"user manual"
Contents
1. Cut Along Dotted Line2. 7504 M3121 PA M8020 PA 8049 7651 M3106 PA M8634 PA 7554 7500 M4002 PA 8086 9060 8067 M8067 L 7551 7551 7551 7546 Current Amps 5 V 12 1 8 0 0 3 2 0 0 2 0 0 0 2 2 0 130 1 6 0 20 2 0 0 0 1 5 0 30 2 7 0 5 3 5 0 50 1 97 0 40 1 2 0 30 1 8 0 0 1 8 0 0 1 0 0 36 3 5 0 0 3 9 0 18 2 6 0 2 2 2 0 13 1 6 0 0 5 3 0 0 3 45 3 6 2 4 0 0 2 3 0 0 2 5 0 0 0 9 0 9 0 9 0 6 1 25 2 85 1 35 2 4 2 9 0 0 Power Watts 9 0 16 0 10 0 11 16 10 4 10 0 12 6 19 5 23 5 14 7 9 6 9 0 9 0 9 3 17 5 19 7 15 4 11 16 8 0 26 5 17 25 17 5 12 0 11 5 12 5 38 8 33 0 18 3 33 55 14 5 Bus Loads AC DC 2 1 0 5 2 9 0 5 1 2 0 3 1 0 0 3 3 0 0 5 3 0 0 5 3 2 0 5 2 2 0 5 2 2 0 5 3 0 1 0 1 0 1 0 2 0 1 0 2 0 1 0 1 4 0 5 2 0 1 0 3 0 1 0 3 0 1 0 1 0 0 3 1 8 0 5 0 0 0 0 2 0 1 0 2 0 1 0 2 0 1 0 2 0 1 0 2 0 1 0 2 0 1 0 Configuration 2 5 Table 2 3 Power Bus Load and 1 0 Insert Data BA23 123 Current Amps Power Bus Loads Option Module 5 V 12 Watts AC DC Insert AAV11 D A1009 1 8 0 0 9 0 1 0 1 0 ADV11 D A1008 3 2 0 0 16 0 1 0 1 0 DEQNA M7504 3 5 0 5 23 5 2 8 0 5 DELQA M7516 2 7 0 5 19 5 2 9 0 5 A DHV11 M3104 4 5 0 55 29 1 2 9 0 5 B 2 DLVEI DP M8017 1 0 1 5 23 0 1 6 1 0 A DLVJ1 M8043 1 0 0 25 8 0 1 0 1 0 B DMV11 M M8053 3 4 0 4 21 8 2 0 1 0 A DMV11 AP 8053 3
3. and PL modules have the same factory configuration The MSVII P module has two LEDs that show the following status green LED lights to indicate that 5 Vdc is present LED lights to indicate that a parity error has been detected Figure 1 6 MSV11 P Module Layout ra C jJ 4 45 43 44 E Bar 678 0 e 10 14 m 15 1 T 2322 E 415 STARTING L 2213 ADDRESS LS SUMPERS to CSR ADDRESS Fe W15 e V14 W13 T sW 12 W4 W11e e eW10 e e e W W5 W9 W2 W ei e et reet MLO O0 12 75 KDJ11 D S CPU Description 1 23 1 7 1 5 11 Expansion Addresses You can install additional MSV11 P modules for system expansion For each memory module that you add to the Q22 bus you must reposition jumpers on the wire wrap pins to provide a CSR address and a starting address Figure 1 6 shows the CSR address jumpers on the MSV11 P module Table 1 6 lists the CSR address and corresponding jumper configurations for each memory module PK or PL added to the system Table 1 6 5 11 CSR Addresses and Jumpers Module Pins to CSR Address in System Wire Wrap x 177721 1 None x00 2 A to E x02 3 B to E x04 4 A to B B to E x06 5 Ctok x10 6 A to C C to E x12 1 C to E 14 8 to B B to C C to 16 The starting address depends the amount of memory already present in the system Table 1 7 lists the first address range
4. 5 11 Partial Starting Address Ranges Partial Starting Address Decimal K Octal Pins to Wire Wrap 160 01200000 Mto R 168 01240000 P to R to R 176 01300000 PtoR MtoR LtoR 184 01340000 PtoR Mto R LtoR Tto R 192 01400000 Pto R Nto R 200 01440000 P to R N to R T to R 208 01400000 P to R N to R L to R 216 01540000 P to R N to R L to R T to R 224 01600000 P to R N to R M to R 232 01640000 P to R N to R M to R T to R 240 01700000 P to R Nto R Mto Lto R 248 01740000 P to R N to R M to R Lto R Tto R Table 1 9 lists the jumper configuration for additional MSV11 PK modules Table 1 9 MSV11 PK Starting Address Jumpers 256 Kbyte Increments Module No in System Pins to Wire Wrap l None 2 P to R 3 V to Y 4 V to Y Pto R 5 W to Y 6 W to Pto R 7 W to Y V to Y 8 W to Y V to Y Pto R 1 26 KDJ11 D S CPU System Maintenance Table 1 10 lists the jumper configuration for additional MSVII PL modules Table 1 10 MSV11 PL Starting Address Jumpers 512 Kbyte Increments Module No in System Pins to Wire Wrap 1 J V to Y 3 W to Y 4 V to Y W to Y 5 X to Y 6 X to Y V to Y 7 X to Y W to Y 8 X to Y W to Y V to Y For more information on the MSV11 P memory refer to the 5 11 User s Guide EK MSVOP UQG 1 8 MSV11 Q Memory The MSV11 Q memory is a quad height module shown in Figure 1 7 that occupies the slot s 1n the backplane immediately following th
