | - | - | - | - | - | 44-47 -> NOT USED | O | O | C | C | C | 48-51 | C | O | C | C | C | 52-55 | O | C | C | C | C | 56-59 | - | - | - | - | - | 60-63 -> NOT USED | X | X | X | X | O | DESELECT THIS BANK ------------------------------------- (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB039 Pg001 USE THIS ADDRESS CHART IF JUMPERS JP 1 & 2 SET FOR EQUAL/LESS THAN 12 MEG This Chart only applies to 9xxx Series Systems MEMORY BANK | ADDRESS SWITCH NO. - POSITION | MEMORY | | BANK . BANK 0 | S3-6 | S3-7 | S3-8 | S3-9 | S3-10 | ADDRESS BANK 1 | S3-1 | S3-2 | S3-3 | S3-4 | S3-5 | RANGE BANK 2 | S2-6 | S2-7 | S2-8 | S2-9 | S2-10 | IN BANK 3 | S2-1 | S2-2 | S2-3 | S2-4 | S2-5 | MEGABYTES ________________|______|______|______|______|_______|__________ | O | O | C | C | C | 0-3 | C | O | C | C | C | 4-7 | O | C | C | C | C | 8-11 | X | X | X | X | O | DESELECT THIS BANK |___________________________________| ** NOTE: DESELECT setting is used to disable a missing or failing 4MB bank of memory on the PCBA, ie., BANK 0, BANK 1, etc. EXAMPLE: If a bank of memory should have errors, DESELECT the failing 4MB bank until the PCBA can be replaced. Also, if the PCBA is a 4MB or 8MB, those missing bank's address switches must be set to DESELECTed. Set the Data Display/Memory Cycle Switch, S4, at location 2GG as follows: SWITCH POSITIONS 4 3 2 1 ------------- O O C O - 9xxx systems O O C C - ASxx systems - Y-bus display syndrome err info O O O C - ASxx systems - Y-bus display backplane err info ______________________________JUMPERS______________________________ Set JMP1 and JMP2, at location 7D, as follows: JMP1 JMP2 ------ ------ Main memory not greater than 12MB 2 to 3 2 to 3 Main memory greater than 12MB........ 1 to 2 1 to 2 - ASxx setting ** NOTE: JMP pins 1 are identified by a square pad on the solder side of the PCBA, toward the edge connector. _______________________________LEDs________________________________ There are four LEDs located at the top front of the PCBA, numbered DS1 through DS2, top to bottom, which function as follows: DS1 - RED (top) indicates a parity error in the address or control lines. DS2 - RED indicates a parity error in the data. DS3 - RED indicates a multi-bit error (not correctable). DS4 - AMBER (bottom) indicates a single-bit error (correctable). A momentary switch, S1, is located beneath the AMBER LED and it functions to reset any illuminated LEDs. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB039 Pg002 ______________________________NOTES________________________________ 1. Do not use this PCBA in 7XXX or 8XXX systems. 2. In order for the 9XXX system to support this PCBA, various other conditions must be met. See the MPx Systems FIB group, FIB #105 for the requirements. 3. 4/8/16 MB boards MUST be addressed on EVEN boundaries. 4. 4/8/16 MB boards must be located immediately to the right of the DMA(s) on 9xxx systems, immediately to the right of the MCS/M on ASxx systems. 5. When using these boards intermixed with other capacity Memory boards, to avoid addressing problems, address the HIGHEST capacity boards in the LOWEST addresses. ORIGINATOR: H. Mitchell N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB039 Pg003 FIB 00040 01/31/91 *** DMA-II/SCSI Controller PCBA and SCSI Embedded Disk (9xxx/ASx Systems) *** The following information applies to these PCBA part numbers: MM894035 - DMA-II/SCSI Controller PCBA - 903599-001 MM894039 - DMA-II/SCSI Controller PCBA - 903599-002 MM894037 - DMA-II/SCSI Controller PCBA - 903741-001 MM894038 - DMA-II/SCSI Controller PCBA - 903741-002 -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- o Set the Self-test Diagnostic switch - SW3 (near location 9Q) as follows: Set ALL positions to OPEN for normal on-line operation. (See DMA II/SCSI Controller Service manual - M8201 for diagnostics settings) o Set the Printer Configuration switch - SW4 (near location 8K) as follows: J6/PRINTER 0 : J7/PRINTER 1 PRINTER SW4 Switch : Positions TYPE :9: 8:7:6:5 : 4:3:2:1: ----------------------:-:--:-:-:--:--:-:-:-: Model 4201 Matrix :O: C:O:O:O : C:O:O:O: ----------------------:-:--:-:-:--:--:-:-:-: Model 4209/20/21 Band :O: O:O:O:C : O:O:O:C: ----------------------:-:--:-:-:--:--:-:-:-: Model 4214 DMP :O: C:O:C:O : C:O:C:O: ----------------------:-:--:-:-:--:--:-:-:-: Undefined :O: O:O:C:C : O:O:C:C: -------------------------------------------- SW4, position 9 must be in the OPEN position for normal operation. This switch is used in the CLOSED position for board repair at depot facilities. o There are no switch settings for the disk or tape drives attached. Instead, the DMA-II interrogates the SCSI devices at power-on time and self-configures according to those devices which respond. ____________________________JUMPERS_______________________________ o JMP1, near location 9S should be either, jumpered 2 to 3, or removed, for all systems. Both jumper settings are the same. Some PCBAs may not have this jumper at all. _______________________________LEDs_______________________________ o There are four LEDs, near the top of the DMA PCBA, which function as follows: DS1 (red, upper) indicates a main memory data parity error. DS2 (yellow) indicates a main memory time-out error. DS3 (green) indicates the DMA-II has successfully completed self-test. DS4 (red, lower) indicates a main memory address or control parity error. Pushbutton switch - SW1 is used to reset the error LEDs. It is mounted between DS2 and DS3. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB040 Pg001 _________________________CABLE CONNECTIONS_________________________ o There are four connectors on the front of the PCBA, numbered from top to bottom, J7, J6, J5 and J4. J7 is the parallel printer port for printer 1. J6 is the parallel printer port for printer 0. J5 is the SCSI Bus cable connector which is routed to the SCSI devices in a parallel arrangement. One device must have a SCSI Bus terminator. Although the terminator may be on any one of the devices, it is recommended that it be the device at the end of the Bus cable. J4 is used to connect a VDT to the DMA for running self-test diagnostics. This connector is mainly to be used by PCBA repair personel at the depot level. ___________________SCSI DEVICE SWITCH/JUMPER SETTINGS_______________________ o 5 1/4 Inch SCSI "Embedded" Disk Drive (XT-3280): There are two Main Interface Logic PCBAs currently in the field. These PCBAs are compatible and may be used interchangeably. Use the information below according to the P/N of the PCBA involved. The SCSI address on this drive is set via three jumpers, located near the Bus connector. Set the drive to it's unique address as follows: PCBA P/N 1012539: JP85 JP84 JP83 SCSI ADDRESS ---- ---- ---- ------------ IN.......IN.......IN.......07 (RESERVED, DON'T USE) IN.......IN.......OUT......06 IN.......OUT......IN.......05 IN.......OUT......OUT......04 OUT......IN.......IN.......03 OUT......IN.......OUT......02 OUT......OUT......IN.......01 