5. TEST CODE E DISPLAY B 300 1 600 2 1200 3 4 5 6 7 gt 99 16 POSITION SWITCH A1 57 BOOT MODE SELECT SLUT SLU CONNECTOR BAUD RATE SELECT SWITCH MLO 001490 KDJ11 D S CPU Description 1 5 The internal cabling from the SLU panel to the KDJ11 D is shown Figure 1 4 Figure 1 4 KDJ11 D Internal Cabling KDF11 D MODULE SLU PANEL REAR J1 01491 The module handle on the KDJ11 S contains console terminal connectors SLUO and SLUI a boot mode select rotary switch and a hex code display Figure 1 5 1 6 KDJ11 D S CPU System Maintenance Figure 1 5 KDJ11 S Handle 16 POSITION BOOT MODE SELECT SWITCH CODE DISPLAY SOA 1 MLO 001492 To change the baud rate on the KDJ11 S module remove the module from the BA200 series enclosure and install or remove jumpers W4 W6 W7 W9 W10 and W12 on six pairs of wire wrap pins Figure 1 2 above shows the baud rate jumpers for SLUO and SLUI set to baud rate 9600 KDJ11 D S CPU Description 1 7 Table 1 2 lists the switch and jumper settings the KDJ11 D S module Table 1 2 KDJ11 D S Switch and Jumper Settings Comments Trap on halt disabled Trap on halt enabled Boot select Boot select Boot select Boot select Boot select See Table 1 3 see Table 1 3 See Table 1 3 see Table 1 3 See Table 1 3 Function Jumper Position Halt Wi
6. DISK TOTAL LEFT HALF POWER SUPPLY MUST NOT EXCEED e 0 2300 TOTAL 805 LOADS MUST NOT EXCEED 35 0 65 ENCLOSURE POWER SUPE Y BUS LOADS AC Dc POWER SUPPLY MUST NOT EXCEED BUSLOALDS MUS NOT EXCEED NOTE POWER SUPPLIES MAY DIFFER CHECK YOUR POWER SUPPLY SPEC FICATIONS CONFIRM THE MAXIMUM WATTAGE MLO 00 1487 Configuration 2 9 Chapter 3 Troubleshooting 3 1 Overview This chapter describes the KDJ11 D S CPU power up self test procedure and error messages NOTE The XXDP V2 diagnostic monitor is described in the XXDP User s Manual Read the Troubleshooting section of the customer documentation before using this chapter Many apparent system problems have simple causes such as incorrect external cabling or monitor settings Always check for obvious problems before troubleshooting the system The KDJ11 D S CPU and most option modules run self tests when you power up the system module self test can detect hard or repeatable errors but not intermittent errors The LEDs on the module indicate test results successful module self test does not guarantee that the module 1s performing correctly because the test checks the controller logic only The test does not check the module s Q22 bus interface line drivers and receivers or connector pins n unsuccessful module self test 1s accurate the test does not require any other part of
7. for 9644 VAXstation 3200 Owner s Manual BA23 VAXstation 3500 Owner s Manual BA213 VAXstation IL GPX Owner s Manual BA23 VAXstation Owner s Manual BA123 Related Documentation B 3 Order Number EK 181AA MG 02071 01 02219 01 02065 01 02068 01 ER 186AA MG 188 EK 189AA MG 190 191 EK 187AA MG ER 221AA MG 178 EK 179AA MG 180 EK 245AA MG EK 247AA MG EK 246AA MG 00 ZYAAA GZ 00 ZYAAB GZ 00 ZYAAE GZ 00 Z YAAS GZ EK 192AA MG EK O67AB PG 00 ZNAAA GZ Q0 ZNAAB GZ 00 ZNAAE GZ Q0 ZNAES GZ 00 ZNAEF GZ EK 154AA OW EK 171AA OW EK 106AA OW EK 105AA OW Document Title Diagnostics DEC X11 Reference Card DEC X11 User s Manual XXDP User s Manual XXDP DEC X11 Programming Card MicroVAX Diagnostic Monitor Ethernet Server User s Guide MicroVAX Diagnostic Monitor Reference Card MicroVAX Diagnostic Monitor User s Guide Networks Ethernet Transceiver Tester User s Manual VAX VMS Networking Manual VAX NI Exerciser User s Guide 4 KDJ11 D S CPU System Maintenance Order Number 145 AC FOS53D MC AZ GNJAA MC EK OXXDP MC AA FNTAC DN AV FMXAA DN AA FM7AB DN EK ETHTT UG AA Y512C TE AA HIOGA TE Addresses CSR for MSV11 P 1 24 CSR for MSV11 Q 1 31 starting for MSVII P 1 25 starting and ending for MSV11 Q 1 29 Automatic boot mode bootstrap messages 1 12
8. Error 3 6 3 3 Q22 Bus Test Error 3 6 3 4 11 Unexpected Trap Error Message 3 6 Figures 1 1 KDJ11 D Module Layout 7554 1 3 1 2 KDJ11 Module Layout 7554 1 4 1 3 0 11 SLU 1 5 1 4 KDJ11 D Internal Cabling 1 6 1 5 KDJ11 S Handle 1 7 1 6 MSV11 P Module 1 23 1 7 MSV11 Q Module Layout 1 28 1 8 MSV11 Q CSR 17772102 1 32 2 1 BA23 Enclosure Worksheet 2 8 2 2 BA200 Senes Enclosure Worksheet 2 9 Tabies 1 1 KDJ11 D B Variants 11 53 1 1 1 2 KDJ11 D S Switch and Jumper 1 8 1 3 Boot Select Options 1 9 14 KDJ11 D S Terminal 1 11 1 5 Console Mode Commands and Characters 1 14 1 6 CSR Addresses and Jumpers 1 24 1 7 MSVII P First Address 1 25 1 86 MSVII P Partial Starting Address Ranges 1 25 1 9 MSV11 PK Starting Address Jumpers 256 Kbyte Increments 1 26 1 10 MSVII PL Star
9. In Out Boot W2 Select W3 W5 W8 W22 Baud Rate W4 W6 W9 DLARTO 10 W12 DLARTI Out Out Out Out Out In Out In Out Out In In In Out Out In Out In In In Out In In In Break W11 Out In ROM Size W13 R14 In Out Out In Backplane W20 W21 In In lFactory position KDJ11 D and KDJ11 S KDJ11 DA remote switch remove all jumpers Factory position KDJ11 D only Factory position KDJ11 S only W13 R14 and ROMs are factory installed 8Factory position KDJ11 SB only 7Soldered in not user selectable 1 8 KDJ11 D S CPU System Maintenance Baud Rate 300 600 1200 2400 4800 96004 19 200 38 400 Console Break enabled Console Break disabled 32 Kbyte self test ROMs 16 Kbyte self test ROMs Backplane pin CM2 to pin CN2 Backplane pin CR2 to pin CS2 1 3 1 Boot Mode Selection To choose the system boot mode you set a boot mode select switch and position the following five jumpers W2 W3 W5 W8 and W22 On the KDJ11 D the SLU contains the 16 position boot mode select switch Figure 1 3 On the KDJ11 5 the module handle contains the 16 position boot mode select switch Figure 1 5 Jumpers W2 W3 W5 W8 W22 are located on the KDJ11 D S module Table 1 3 describes the system boot selections for the boot mode select switch and the five jumpers If you position the jumpers to 00000 or 10000 you can use switch positions 0 through 15 to select the test Table 1 3 Boot Select Opt
10. Switch S6 of SW2 is not used For a memory starting address of 0 set switch S6 of SW1 to on 0 For ali other starting addresses set switch 56 of SW1 to off 1 21 off 0 You configure the MSV11 Q CSR address by setting jumpers J4 through J11 Figure 1 7 Table 1 13 shows the jumper positions and the corresponding CSR register addresses for up to 16 locations Figure 1 8 shows the jumper settings for a CSR register address of 17772102 representing a second MSV11 Q 1 30 KDJ11 D S CPU System Maintenance Table 1 13 5 11 0 CSR Addresses Jumper Number J4 to J6 to J8 to J10 to CSR Memory J5 J7 J9 Jil CSR Address 1 In In In x00 2 Out In In x02 3 In Out In In x04 4 Out Out In In x06 5 In In Out In x10 6 Out In Out In x12 7 In Out Out In x14 B Out Out Qut In x16 9 In In Out x20 10 Out In In Out x22 1 In Out In Out x24 12 Out Out In Out x26 13 In In Out Out x30 14 Out In Out Out x32 15 In Out Out Out x34 16 Out Out Out Out x36 If more than one CSR parity type memory is installed use care to ensure that no two modules have the same address KDJ11 D S CPU Description 1 31 Figure 1 8 5 11 0 CSR 17772102 Setting 14 15 16 J 18 18 J10 J1 MLO 001277 The factory configuration for the remaining jumpers 15 listed in Table 1 14 Table 1 14 MSV11 Q Factory Jumper Settings Jumper State Condition J1 to J2 In For manufacturing test only Do not remove 413 to J14 In selects 64