OUT......OUT......OUT......00 (RESERVED IF 1/4" TAPE IS ON THIS DMA-II) PCBA P/N 1014382: JP14 JP13 JP12 SCSI ADDRESS ---- ---- ---- ------------ IN.......IN.......IN.......07 (RESERVED, DON'T USE) IN.......IN.......OUT......06 IN.......OUT......IN.......05 IN.......OUT......OUT......04 OUT......IN.......IN.......03 OUT......IN.......OUT......02 OUT......OUT......IN.......01 OUT......OUT......OUT......00 (RESERVED IF 1/4" TAPE IS ON THIS DMA-II) (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB040 Pg002 There are thirteen other jumpers on the PCBA. The correct setting for these jumpers are as follows: PCBA P/N 1012539: 21...IN 81...IN 92...IN 41...IN 82...OUT 93...IN 42...OUT 86...IN 94...IN 43...IN 87...IN 44...IN 91...IN PCBA P/N 1014382 1...IN 10...IN 5...IN 2...IN 9...OUT 6...IN 7...OUT 15...IN 11...IN 3...IN 16...IN 8...IN 4...IN o Field converted 5 1/4 Inch Disk Drive with SCSI Adapter PCBA attached: The SCSI address on this drive is set via positions 6, 7 and 8 of an 8-position dip switch located on the SCSI adapter PCBA at location U7. Set the drive to it's unique address as follows: LOCATION U7 SWITCH POSITIONS 6 7 8 SCSI ADDRESS ---- ---- ---- ------------ O........O........O........00 (RESERVED IF 1/4" TAPE ON THIS DMA-II) O........O........C........01 O........C........O........02 O........C........C........03 C........O........O........04 C........O........C........05 C........C........O........06 C........C........C........07 (RESERVED, DON'T USE) The rest of the switch positions on the DIP switch at location U7 must be set as follows: LOCATION U7 SWITCH POSITIONS 1 2 3 4 5 --- --- --- --- --- O O C C O There is a four-position DIP switch at location U1. The correct settings for those switches are as follows: LOCATION U1 SWITCH POSITIONS 1 2 3 4 --- --- --- --- C C C O (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB040 Pg003 o M380/M760 Disk Drive Jumper Settings Drive address jumpers JP37 JP36 JP35 Binary Weight Device Address --------- ---------- --------- ------------- -------------- Installed Installed Installed 1 1 1 07 (Reserved)* Installed Installed Removed 1 1 0 06 Installed Removed Installed 1 0 1 05 Installed Removed Removed 1 0 0 04 Removed Installed Installed 0 1 1 03 Removed Installed Removed 0 1 0 02 (Disk 1) Removed Removed Installed 0 0 1 01 (Disk 0) Removed Removed Removed 0 0 0 00 (Reserved)** * SCSI device address 07 is reserved for the DMA-II board. ** Device address 00 is reserved for SCSI tape drives. Miscellaneous Jumpers Jumper Settings Jumper Settings ------- ---------- -------- ---------- ***JP1 Installed JP18 Removed ***JP2 Installed JP26 Removed ***JP3 Installed JP32 Installed ***JP4 Removed JP33 Installed ***JP8 Installed JP34 Removed ***JP9 Installed JP38 Removed JP10 Installed JP39 Installed JP11 Installed JP40 Installed JP13 RDY JP41 Installed JP14 Installed TXD-E19 Installed JP15 Removed *** Not on M380. o 1/4-Inch SCSI Tape Drive (TDC-3330 or TDC-3325) The SCSI address on this drive is set via positions 1, 2 and 3 of an 8-position dip switch (SW1) located on the SCSI PCBA of the drive, near J1. Position 8 of SW1 must always set to CLOSED for parity checking. Set the drive to it's unique address as follows: SW1 SWITCH POSITIONS 8 3 2 1 SCSI ADDRESS --- --- --- --- ------------ C.......O........O........O.......00 (NORMALLY THE TAPE UNIT SCSI ADDRESS USED) C.......O........O........C.......01 C.......O........C........O.......02 C.......O........C........C.......03 C.......C........O........O.......04 C.......C........O........C.......05 C.......C........C........O.......06 C.......C........C........C.......07 (RESERVED, DON'T USE) Set positions 4, 5, 6 and 7 of SW1 to the OFF or OPEN position. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB040 Pg004 ______________________________NOTES___________________________________________ 1. The DMA controllers MUST be installed in the first available card slots to the right of the right-most IDC PCBA (or other DMA PCBAs) in 9xxx systems or in the first slots to the right of the rightmost STACHE PCBA (or other DMA PCBAs) in ASx systems. 2. There is no address switch for the DMA-II PCBA. 3. There may be a maximum of four DMA-II PCBAs installed in a system. 4. Any DMA-I PCBAs, residing in the same system with the DMA-II, must be at or above Revision AA. 5. In order to support the DMA-II board, BOSS/VS must be at or above 9.6C. 6. Only one SCSI 1/4-inch tape drive is allowed on the system. Additional tape drives may be attached via BMTC. 7. Each device attached to a DMA-II SCSI Bus must have a UNIQUE SCSI address so that no two devices attached to a DMA-II have the same address. 8. In order to function in an ASx system a -002 version DMA-II must be used (903599-002 or 903741-002). 9. 903599-002 at REV N or 903741-002 at REV F DMA-II PCBAs are required for support of the M380/M760 SCSI drive. Also requires OS n.6G or later. 10. 903599-002 or 903741-002 DMA-II PCBAs are required if there are DMA-I PCBAs residing in the same system. ORIGINATOR: H. Mitchell/N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB040 Pg005 FIB 00041 01/11/90 *** Bootable O.S. & Diagnostic Tape Information *** 810 and 9xxx systems boot from tape using the first file on tape, 7xxx and 8xxx systems boot from tape using the second file on tape, and Advanced Series Systems boot from the file number on the tape which is selected by the sense switches (0=1ST, 3=4TH). Therefore the files must be placed on tape in the proper.order to make the tape bootable. The file order (if any additional files are on the tape) after the first files (two files for MPx, four files for Advanced Series) is not relevant to the tape boot process. This allows a tape to be used for more than one system type on the same O.S. release (810/8xxx, 8xxx/9xxx). Since the software support for the 810 ended at release 8.4D and the first 9xxx release was 9.5C, there is no problem with utilization of the first file. Use the SAVERESTORE utility, save files to tape option, to create bootable tapes. _______________________MPx O.S. TAPE BOOT INFORMATION_________________________ O.S. image files are identified as follows: (DISK).Rzzzz.INST.OSN.ATyzzzzzzzz : :::-------- : ::: : : ::: * - rev level, not included on n.6G & later OS : ::: : ::* - X=tape boot OS without DIVE, n.6G & later : :: : :* - T=1/2" tape; C=1/4" tape (7xxx); V=disk : : : * - A=9xxx (or 810) tape; B=7xxx/8xxx tape; U=disk : C=Advanced Series : * - releases prior to 9.6C will display 'OS0', n.6C will display 'OSN', n.6G & later displays 'OS' * To make a bootable 8xxx/9xxx 1/2" O.S. tape place files on tape as follows: 1. .Rxxxx.INST.OSN.ATxxxxxxxxx (9xxx 1/2" tape image file) 2. .Rxxxx.INST.OSN.BTxxxxxxxxx (7xxx/8xxx 1/2" tape image file) 3. No other files are required but any number may be added after the second file * To make a bootable 7xxx 1/4" O.S. tape place files on tape as follows: 1. .Rxxxx.INST.OSN.ATxxxxxxxxx (any file will work as the first file) 2. .Rxxxx.INST.OSN.BCxxxxxxxxx (7xxx 1/4" tape image file) 3. No other files are required but any number may be added after the second file. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB041 Pg001 _______________________MPx DEMON TAPE BOOT INFORMATION________________________ DEMON tape images are identified as follows: (DISK).Rxxxx.INST.OS3.ADxxxxxxxxx ---- --- ::--------- : : :: : : : :: * - release level not included n.6G & later OS : : :: : : :* - C=1/4" tape; D=1/2" tape; V=disk : : : : : * - A=9xxx (or 810) tape; B=7xxx/8xxx tape; U=disk : : C= Advanced Series; X=filler for systems without : : diagnostics n.6G & later : : : * - will be DEMON for n.6G and later OS : * - will be DIAG for n.6G & later releases * To make a bootable 8xxx/9xxx 1/2" DEMON tape place files on tape as follows: 1. .Rxxxx.INST/DIAG.OS3/DEMON.ADxxxxxxxxx (9xxx DEMON 1/2" tape image file) 2. .Rxxxx.INST/DIAG.OS3/DEMON.BDxxxxxxxxx (7xxx/8xxx 1/2" tape image file 3. All of the files in the OS3/DEMON node should be placed after the second file. * To make a bootable 7xxx 1/4" DEMON tape place files on tape as follows: 1. .Rxxxx.INST/DIAG.OS3/DEMON.ADxxxxxxxxx (any file will work as the first file) 2. .Rxxxx.INST/DIAG/DEMON.OS3.BCxxxxxxxxx (7xxx 1/4" DEMON tape image file) 3. All of the files in the OS3/DEMON node should be placed after the second file. _______________________MPx REMIDI TAPE BOOT INFORMATION_______________________ Remidi requires various image files depending on system type. 810 systems require only one image file for disk and one for tape (requires one boot tape, one file as the first file on the tape). 7xxx systems require two image files for disk and two for tape (requires two boot tapes, one file as the second file on each tape). 8xxx systems require only one image file for disk and one for tape (requires one boot tape, one file as the second file on the tape). 9xxx systems require two image files for disk and four for tape (requires four boot tapes, one file as the first file on each tape). (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB041 Pg002 REMIDI image files are identified as follows: (DISK).Rxxxx.INST.REMIDI.ADAxxxxxx (9xxx 1/2" tape image A) ---- :::------ : ::: : : ::: * - release level not included n.6G & later OS : ::: : ::* - A=tape image A or disk image A;B=tape image B; : :: C=tape image C or disk image C;D=tape image D; : :: M=MPC tests;number= part of revision level : :: (7xxx/8xxx only) : :: : :* - C=1/4" tape ;D=1/2" tape ;V=disk : : : * - A=9xxx (or 810); B=7xxx/8xxx; C=Advanced Series : * - will be DIAG for n.6G & later releases * To make bootable 1/4" 7xxx REMIDI tapes, two tapes are required, place files as follows: I. Tape 1: 1. .Rxxxx.INST/DIAG.REMIDI.BDMxxxxxx (any file will work as the first file) 2. .Rxxxx.INST/DIAG.REMIDI.BC#xxxxxx (7xxx 1/4" REMIDI - the # will be some numeric revision number) II. Tape 2: 1. .Rxxxx.INST.REMIDI.BDMxxxxxx (any file will work as the first file) 2. .Rxxxx.INST.REMIDI.BCMxxxxxx (7xxx 1/4" REMIDI MPC tests) * To make a bootable 8xxx REMIDI tape place files as follows: 1. .Rxxxx.INST.REMIDI.BDMxxxxxx (any file will work as the first file) 2. .Rxxxx.INST.REMIDI.BD#xxxxxx (8xxx 1/2" REMIDI - the # will be some numeric revision number) * To make bootable 9xxx REMIDI tapes, four tapes are required, place files as follows: I. Tape 1: 1. .Rxxxx.INST.REMIDI.ADAxxxxxx (9xxx REMIDI image A) II. Tape 2: 1. .Rxxxx.INST.REMIDI.ADBxxxxxx (9xxx REMIDI image B) III. Tape 3: 1. .Rxxxx.INST.REMIDI.ADCxxxxxx (9xxx REMIDI image C) IV. Tape 4: 1. .Rxxxx.INST.REMIDI.ADDxxxxxx (9xxx REMIDI image D) ________ADVANCED SERIES SYSTEMS OS AND DIAGNOSTIC TAPE BOOT INFORMATION_______ The Advanced Series Systems will tape boot from the file selected by sense switches. This allows a single tape to function as an OS tape and diagnostic tape with DEMON and REMIDI included. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB041 Pg003 The following procedure will place the files in the correct order to allow the same altload sense switch selections as standard load selections. The OS tape which came with the system (or with an OS upgrade) should be set up in this fashion. Sense Switches 2 3 FUNCTION WITH ALTLOAD ---- --------------------- O O - OS load O C - OS load C O - REMIDI (all modules menu selectable) C C - DEMON 1/2" bootable tape: file 1 - (DISK).Rzzzz.INST.OS.CT - ASxx 1/2" OS image file file 2 - (DISK).Rzzzz.INST.OS.CT - ASxx 1/2" OS.image file file 3 - (DISK).Rzzzz.INST/DIAG.REMIDI.CD - ASxx 1/2" tape REMIDI file file 4 - (DISK).Rzzzz.INST/DIAG.OS3/DEMON.CD - ASxx 1/2" DEMON file file 5 thru file n - all of the files in OS3/DEMON node 1/4" bootable tape: file 1 - (DISK).Rzzzz.INST.OS.AC - ASxx 1/4" OS tape image file file 2 - (DISK).Rzzzz.INST.OS.AC - ASxx 1/4" OS tape image file file 3 - (DISK).Rzzzz.INST/DIAG.REMIDI.CC - ASxx 1/4" REMIDI tape file file 4 - (DISK).Rzzzz.INST/DIAG.OS3/DEMON.CC - ASxx 1/4" DEMON tape file file 5 thru file n - all of the files in OS3/DEMON node ORIGINATOR: Norm Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB041 Pg004 FIB 00042 09/13/88 *** MBA PCBA - 903617-001 (ASxx Systems) *** The following information applies to this part number: MM892522 - MBA PCBA - 903617-001 There are no dip switches to be set on this PCBA. _____________________________L.E.D.s______________________________ There are four LEDs on this PCBA numbered DS1 through DS4 from top to bottom, which function as follows: DS1 (red, upper) indicates a memory address or control line parity error while addressed by a CPU. DS2 (red, 2nd from top) indicates a parity error on the memory data bus during a WRITE cycle from a CPU. DS3 (red, 3rd from top) indicates either: (1) the MBA detected a memory parity error on a READ from a shared memory controller (there should be a parity error latched on a shared memory controller if this is true) (2) a CPU detected a memory parity error from the MBA on a READ. DS4 (amber, 4th led from top) indicates a memory time-out occurred while accessing a shared memory controller. ______________________________SWITCHES_____________________________ Pushbutton switch S1, mounted beneath the amber LED DS4, resets any led which may be lit. ______________________________JUMPERS______________________________ JMP 1 consists of two posts located below S1. When the two posts are shorted together, all LEDs should light (must be reset with S1). _____________________________TEST POINTS___________________________ Test points 9 through 14 are available at the front edge of the PCBA. TP1 through TP4 = ground TP5 through TP8 are connected to LEDs DS1 through DS4 TP9 = +5VB TP10 = +12V TP11 = +5V TP12 = -12V TP13 = -5V TP14 = ground ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB042 Pg001 FIB 00043 10/11/89 *** MCS/M PCBA *** The following information applies to the MCS/M PCBA - P/N MM892535 - 903718-001. The MCS/M PCBA has four megabytes of on board ECC memory which are hard