11. User s Guide KA650 AA CPU Module User s Guide KDA50 Q CPU Module User s Guide KDJ11 D S CPU Module User s Guide KDJ11 B CPU Module User s Guide KDF11 BA CPU Module User s Guide KMV11 Programmable Communications Controller User s Guide KMV11 Programmable Communications Controller Technical Manual Related Documentation 1 16 08 EK DEQNA UG EK DHV11 TM EK DLV1J UG EK DMV11 TM EK DMV11 UG EK DPV11 TM EK DPV11 UG EK DRV1J UG EK DRVWA UG EK DZQ11 TM EK DZQ11 UG EK DZV11 TM EK DZV11 UG EK IEUQ1 UG EK KA630 UG EK KA640 UG EK KA650 UG EK KDA5Q UG EK KDJ1D UG EK KDJ1B UG EK KDFEB UG EK KMV11 UG EK KMV11 TM Document Title Modules LSI 11 Analog System User s Guide Q Bus Analog System User s Guide RQDX2 Controller Module User s Guide RQDX3 Controller Module User s Guide Disk and Tape Drives RA60 Disk Drive Service Manual RA60 Disk Drive User s Guide RA81 Disk Drive Service Manual RAS81 Disk Drive User s Guide 5A482 Storage Array User s Guide for RA82 SA482 Storage Array Service Manual for RA82 RC25 Disk Subsystem User s Guide RC25 Disk Subsystem Pocket Service Guide RRD50 Subsystem Pocket Service Guide RRD50 Digital Disk Drive User s Guide RX33 Technical Description Manual RX50 D R Dual Flexible Disk Drive Subsystem Owner s Manual TK50 Tape Drive Subsystem User s Guide TS05 Tape Transport Pocket Service Guide 505 Tape Transport Subsystem Technica
12. XKDPDRO 7 17772340 17772356 KIPARO 7 17772360 17772376 KDPARO 7 17772516 MMR3 17773000 17773776 CPU ROM 17774440 17774456 XH 08 00 2 02 71 2 17774500 17774502 0 17776500 17776506 5101 17777520 NR 17777546 LTC CSR BEVENT 1 17777560 17777566 5100 17777572 17777576 MMRO 1 2 17777600 17777616 UIPDRO 7 17777620 17777636 UDPDRO 7 17777640 17777656 UIPARO 7 17777660 17777660 UDPARO 7 17777750 17777766 17777772 17777776 5 Commands Help Boot List Test and Wrap Type a command then press the Return key 1 6 5 Test Command The Test command causes the ROM code to run most of the power up tests in a continuous loop The ROM code starts at test 3 runs all applicable tests and subtests then restarts the loop after test 6 1s completed To abort testing and restart console mode at any time If an error occurs the test 3 through 6 error routine is entered Two actions are possible at this time Restart the console mode by entering CTRUC Loop through all the tests ignoring errors by typing L RETURN 1 20 KDJ11 D S CPU System Maintenance On exiting from the test loop the code displays the total number of loops passes and the total number of errors Gf any in the following format where n is the number of errors and x is the number of times the tests were attempted nnn xxx In Example 1 12 the Test com
13. lhe unit number range is the valid range for a particular boot program The range varies from 0 to 225 depending on the device The description or device type 1s the name of the physical device 1 6 4 Map Command lhe Map command displays the current ROM code version number determines and displays the size of consecutive memory identifies all memory in the system and maps all locations in the I O page Memory is mapped 1 Kbyte increments from location zero to the page The map routine tries to identify the size of each memory module and its CSR address if applicable If two or more noncontiguous memory modules are present the ROM code displays