addressed as the FIRST FOUR MEG of main memory, it CANNOT be addressed to any other range. If there is a problem with the on-board memory and there is no spare MCS/M available, the on-board memory can be disabled by closing SW2 position 1 and re-addressing existing memory for the first four meg. The MCS/M PCBA is supported only in Advanced Series systems. ___________________________________ L.E.D.s_____________________________________ There are six LEDs DS1 through DS6 from top to bottom which indicate the following: DS1 (red, top LED) indicates a memory address or control line parity error. DS2 (red, 2ND LED) indicates a memory data parity error (at backplane). DS3 (red, 3RD LED) indicates a multibit memory error in the on-board memory. DS4 (amber, 4TH LED indicates a single bit memory error in the on-board memory. DS5 (red, 5TH LED) indicates a memory parity error in the 4-way controller. DS6 (green, 6TH LED) indicates MCS/M passed self-test and is on-line. __________________________________TEST POINTS___________________________________ TP1 through TP4 = ground TP5 = +5V TP6 = +5VB TP7 = ground TP8 = +5V TP9 = +5VB TP10 = +12V TP11 = -12V TP12 = 160 NS clock TP13 = 80 NS clock ____________________________________SWITCHES____________________________________ -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- SW1 is a push button switch located at the top of the PCBA for reseting LEDs. Set Switch 2, SW-2, located on the front edge of the PCBA as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- Positions 1.......... - - - - - - - O ...on board memory ENABLED Positions 1.......... - - - - - - - C ...on board memory DISABLED Position 2........... - - - - - - O - ...Z80 selftest info on J3 for Y-bus disp Position 2........... - - - - - - C - ...Memory err info on J3 for Y-bus disp Position 3........... - - - - - O - - ...port 0 set for 7 bit (before OS load) Position 3........... - - - - - C - - ...port 0 set for 8 bit (before OS load) (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB043 Pg001 Switch Positions 8 7 6 5 4 3 2 1 --------------- Position 4........... - - - - O - - - ...MCS/M "on line" Position 4........... - - - - C - - - ...MCS/M in diagnostic/monitor mode Positions 8,7,6,5.... X X X X - - - - ...select "off line" tests (normally set to OPEN) NORMAL SW SETTING.... O O O O O O O O ...on line operation with mem enabled ............................................................................... Set Switch 3 SW-3, located at 9T as follows: Switch Positions 8 7 6 5 4 3 2 1 --------------- Positions 1 & 2...... - - - - - - O O ...port 0 set for 1200 BD (before OS LD) Positions 1.& 2...... - - - - - - O C ...port 0 set for 300 BD (before OS LD) Positions 1 & 2...... - - - - - - C O ...port 0 set for 9600 BD (before OS LD) Positions 1 & 2...... - - - - - - C C ...port 0 set for 19.2 KB (before OS LD) Position 3........... - - - - - C - - ...normal setting (repair center use) Position 4........... - - - - O - - - ...system clock normal Position 4........... - - - - C - - - ...system clock is 3% fast (margined) Position 5........... - - - X - - - - ...spare position Position 6........... - - O - - - - - ...ASxx memory cycle time Position 7........... - O - - - - - - ...normal on-line setting Position 8........... C - - - - - - - ...system type=ASxx NORMAL SETTING ASXX.. C O O O O C C O ...normal ASxx on-line operation _____________________________________NOTES______________________________________ The clock margin switch (SW3 position 4) MUST ALWAYS be open (normal) except when running diagnostic tests. The setting for switch 3 position 6 has changed (now open), if set according to the old setting (closed) it may cause problems with DMAII PCBAs. ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB043 Pg002 FIB 00044 12/01/89 *** NEP PCBA ASxx Systems *** The following information applies to the NEP PCBA P/N MM892528 - 903705-001. ______________________________L.E.D.s______________________________ There are six LEDs, mounted at the top front, numbered DS1 through DS6 from top to bottom, which indicate the following: DS1 (red, upper) indicates a memory address bus or control parity error was detected from this CPU (NEP). DS2 (red, 2ND LED) indicates a memory parity error. DS3 (amber, 3RD LED) indicates a memory timeout error. DS4 (red, 4TH LED) indicates a WCS parity error. DS5 (amber, 5TH LED) indicates a CPU clock hold. DS6 (green, 6TH LED) indicates this CPU is on-line. ____________________________________SWITCHES____________________________________ There are no dip switches to be set on this PCBA. Switch - S1 is a pushbutton type, mounted between DS4 and DS5, which functions to reset the error LEDs. Switch - SW2 is a two position toggle switch located on the center front of the PCBA which functions as follows: DOWN = CPU is enabled UP = CPU is disabled __________________________________TEST POINTS___________________________________ TP1 through TP4 = ground TP5 = +5V (use for supply voltage to Y BUS display) TP6 through TP9 - tied to LEDs DS1 through DS4 ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB044 Pg001 FIB 00045 09/13/88 *** STACHE PCBA - ASxx Systems *** The STACHE PCBA is an optional CPU board containing caches which enhance CPU peformance. The CACHE PCBA can be completely disabled by removing the foreplanes without removing the STACHE from the backplane (and having to shuffle PCBAs to eliminated blank slots). ______________________________________LEDS______________________________________ There are seven LEDs numbered DS1 through DS7 from top to bottom which indicate the following: DS1 (red, upper) indicates one of the following has occurred: 1. memory data parity error (main memory only, not shared memory) 2. memory address bus parity error 3. memory control parity error DS2 (red, 2ND LED) indicates an RSTK parity error. DS3 (amber, 3RD LED) indicates a DATA CACHE parity error (this error is not latched, is reset after the OS is notified). DS4 (amber, 4TH LED) indicates a CODE CACHE parity error (this error is not latched, is reset after the OS is notified). DS5 (green, 5TH LED) indicates the RSTK is enabled. DS6 (green, 6TH LED) indicates the DATA CACHE is enabled. DS7 (green, 7TH LED) indicates the CODE CACHE is enabled. ____________________________________SWITCHES____________________________________ There are no DIP switches on this PCBA. Switch SW1 is a momentary action push-button switch located below DS4 and functions to reset the error LEDs. Switch SW2 is a two position toggle switch located below DS5 and functions as follows: UP = RSTK disabled DOWN = RSTK enabled Switch SW3 is a two position toggle switch located below DS6 and functions as follows: UP = DATA CACHE disabled DOWN = DATA CACHE enabled Switch SW4 is a two position toggle switch located below DS7 and functions as follows: UP = CODE CACHE disabled DOWN = CODE CACHE enabled (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB045 