their descriptions separated by a blank line NOTE ftwo memory modules share some common addresses or have CSRs with the same address the Map command does not work correctly 1 18 KDJ11 D S CPU System Maintenance After all memory is mapped you are prompted to press RETURN Example 1 11 Mapping continues and all responding I O page addresses are displayed The page map addresses 17760000 to 17777776 In addition all responding CPU addresses are listed with a short description There is no description for addresses that respond and are on the external bus with the exception of memory CSRs if present and Q bus devices DU MU and XH The map only identifies DU disk MSCP controller and MU tape MSCP controller at their standard addresses of 17772150 2 an
14. select switch and jumpers 1 9 Backplane configuration rules 2 3 Boot and diagnostic ROM code 1 11 Boot command in console mode 1 16 Boot mode See Automatic boot mode C Commands and keys in console mode 1 22 console mode 1 14 console ODT for KDJ11 D S 3 9 for formatting RD and RX disk drives A 1 Configuration and factors to consider 2 1 and module order in backplane 2 2 capacity requirements for 2 1 of modules 2 3 rules 2 3 worksheets 2 7 index Configuration worksheet use of 24 Console mode boot error messages 1 13 commands 1 14 description of 1 14 Console SLU panel for KDJ11 D 1 5 for KDJ11 S 1 6 Console terminal language requirements 1 11 CSR addresses See Addresses D Disk drives formatting in KDJ11 D S system A 1 Formatter program for RD and RX disk drives 1 messages A 3 modes 2 Help command in console mode 1 16 J Jumpers factory settings for MSV11 Q 1 32 for boot mode 1 9 KDJ11 D S 1 8 Index 1 KDJ11 D S CPU module automatic boot mode selections for 1 9 baud rate changing 1 8 console mode 1 14 console ODT commands 3 9 description of 1 2 language selection ROM code versions for language 1 10 memory 1 2 ROM code description of 1 11 self tests 3 3 switches and jumpers 1 8 variants 1 1 KDJ11 D SLU panel 1 5 KDJ11 5 handle description of 1 2 SLU panel 1 6 KDJ11I D 5 CPU modu
15. set correctly Initial failure accessing FCT The format control table FCT cannot be read Try reconstruct mode Section A 1 1 Factory bad block information Occurs only in reformat mode Run in reconstruct is inaccessible mode Section A 1 1 Seek failure during actual formatting There is a hardware error Check for hardware problems Revector limit exceeded The disk is bad Replace the disk RCT write failure Write to disk failed after successful formatting and surface analysis Check write protect status Failure closing FCTS Disk is marked as unformatted Formatting RD and RX Series Disk Drives 3 Related Documentation The following documents contain information relating to MicroVAX or MicroPDP 11 systems Document Title Order Number Modules 16 Technical Manual CXY08 Technical Manual DEQNA Ethernet User s Guide DHV11 Technical Manual DLV11 J User s Guide DMV11 Synchronous Controller Technical Manual DMV11 Synchronous Controller User s Guide DPV11 Synchronous Controller Technical Manual DPV11 Synchronous Controller User s Guide DRV11 J Interface User s Manual DRV11 WA General Purpose DMA User s Guide DZQ11 Asynchronous Multiplexer Technical Manual DZQ11 Asynchronous Multiplexer User s Guide DZV11 Asynchronous Multiplexer Technicai Manual DZV11 Asynchronous Multiplexer User s Guide IEUII A IEQ11 A User s Guide 630 CPU Module User s Guide KA640 AA CPU Module
16. switch settings for the starting and ending addresses Table 1 12 MSV11 Q Starting and Ending Addresses Starting SW2 SWi Ending SW1 Address Position Position Address Position in Kbytes 12345 6 in Kbytes 123452 00000 128 1111 128 11111 1 256 01111 256 01111 1 384 10111 384 10111 1 519 00111 512 00111 1 640 11011 640 11011 1 768 01011 768 01011 1 896 10011 896 10011 1 1024 1 Mbyte 00011 1024 1 Mbyte 00011 1 1152 11101 1152 11101 1 1280 01101 1280 01101 1 1408 10101 1408 10101 1 1536 00101 1536 00101 1 1664 11001 1664 11001 1 1799 01001 1792 01901 1 1920 10001 1920 10001 1 2048 2 Mbytes 00001 2048 2 Mbytes 00001 1 2176 11110 2176 11110 1 2304 01110 2304 01110 1 2432 10110 2432 10110 1 2560 00110 2560 00110 1 2688 11010 2688 11010 1 2816 01010 2816 01010 1 2944 10010 2944 10010 1 3072 3 Mbytes 00010 3072 3 Mbytes 00010 1 3900 11100 Switch S6 of SW2 is not used For a memory starting address of 0 set switch S6 of SW1 to 0 For all other starting addresses set switch 56 of SW1 to off 1 21 off 0 KDJ11 D S CPU Description 1 29 Table 1 12 Cont MSV11 Q Starting and Ending Addresses Starting SW2 SWI Ending SWI1 Address Position Position Address Position in Kbytes 12345 6 in Kbytes 12345 3200 11100 1 3328 01100 3398 01100 1 3456 10100 3456 10100 1 3584 00100 3584 00100 1 3719 11000 3112 11000 1 3840 01000 3849 01009 1 3968 10000 3968 10000 1 4096 4 Mbytes 00000
17. 1 require you to select the desired language Version 2 V2 0 supports English Spanish French German Dutch Swedish Italian and Portuguese text Switch positions 1 through 7 require you to select the desired language Switch positions 8 through 11 are reserved for future languages To properly display the text for the various languages the console terminal must have certain capabilities e For V1 00 of the ROM code set up the terminal to display standard ASCII for both English and Spanish text only Bit 7 of all input is stripped to O For V2 00 of the ROM code some of the languages require that the terminal have the multinational character set MCS available along with ASCII Set up the terminal so that characters from 0 to 127 10 1 10 11 0 5 CPU System Maintenance select ASCII and characters from 128 10 to 255 10 select MCS Some languages use 8 bit input also Table 1 4 lists the terminal requirements for the various languages Table 1 4 KDJ11 D S Terminal Requirements Output Input Language Requirements Requirements English ASCII 7 bit French ASCII and MCS 8 bit German ASCII and MCS 8 bit Dutch ASCII 7 bit Swedish ASCII and MCS 8 bit Italian ASCII 7 bit Spanish ASCII and MCS 8 bit Portuguese ASCI and MCS 8 bit NOTE To display all the selections properly the language selection message requires a terminal with MCS If you use VT220 terminal as the console terminal set it to VT220 mode to
18. 4 0 38 21 6 2 0 1 0 DMV11 BP 8053 3 4 0 38 21 6 2 0 1 0 DMV11 CP 8064 3 35 0 26 19 9 2 0 1 0 DMV11 FP 8053 3 4 0 38 21 6 2 0 1 0 9 DMV11 N M8064 3 4 0 4 21 8 2 0 1 0 DPV11 M8020 1 2 0 3 9 6 1 0 1 0 A DUV11 DP M7951 1 2 0 39 10 7 3 0 1 0 A 2 DZV11 M7957 1 2 0 39 10 7 3 9 1 0 B KDJ11 DA M7554 2 80 0 20 16 4 3 0 1 0 KDJ11 DB M7554 3 20 0 19 19 8 3 0 1 0 KWV11 C M4002 2 9 0 013 11 2 1 0 1 0 LPV11 M8027 0 8 0 0 4 0 1 4 1 0 A MRV11 D M7942 1 6 0 0 8 0 3 0 0 5 MRV11 D M7942 2 8 0 0 14 0 1 8 1 0 MSV11 PK 8067 3 45 0 0 17 25 2 0 1 0 MSV11 PL M8067 L 3 6 0 0 17 5 2 0 1 0 MSV11 QA 7551 24 0 0 12 0 2 0 1 0 8 11 M7551 BA 23 0 0 11 5 2 0 1 0 MSV11 QC M7551 CA 25 0 0 12 5 2 0 1 0 RC25 1 0 2 5 35 0 RD31 0 9 0 9 38 8 RD32 0 9 0 6 33 0 _ RD33 0 9 1 0 15 7 _ RD51 1 0 1 6 24 2 _ _ RD52 1 0 2 5 35 0 _ 1A 2 5 cm x 10 0 1 in x 4 in B 5 0 em x 7 5 cm 2 in x 3 In Usually connected through a universal data input panel UDIP using a 13 13 em 5 25 in mass storage slot Unpopulated module 2 6 KDJ11 D S CPU System Maintenance Table 2 3 Cont Power Bus Load I O Insert Data BA23 BA123 Current Amps Power Bus Loads Option Module 5 12 Watts DC Insert RD53 0 9 2 9 34 5 RD54 1 8 1 34 23 7 RD54A EA 1 3 1 34 22 6 RLV12 AP 8061 5 0 0 10 26 2 d 1 0