Pg001 __________________________________TEST POINTS___________________________________ TP1 through TP6 = ground TP7 tied to DS3 TP8 tied to DS2 TP9 tied to DS4 TP10 tied to DS6 TP11 tied to DS7 TP12 tied to DS5 TP13 tied to DS1 ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB045 Pg002 FIB 00046 06/26/89 *** DMA III PCBA - (ASxx Systems) *** The following information applies to the DMA III PCBA P/N MM892527 - 903679-001. The DMA III controller has a built in SMD interface and no longer requires the SMDI (or SMDII) PCB to change interface levels. This limits it to the drives that utilize the SMD interface (P314, F621), other drive types will require the use of existing DMAI or DMAII PCBAs. ____________________________________SWITCHES____________________________________ -----------------SWITCH SETTING LEGEND----------------- : : : C = Closed or On O = Open or Off X = Not Used : ------------------------------------------------------- SW1 is a push button switch located below LED DS4 and resets the error LEDs. Additionally it,functions as a lamp test if it is pressed simultaneously with the LOAD or ALTLOAD switches. ............................................................................... Set the Printer Configuration switch - SW2 (at location 5X) as follows: PRINTER 1 : PRINTER 0 PRINTER SW2 Switch : Positions TYPE :9:----:8:7:6:5 : 4:3:2:1: --------------------------------:-:----:-:-:-:--:--:-:-:-: Model 4201 Matrix :O:----:C:O:O:O : C:O:O:O: --------------------------------:-:----:-:-:-:--:--:-:-:-: Model 4209, 4220, 4221 Band :O:----:O:O:O:C : O:O:O:C: --------------------------------:-:----:-:-:-:--:--:-:-:-: Model 4214 DMP :O:----:C:O:C:O : C:O:C:O: ---------------------------------------------------------- All other settings are undefined ---------------------------------------------------------- SW2, position 9 must be in the OPEN position for normal operation. This switch is placed in the CLOSED position to cause the DMA to self-test continuously. ............................................................................... Set the Disk Drive Configuration switches - SW3 (location 4T), for Drives 1 and 0, and SW4 (location 4U), for Drives 2 and 3, as follows: SW3 = DISK 1 : SW3 = DISK 0 DISK SW4 = DISK 3 : SW4 = DISK 2 TYPE :9:----:8:7:6:5 : 4:3:2:1: ----------------------:-:----:-:-:-:--:--:-:-:-: Model 4510 8" P314 :O:----:O:O:O:O : O:O:O:O: ----------------------:-:----:-:-:-:--:--:-:-:-: Model 8" F621 :O:----:C:O:O:O : C:O:O:O: ------------------------------------------------ ALL OTHER SWITCH SETTINGS ARE UNDEFINED ------------------------------------------------ SW3 position 9 and SW4 position 9 must be in the OPEN position for normal on-line operation. (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB046 Pg001 ________________________________DISK TERMINATION________________________________ Data and clock lines from the disks require termination at the DMA III PCBA using a 0 ohm DIP pack (or jumper pack) P/N 325047-002 at the locations shown below. Both P314 and F621 drives use the same termination (0 ohm), newer artwork DMAIII PCBAs may have these hardwired in. If a terminator pack location has a socket there must be a 0 ohm DIP pack inserted in it (if there is a corresponding disk drive installed). DISK 0's terminator plugs into location 8KK DISK 1's terminator plugs into location 8DD DISK 2's terminator plugs into location 8FF DISK 3's terminator plugs into location 8AA Disks may be mixed as long as the appropriate terminators are installed. ____________________________________JUMPERS_____________________________________ Jumpers JMP1 and JMP2 are for factory use only and should be removed. Their functions if installed are as follows: JMP1 - drives 0/1 spin continuously JMP2 - drives 2/3 spin continuously ______________________________________LEDS______________________________________ There are four LEDs numbered DS1 through DS4 from top to bottom which indicate the following: DS1 (red, upper) = main memory parity error DS2 (amber, 2ND) = main memory timeout error DS3 (green, 3RD) = on-line and passed self test DS4 (red, 4TH) = parity error in onboard memory _____________________________________NOTES______________________________________ 1. The DMA III controller MUST be installed in the first available card slot to the right of the right-most cpu PCBA. 2. There is no address switch for the DMA III PCBA. ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB046 Pg002 FIB 00047 09/19/88 *** 1,x,y,5 & 1,x,y,6 MEM Pty & Timeout Dump Analysis - ASxx Systems *** This FIB applies only the ASxx systems, for memory dumps on MPx systems consult FIB 37 in this handbook. Dumps with 1,x,y,5 values indicate memory timeout failures and dumps with 1,x,y,6 values indicate memory parity failures. The x value is a combination of CPU number plus the 16 megabyte bank address the failure occurred in. The y value is the failing address within the 16 megabyte bank (in 64 KB increments). Y can be a value between 0 and 255. The y value will in most cases not fall on a boundary shown in the following chart but will instead fall within one of the address ranges indicated. Find the x value in the following chart and then find the range containing the . y value within the x value range to locate the failing PCBA (or location reported as failing). EX. dump = 1,9,62,5 - memory timeout, ON CPU 2, in main memory PCBA addressed for 16-19 meg. FAILING FAILING X Y PCB/LOCATION CPU X Y PCB/LOCATION CPU --- -------- ---------------- ---- --- -------- ---------------- ---- 0...0-63.....0-3 MEG MEMORY...CPU0 0...222-222..CONTROLLER # 49..CPU0 0...64-127...4-7 MEG MEMORY...CPU0 0...223-223..CONTROLLER # 48..CPU0 0...128-191..8-11 MEG MEMORY..CPU0 0...224-224..CONTROLLER # 47..CPU0 0...192-192..CONTROLLER # 15..CPU0 0...225-225..CONTROLLER # 46..CPU0 0...193-193..CONTROLLER # 14..CPU0 0...226-226..CONTROLLER # 45..CPU0 0...194-194..CONTROLLER # 13..CPU0 0...227-227..CONTROLLER # 44..CPU0 0...195-195..CONTROLLER # 12..CPU0 0...228-228..CONTROLLER # 43..CPU0 0...196-196..CONTROLLER # 11..CPU0 0...229-229..CONTROLLER # 42..CPU0 0...197-197..CONTROLLER # 10..CPU0 0...230-230..CONTROLLER # 41..CPU0 0...198-198..CONTROLLER # 9...CPU0 0...231-231..CONTROLLER # 40..CPU0 0...199-199..CONTROLLER # 8...CPU0 0...232-232..CONTROLLER # 39..CPU0 0...200-200..CONTROLLER # 7...CPU0 0...233-233..CONTROLLER # 38..CPU0 0...201-201..CONTROLLER # 6...CPU0 0...234-234..CONTROLLER # 37..CPU0 0...202-202..CONTROLLER # 5...CPU0 0...235-235..CONTROLLER # 36..CPU0 0...203-203..CONTROLLER # 4...CPU0 0...236-236..CONTROLLER # 35..CPU0 0...204-204..CONTROLLER # 3...CPU0 0...237-237..CONTROLLER # 34..CPU0 0...205-205..CONTROLLER # 2...CPU0 0...238-238..CONTROLLER # 33..CPU0 0...206-206..CONTROLLER # 1...CPU0 0...239-239..CONTROLLER # 32..CPU0 0...207-207..MCS (BD # 0).....CPU0 0...240-240..VCON # 0.........CPU0 0...208-208..CONTROLLER # 63..CPU0 0...241-241..VCON # 1.........CPU0 