19. CPU Description 1 41 1 2 KDJ11 D S Overview system that contains a KDJ11 D S CPU module is called a MicroPDP 11 53 system The KDJ11 D S 7554 7554 is a quad height module based on the DCJ11 microprocessor chip The module operates at either 15 or 18 MHz and includes the CPU memory management local memory a console serial line unit SLU and a printer port SLU The KDJ11 D 5 executes the PDP 11 73 instruction set The floating point instruction set 1s standard but the floating point accelerator is not an option The extended instruction set EIS 16 also standard Three protection operating modes provide full 22 bit memory management for both instruction and data references kernel supervisor and user The KDJ11 D S can address up to 4 Mbytes of memory On board local memory is 512 Kbytes or 1 5 Mbytes of dynamic RAM with no battery backup additional 3 5 or 2 5 Mbytes of memory can be addressed over the Q22 bus interface The module s starting address is fixed at zero The KDJ11 D is the base module for the S variants which are for use in BA200 series enclosure only The KDJ11 D and KDJ11 S modules are functionally identical but not interchangeable The S variants contain a handle riveted to the side of the module which replaces the internal cabling and I O panel used in the BA23 enclosure When installed with other modules with similar handles or covers in the card cage of BA200 series enclosu
20. K RAMs Do not remove J15 to J16 In Selects 64K RAMs Do not remove W3 W1 In Battery backup configuration For more information on the MSV11 Q see MSV11 Q MOS Memory User s Guide KE MSVIQ QQO 1 32 KDJ11 D S CPU System Maintenance Chapter 2 Configuration 2 1 Introduction This chapter describes the rules and guidelines for changing the configuration of a KDJ11 D S system Before you change a system s configuration you must consider the following factors Module order in the backplane Module configuration Mass storage device configuration Section 2 2 lists the guidelines for module order and configuration These guidelines apply to the KDJ11 D S CPU in the BA23 BA200 series enclosures If you are adding a device to a system you must know the capacity of the system enclosure the following areas Backplane panel Power supply Mass storage devices Worksheets for the enclosures Section 2 5 provide information about system capacities 2 2 Module Order The order of modules in the backplane depends on four factors Relative use of devices in the system Expected performance of each device relative to other devices The ability of a device to tolerate delays between bus requests and bus grants known as delay tolerance or interrupt latency The tendency of a device to prevent devices farther from the CPU from accessing the bus Configuration 2 1 The relative use and performa
21. KDJ11 D S CPU System Maintenance Example 1 8 Boot Command Argument Prompt ERO eee ee ee ee eee ee eee Example 1 9 Boot Command Using DL2 Commands are Help Boot List Map Test and Wrap Type a command then press Return B DL2 DL2 11 5 05 01 SET QUIET DATIME You can use two switches with the Boot command A Requests that you type in a nonstandard CSR address for the controller O Overrides the standard boot block definition You type the switch immediately after the Boot command and before the device name and unit number For example B A 1 6 3 List Command The List command displays a list of all