0...209-209..CONTROLLER # 62..CPU0 0...242-242..VCON # 2.........CPU0 0...210-210..CONTROLLER # 61..CPU0 0...243-243..VCON # 3.........CPU0 0...211-211..CONTROLLER # 60..CPU0 0...244-244..VCON # 4.........CPU0 0...212-212..CONTROLLER # 59..CPU0 0...245-245..VCON # 5.........CPU0 0...213-213..CONTROLLER # 58..CPU0 0...246-246..VCON # 6.........CPU0 0...214-214..CONTROLLER # 57..CPU0 0...247-247..VCON # 7.........CPU0 0...215-215..CONTROLLER # 56..CPU0 0...248-248..VCON # 8.........CPU0 0...216-216..CONTROLLER # 55..CPU0 0...249-249..VCON # 9.........CPU0 0...217-217..CONTROLLER # 54..CPU0 0...250-250..VCON # 10........CPU0 0...218-218..CONTROLLER # 53..CPU0 0...251-251..VCON # 11........CPU0 0...219-219..CONTROLLER # 52..CPU0 0...252-252..VCON # 12........CPU0 0...220-220..CONTROLLER # 51..CPU0 0...253-253..VCON # 13........CPU0 0...221-221..CONTROLLER # 50..CPU0 0...254-254..VCON # 14........CPU0 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB047 Pg001 FAILING FAILING X Y PCB/LOCATION CPU X Y PCB/LOCATION CPU --- -------- ---------------- ---- --- -------- ---------------- ---- 0...255-255..GLOBALS/KEYBDS...CPU0 4...231-231..CONTROLLER # 40..CPU1 1...0-63.....16-19 MEG MEMORY.CPU0 4...232-232..CONTROLLER # 39..CPU1 1...64-127...20-23 MEG MEMORY.CPU0 4...233-233..CONTROLLER # 38..CPU1 1...128-191..24-27 MEG MEMORY.CPU0 4...234-234..CONTROLLER # 37..CPU1 1...192-255..UNUSED...........CPU0 4...235-235..CONTROLLER # 36..CPU1 2...0-63.....32-35 MEG MEMORY.CPU0 4...236-236..CONTROLLER # 35..CPU1 2...64-127...36-39 MEG MEMORY.CPU0 4...237-237..CONTROLLER # 34..CPU1 2...128-191..40-43 MEG MEMORY.CPU0 4...238-238..CONTROLLER # 33..CPU1 2...192-255..UNUSED...........CPU0 4...239-239..CONTROLLER # 32..CPU1 3...0-63.....48-51 MEG MEMORY.CPU0 4...240-240..VCON # 0.........CPU1 3...64-127...52-55 MEG MEMORY.CPU0 4...241-241..VCON # 1.........CPU1 3...128-191..56-59 MEG MEMORY.CPU0 4...242-242..VCON # 2.........CPU1 3...192-239..UNUSED...........CPU0 4...243-243..VCON # 3.........CPU1 3...240-255..CPU WCSs.........CPU0 4...244-244..VCON # 4.........CPU1 4...0-63.....0-3 MEG MEMORY...CPU1 4...245-245..VCON # 5.........CPU1 4...64-127...4-7 MEG MEMORY...CPU1 4...246-246..VCON # 6.........CPU1 4...128-191..8-11 MEG MEMORY..CPU1 4...247-247..VCON # 7.........CPU1 4...192-192..CONTROLLER # 15..CPU1 4...248-248..VCON # 8.........CPU1 4...193-193..CONTROLLER # 14..CPU1 4...249-249..VCON # 9.........CPU1 4...194-194..CONTROLLER # 13..CPU1 4...250-250..VCON # 10........CPU1 4...195-195..CONTROLLER # 12..CPU1 4...251-251..VCON # 11........CPU1 4...196-196..CONTROLLER # 11..CPU1 4...252-252..VCON # 12........CPU1 4...197-197..CONTROLLER # 10..CPU1 4...253-253..VCON # 13........CPU1 4...198-198..CONTROLLER # 9...CPU1 4...254-254..VCON # 14........CPU1 4...199-199..CONTROLLER # 8...CPU1 4...255-255..GLOBALS/KEYBDS...CPU1 4...200-200..CONTROLLER # 7...CPU1 5...0-63.....16-19 MEG MEMORY.CPU1 4...201-201..CONTROLLER # 6...CPU1 5...64-127...20-23 MEG MEMORY.CPU1 4...202-202..CONTROLLER # 5...CPU1 5...128-191..24-27 MEG MEMORY.CPU1 4...203-203..CONTROLLER # 4...CPU1 5...192-255..UNUSED...........CPU1 4...204-204..CONTROLLER # 3...CPU1 6...0-63.....32-35 MEG MEMORY.CPU1 4...205-205..CONTROLLER # 2...CPU1 6...64-127...36-39 MEG MEMORY.CPU1 4...206-206..CONTROLLER # 1...CPU1 6...128-191..40-43 MEG MEMORY.CPU1 4...207-207..MCS (BD # 0).....CPU1 6...192-255..UNUSED...........CPU1 4...208-208..CONTROLLER # 63..CPU1 7...0-63.....48-51 MEG MEMORY.CPU1 4...209-209..CONTROLLER # 62..CPU1 7...64-127...52-55 MEG MEMORY.CPU1 4...210-210..CONTROLLER # 61..CPU1 7...128-191..56-59 MEG MEMORY.CPU1 4...211-211..CONTROLLER # 60..CPU1 7...192-239..UNUSED...........CPU1 4...212-212..CONTROLLER # 59..CPU1 7...240-255..CPU WCSs.........CPU1 4...213-213..CONTROLLER # 58..CPU1 8...0-63.....0-3 MEG MEMORY...CPU2 4...214-214..CONTROLLER # 57..CPU1 8...64-127...4-7 MEG MEMORY...CPU2 4...215-215..CONTROLLER # 56..CPU1 8...128-191..8-11 MEG MEMORY..CPU2 4...216-216..CONTROLLER # 55..CPU1 8...192-192..CONTROLLER # 15..CPU2 4...217-217..CONTROLLER # 54..CPU1 8...193-193..CONTROLLER # 14..CPU2 4...218-218..CONTROLLER # 53..CPU1 8...194-194..CONTROLLER # 13..CPU2 4...219-219..CONTROLLER # 52..CPU1 8...195-195..CONTROLLER # 12..CPU2 4...220-220..CONTROLLER # 51..CPU1 8...196-196..CONTROLLER # 11..CPU2 4...221-221..CONTROLLER # 50..CPU1 8...197-197..CONTROLLER # 10..CPU2 4...222-222..CONTROLLER # 49..CPU1 8...198-198..CONTROLLER # 9...CPU2 4...223-223..CONTROLLER # 48..CPU1 8...199-199..CONTROLLER # 8...CPU2 4...224-224..CONTROLLER # 47..CPU1 8...200-200..CONTROLLER # 7...CPU2 4...225-225..CONTROLLER # 46..CPU1 8...201-201..CONTROLLER # 6...CPU2 4...226-226..CONTROLLER # 45..CPU1 8...202-202..CONTROLLER # 5...CPU2 4...227-227..CONTROLLER # 44..CPU1 8...203-203..CONTROLLER # 4...CPU2 4...228-228..CONTROLLER # 43..CPU1 8...204-204..CONTROLLER # 3...CPU2 4...229-229..CONTROLLER # 42..CPU1 8...205-205..CONTROLLER # 2...CPU2 4...230-230..CONTROLLER # 41..CPU1 8...206-206..CONTROLLER # 1...CPU2 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB047 Pg002 FAILING FAILING X Y PCB/LOCATION CPU X Y PCB/LOCATION CPU --- -------- ---------------- ---- --- -------- ---------------- ---- 8...207-207..MCS (BD # 0).....CPU2 11..0-63.....48-51 MEG MEMORY.CPU2 8...208-208..CONTROLLER # 63..CPU2 11..64-127...52-55 MEG MEMORY.CPU2 8...209-209..CONTROLLER # 62..CPU2 11..128-191..56-59 MEG MEMORY.CPU2 8...210-210..CONTROLLER # 61..CPU2 11..192-239..UNUSED...........CPU2 8...211-211..CONTROLLER # 60..CPU2 11..240-255..CPU WCSs.........CPU2 8...212-212..CONTROLLER # 59..CPU2 12..0-63.....0-3 MEG MEMORY...CPU3 8...213-213..CONTROLLER # 58..CPU2 12..64-127...4-7 MEG MEMORY...CPU3 8...214-214..CONTROLLER # 57..CPU2 12..128-191..8-11 MEG MEMORY..CPU3 8...215-215..CONTROLLER # 56..CPU2 12..192-192..CONTROLLER # 15..CPU3 8...216-216..CONTROLLER # 55..CPU2 12..193-193..CONTROLLER # 14..CPU3 8...217-217..CONTROLLER # 54..CPU2 12..194-194..CONTROLLER # 13..CPU3 8...218-218..CONTROLLER # 53..CPU2 12..195-195..CONTROLLER # 12..CPU3 8...219-219..CONTROLLER # 52..CPU2 12..196-196..CONTROLLER # 11..CPU3 8...220-220..CONTROLLER # 51..CPU2 12..197-197..CONTROLLER # 10..CPU3 8...221-221..CONTROLLER # 50..CPU2 12..198-198..CONTROLLER # 9...CPU3 8...222-222..CONTROLLER # 49..CPU2 12..199-199..CONTROLLER # 8...CPU3 8...223-223..CONTROLLER # 48..CPU2 12..200-200..CONTROLLER # 7...CPU3 8...224-224..CONTROLLER # 47..CPU2 12..201-201..CONTROLLER # 6...CPU3 8...225-225..CONTROLLER # 46..CPU2 12..202-202..CONTROLLER # 5...CPU3 8...226-226..CONTROLLER # 45..CPU2 12..203-203..CONTROLLER # 4...CPU3 8...227-227..CONTROLLER # 44..CPU2 12..204-204..CONTROLLER # 3...CPU3 8...228-228..CONTROLLER # 43..CPU2 12..205-205..CONTROLLER # 2...CPU3 8...229-229..CONTROLLER # 42..CPU2 12..206-206..CONTROLLER # 1...CPU3 8...230-230..CONTROLLER # 41..CPU2 12..207-207..MCS (BD # 0).....CPU3 8...231-231..CONTROLLER # 40..CPU2 12..208-208..CONTROLLER # 63..CPU3 8...232-232..CONTROLLER # 39..CPU2 12..209-209..CONTROLLER # 62..CPU3 8...233-233..CONTROLLER # 38..CPU2 12..210-210..CONTROLLER # 61..CPU3 8...234-234..CONTROLLER # 37..CPU2 12..211-211..CONTROLLER # 60..CPU3 8...235-235..CONTROLLER # 36..CPU2 12..212-212..CONTROLLER # 59..CPU3 8...236-236..CONTROLLER # 35..CPU2 12..213-213..CONTROLLER # 58..CPU3 8...237-237..CONTROLLER # 34..CPU2 12..214-214..CONTROLLER # 57..CPU3 8...238-238..CONTROLLER # 33..CPU2 12..215-215..CONTROLLER # 56..CPU3 8...239-239..CONTROLLER # 32..CPU2 12..216-216..CONTROLLER # 55..CPU3 8...240-240..VCON # 0.........CPU2 12..217-217..CONTROLLER # 54..CPU3 8...241-241..VCON # 1.........CPU2 12..218-218..CONTROLLER # 53..CPU3 8...242-242..VCON # 2.........CPU2 12..219-219..CONTROLLER # 52..CPU3 8...243-243..VCON # 3.........CPU2 12..220-220..CONTROLLER # 51..CPU3 8...244-244..VCON # 4.........CPU2 12..221-221..CONTROLLER # 50..CPU3 8...245-245..VCON # 5.........CPU2 12..222-222..CONTROLLER # 49..CPU3 8...246-246..VCON # 6.........CPU2 12..223-223..CONTROLLER # 48..CPU3 8...247-247..VCON # 7.........CPU2 12..224-224..CONTROLLER # 47..CPU3 8...248-248..VCON # 8.........CPU2 12..225-225..CONTROLLER # 46..CPU3 8...249-249..VCON # 9.........CPU2 12..226-226..CONTROLLER # 45..CPU3 8...250-250..VCON # 10........CPU2 12..227-227..CONTROLLER # 44..CPU3 8...251-251..VCON # 11........CPU2 12..228-228..CONTROLLER # 43..CPU3 8...252-252..VCON # 12........CPU2 12..229-229..CONTROLLER # 42..CPU3 8...253-253..VCON # 13........CPU2 12..230-230..CONTROLLER # 41..CPU3 8...254-254..VCON # 14........CPU2 12..231-231..CONTROLLER # 40..CPU3 8...255-255..GLOBALS/KEYBDS...CPU2 12..232-232..CONTROLLER # 39..CPU3 9...0-63.....16-19 MEG MEMORY.CPU2 12..233-233..CONTROLLER # 38..CPU3 9...64-127...20-23 MEG MEMORY.CPU2 12..234-234..CONTROLLER # 37..CPU3 9...128-191..24-27 MEG MEMORY.CPU2 12..235-235..CONTROLLER # 36..CPU3 9...192-255..UNUSED...........CPU2 12..236-236..CONTROLLER # 35..CPU3 10..0-63.....32-35 MEG MEMORY.CPU2 12..237-237..CONTROLLER # 34..CPU3 10..64-127...36-39 MEG MEMORY.CPU2 12..238-238..CONTROLLER # 33..CPU3 10..128-191..40-43 MEG MEMORY.CPU2 12..239-239..CONTROLLER # 32..CPU3 10..192-255..UNUSED...........CPU2 12..240-240..VCON # 0.........CPU3 (continued on next page) HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB047 Pg003 FAILING FAILING X Y PCB/LOCATION CPU X Y PCB/LOCATION CPU --- -------- ---------------- ---- --- -------- ---------------- ---- 12..241-241..VCON # 1.........CPU3 12..242-242..VCON # 2.........CPU3 12..243-243..VCON # 3.........CPU3 12..244-244..VCON # 4.........CPU3 12..245-245..VCON # 5.........CPU3 12..246-246..VCON # 6.........CPU3 12..247-247..VCON # 7.........CPU3 12..248-248..VCON # 8.........CPU3 12..249-249..VCON # 9.........CPU3 12..250-250..VCON # 10........CPU3 12..251-251..VCON # 11........CPU3 12..252-252..VCON # 12........CPU3 12..253-253..VCON # 13........CPU3 12..254-254..VCON # 14........CPU3 12..255-255..GLOBALS/KEYBDS...CPU3 13..0-63.....16-19 MEG MEMORY.CPU3 13..64-127...20-23 MEG MEMORY.CPU3 13..128-191..24-27 MEG MEMORY.CPU3 13..192-255..UNUSED...........CPU3 14..0-63.....32-35 MEG MEMORY.CPU3 14..64-127...36-39 MEG MEMORY.CPU3 14..128-191..40-43 MEG MEMORY.CPU3 14..192-255..UNUSED...........CPU3 15..0-63.....48-51 MEG MEMORY.CPU3 15..64-127...52-55 MEG MEMORY.CPU3 15..128-191..56-59 MEG MEMORY.CPU3 15..192-239..UNUSED...........CPU3 15..240-255..CPU WCSs.........CPU3 ORIGINATOR: N. Jones HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB047 Pg004 FIB 00048 MAI COMPANY CONFIDENTIAL 02/18/92 *** System Hang/Dump Recovery Procedures [ WPSF 506 ] *** This procedure should be followed after a system dump or a system load due to a system hang. Step 1) After the dump is completed, reload system and enter a Type II load. Choose the option DISKANALYZER. The DISKANALYZER main menu will appear. Step 2) First check the directory and the available space. Choose option 6 "CHECK DIRECTORY AND AVAILABLE SPACE FILES". Each family needs to be checked. If errors are reported, that directory and available space will need to be reconstructed (this operation is explained in step 4). Step 3) Check for overlapping or missing space by choosing option 5 "DISK SPACE USAGE" (SPACE MISSING/OVERLAPPING)". If the option reports that space is missing, then the available space file must be reconstructed to reclaim. that space. If 2 or more files are overlapping, then certain actions must be taken to resolve the conflict. To fix this, do the following steps: A) Make a backup of the system (just in case). B) Only one of the overlapping files can exist in that filespace. First you have to determine which files are not the proper owner. Use option 2 "VALIDATE/RECONSTRUCT A FILE". It is possible that the files are not bad and can be saved by copying the files to a new location (another disk or tape) and deleting its source. If not, then delete the files that do not own the filespace. C) The available space file will have to be reconstructed. (This is explained in step 4). D) After reconstruction, recheck the directory and available space files using options 5 and 6. Repeat steps B, C, D as necessary. Step 4) Steps 2 and 3 will identify any problems with the directory and the available space files. If the files are reported to have problems, they must be reconstructed before processing can continue. If both the directory and the available space must be reconstructed, the available space file MUST be reconstructed first. To reconstruct the available space file, choose option 9 "RECONSTRUCT AVAILABLE SPACE FILES (TYPE II LOAD)". To reconstruct the directory, choose option 10 "RECONSTRUCT DIRECTORY FILE (TYPE II LOAD)". Step 5) Next, the files must be validated. To do this use option 1 "FIND FILES THAT LACK INTEGRITY". This option will find any files that have the integrity flag set. This option does not check the file structure, only the integrity flag. If persistant problems with file corruption occur, then use option 3 "VALIDATE FILES". This option provides a very thorough check of each file's internal structure. Step 6) The files found to have problems from step 5 must be fixed. Files critical to the operation of the system and the application should be fixed using option 2 "VALIDATE/RECONSTRUCT A FILE". Files that are not critical should be reconstructed in a Type I load. This will allow you to start reconstruction on multiple terminals. HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB048 Pg001 Step 7) Enter a Type I load. Reconstruct the files not reconstructed in step 6. Keyed (DIRECT, SORT, MULTIKEY) files should be reconstructed FIRST using the RECONSTRUCT utility. This utility is faster than DISKANALYZER. If RECONSTRUCT cannot fix the file, then DISKANALYZER option 2 must be used to repair the file. Serial and indexed files are repaired using DISKANALYZER. ORIGINATOR: NSC HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB048 Pg002 FIB 00049 MAI COMPANY CONFIDENTIAL 06/23/92 *** MODE SENSE PARAMETERS FOR SCSI DRIVES *** A. SCSI DISK DRIVE (M280) Unit Number: 32 Device Type : 10 Variance : 32 Id Revision: 8.7.10.1 Date Written: Time Written: Disk Name:*?????????? Vendor Id:#MBF-DISK Product Id:#XT-3280 Product Rev.:#42343032 Num of Cylinders:*1224 Descriptor Fields:#5 12 0 15 14 1223 13 0 Number of Heads :*15 Fmt Sector Cap. : 257040 Blocks per Track:*14 Last Track Sec. 0: 254397 Bytes per Block :*1024 Usable Sectors :#254425 Raw Block Cap. :#257040 Usable Blocks :#254426 Mode Sense/Select Pages:#5800 Drive Mode Page 1: 2500 OS Default: 2500 Format Gap 1:#0 Gap 2:#0 Step Rate/2-byte :#92 Interleave:#1 Write Precomp Cylinder :#0 Number of Tracks per Zone :*15 Landing Zone Cylinder :#0 Alternate Tracks per Zone :#0 Reduced Write Curnt Cyl:#0 Alternate Sectors per Zone :*2 Verify-by-Bytes :#F Alternate Tracks per Volume:#2 SCSI Commands:D9B0273E04B101180000000000000000000000000000000000000000 Note: * = changeable field # = not changeable for this drive type HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB049 Pg001 B. SCSI DISK DRIVE (M380) Unit Number: 35 Device Type : 10 Variance : 32 Id Revision: 8.7.10.1 Date Written: Time Written: Disk Name:*?????????? Vendor Id:#MBF-DISK Product Id:#XT-8380S Product Rev.:#00000000 Num of Cylinders:*1632 Descriptor Fields:#1 0 0 8 28 1631 43 0 Number of Heads :*8 Fmt Sector Cap. : 365568 Blocks per Track:*28 Last Track Sec. 0: 356065 Bytes per Block :*1024 Usable Sectors :#356093 Raw Block Cap. :#365568 Usable Blocks :#356094 Mode Sense/Select Pages:#7800 Drive Mode Page 1: 2100 OS Default: 2500 Format Gap 1:#0 Gap 2:#0 Step Rate/2-byte :#0 Interleave:#1 Write Precomp Cylinder :#0 Number of Tracks per Zone :*8 Landing Zone Cylinder :#0 Alternate Tracks per Zone :#0 Reduced Write Curnt Cyl:#0 Alternate Sectors per Zone :*5 Verify-by-Bytes :#F Alternate Tracks per Volume:*24 SCSI Commands:D9B0273E04B101180000000000000000000000000000000000000000 Note: * = changeable field # = not changeable for this drive type C. SCSI DISK DRIVE (M760) Unit Number: 22 Device Type : 10 Variance : 32 Id Revision: 8.7.10.1 Date Written: Time Written: Disk Name:*?????????? Vendor Id:#MBF-DISK Product Id:#XT-8760S Product Rev.:#00000000 Num of Cylinders:*1632 Descriptor Fields:#1 0 0 15 28 1631 26 0 Number of Heads :*15 Fmt Sector Cap. : 685440 Blocks per Track:*28 Last Track Sec. 0: 674761 Bytes per Block :*1024 Usable Sectors :#674789 Raw Block Cap. :#685440 Usable Blocks :#674790 Mode Sense/Select Pages:#7800 Drive Mode Page 1: 2100 OS Default: 2500 Format Gap 1:#0 Gap 2:#0 Step Rate/2-byte :#0 Interleave:#1 Write Precomp Cylinder :#0 Number of Tracks per Zone :*15 Landing Zone Cylinder :#0 Alternate Tracks per Zone :#0 Reduced Write Curnt Cyl:#0 Alternate Sectors per Zone :*5 Verify-by-Bytes :#F Alternate Tracks per Volume:*45 SCSI Commands:D9B0273E04B101180000000000000000000000000000000000000000 Note: * = changeable field # = not changeable for this drive type D. SCSI DISK DRIVE (M169) Unit Number: 35 Device Type : 10 Variance : 32 Id Revision: 8.7.10.1 Date Written: Time Written: Disk Name:*?????????? Vendor Id:#MBF-DISK Product Id:#ADP-46 Product Rev.:#30303030 Num of Cylinders:*1224 Descriptor Fields:#5 3 0 15 8 1223 13 0 Number of Heads :*15 Fmt Sector Cap. : 156060 HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB049 Pg002 Blocks per Track:*17 Last Track Sec. 0: 145424 Bytes per Block :*512 Usable Sectors :#145440 Raw Block Cap. :*312120 Usable Blocks :#290880 Mode Sense/Select Pages:#1800 Drive Mode Page 1: 0000 OS Default: 2500 Format Gap 1:#0 Gap 2:#0 Step Rate/2-byte :#83 Interleave:#1 Write Precomp Cylinder :*1224 Number of Tracks per Zone :#1 Landing Zone Cylinder :#0 Alternate Tracks per Zone :#0 Reduced Write Curnt Cyl:#0 Alternate Sectors per Zone :*0 Verify-by-Bytes :*F Alternate Tracks per Volume:*210 SCSI Commands:D9B0273E04B101180000000000000000000000000000000000000000 Note: * = changeable field # = not changeable for this drive type E. SCSI DISK DRIVE (M93) Unit Number: 35 Device Type : 10 Variance : 32 Id Revision: 8.7.10.1 Date Written: Time Written: Disk Name:*?????????? Vendor Id:#MBF-DISK Product Id:#ADP-46 Product Rev.:#30303030 Num of Cylinders:*918 Descriptor Fields:#5 3 0 15 8 1223 13 0 Number of Heads :*11 Fmt Sector Cap. : 85833 Blocks per Track:*17 Last Track Sec. 0: 85620 Bytes per Block :*512 Usable Sectors :#85636 Raw Block Cap. :*171666 Usable Blocks :#171272 Mode Sense/Select Pages:#1800 Drive Mode Page 1: 0000 OS Default: 2500 Format Gap 1:#0 Gap 2:#0 Step Rate/2-byte :#83 Interleave:#1 Write Precomp Cylinder :*918 Number of Tracks per Zone :#1 Landing Zone Cylinder :#0 Alternate Tracks per Zone :#0 Reduced Write Curnt Cyl:#0 Alternate Sectors per Zone :*0 Verify-by-Bytes :*F Alternate Tracks per Volume:*165 SCSI Commands:D9B0273E04B101180000000000000000000000000000000000000000 Note: * = changeable field # = not changeable for this drive type F. SCSI DISK DRIVE (M126) Unit Number: 35 Device Type : 10 Variance : 32 Id Revision: 8.7.10.1 Date Written: Time Written: Disk Name:*?????????? Vendor Id:#MBF-DISK Product Id:#ADP-46 Product Rev.:#30303030 Num of Cylinders:*918 Descriptor Fields:#5 3 0 15 8 1223 13 0 Number of Heads :*15 Fmt Sector Cap. : 117045 Blocks per Track:*17 Last Track Sec. 0: 116624 Bytes per Block :*512 Usable Sectors :#116640 Raw Block Cap. :*234090 Usable Blocks :#233280 Mode Sense/Select Pages:#1800 Drive Mode Page 1: 0000 OS Default: 2500 Format Gap 1:#0 Gap 2:#0 Step Rate/2-byte :#83 Interleave:#1 Write Precomp Cylinder :*918 Number of Tracks per Zone :#1 Landing Zone Cylinder :#0 Alternate Tracks per Zone :#0 Reduced Write Curnt Cyl:#0 Alternate Sectors per Zone :*0 Verify-by-Bytes :*F Alternate Tracks per Volume:*180 SCSI Commands:D9B0273E04B101180000000000000000000000000000000000000000 HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB049 Pg003 Note: * = changeable field # = not changeable for this drive type G. SCSI DISK DRIVE (M59) Unit Number: 35 Device Type : 10 Variance : 32 Id Revision: 8.7.10.1 Date Written: Time Written: Disk Name:*?????????? Vendor Id:#MBF-DISK Product Id:#ADP-46 Product Rev.:#30303030 Num of Cylinders:*918 Descriptor Fields:#5 3 0 15 8 1223 13 0 Number of Heads :*7 Fmt Sector Cap. : 54621 Blocks per Track:*17 Last Track Sec. 0: 54304 Bytes per Block :*512 Usable Sectors :#54320 Raw Block Cap. :*109242 Usable Blocks :#108640 Mode Sense/Select Pages:#1800 Drive Mode Page 1: 0000 OS Default: 2500 Format Gap 1:#0 Gap 2:#0 Step Rate/2-byte :#83 Interleave:#1 Write Precomp Cylinder :*918 Number of Tracks per Zone :#1 Landing Zone Cylinder :#0 Alternate Tracks per Zone :#0 Reduced Write Curnt Cyl:#0 Alternate Sectors per Zone :*0 Verify-by-Bytes :*F Alternate Tracks per Volume:*126 SCSI Commands:D9B0273E04B101180000000000000000000000000000000000000000 Note: * = changeable field # = not changeable for this drive type ORIGINATOR: J WHALEN HANDBOOKS-BASIC FOUR-MPx & ASxx Systems-------------FIB049 Pg004