available boot programs found in the ROM The list includes the device name unit number and a short device description Example 1 10 KDJ11 D S CPU Description 1 17 Example 1 10 List Command Messages Commands are Help Boot List Map Test and Wrap Type a command then press Return L Device Unit Description DU 0 225 RDnn RXnn RC25 RAnn DL 0 3 RLO1 RLO2 DX 0 1 RXO1 DY 0 1 RXO2 DD 0 1 TUS8 DK 0 7 05 MU 0 225 50 MS 0 3 5 05 TK25 XH 0 1 DECnet Ethernet NP 0 1 DECnet DPV11 NU 0 15 DECnet DUV11 NE 0 15 DECnet DLV11 E NF 0 15 DECnet DLV11 F Commands are Help Boot List Map Test and Wrap Type a command then press RETURN The device name 15 usually a two letter mnemonic The valid letter range is through 2
22. KDJ11 D S CPU System Maintenance Order Number 246 001 digital equipment corporation maynard massachusetts November 1988 The information in this document is subject to change without notice and should not be construed as a commitment by Digital Equipment Corporation Digital Equipment Corporation assumes no responsibility for any errors that may appear in this document The software if any described in this document is furnished under a license and may be used or copied only in accordance with the terms of such license No responsibility is assumed for the use or reliability of software or equipment that is not supplied by Digital Equipment Corporation or its affiliated companies Digital Equipment Corporation 1988 All rights reserved Printed in U S A The READER S COMMENTS form on the last page of this document requests the user s critical evaluation to assist in preparing future documentation The following are trademarks of Digital Equipment Corporation DEC MicroVAX ULTRIX DECmate MicroV MS UNIBUS DECnet PDP VAX DECUS P OS VAXBI DECwriter Professional VAXELN DELNI Q bus VAXcluster DEQNA Rainbow VAXstation DESTA RSTS VMS DIBOL RSX VT MASSBUS RT Work Processor MicroPDP 11 ThinWire digital ML 5982 FCC NOTICE The equipment described in this manual generates uses and may emit radio frequency energy The equipment has been type tested and found to comply with the limits for a Class computi
23. NFORMATION Y yes and press RETURN This activates the reformat mode Section 1 1 NOTE The program requires about 12 minutes to format an RD51 and about 30 minutes to format an RD52 or RD53 Typing N no doubles the time required to format the disk drive CONTINUE IF BAD BLOCK INFORMATION IS INACCESSIBLE Type Y and press RETURN ENTER A NON ZERO SERIAL NUMBER Type your serial number located on top of the disk drive and press RETURN FORMAT BEGUN After about 12 minutes the system displays a completion message as follows FORMAT COMPLETED If the formatting 15 not successful the system displays a message when the error occurs Section A 1 2 Remove the diskette or tape cartridge if the formatting has completed successfully A 1 1 Format Modes The program can run three types of format modes reformat restore or reconstruct In order the program asks you the following questions Your answers determine the format mode that runs 1 Use existing bad block information 2 Down line load 3 Continue if bad block information is inaccessible The second question does not appear unless you answer N to the first question Answering N to the third question causes the diagnostic program to stop and print a message if a problem is found The format modes operate as follows Reformat mode If you answer Y to question one no further questions are asked The format program reads the manufacture
24. RQDX1 8639 6 4 0 25 35 0 2 0 1 0 RQDX2 8689 64 0 1 33 2 2 0 1 0 RQDX3 M7555 2 48 0 06 13 9 1 0 1 0 RQDXE M7513 0 5 0 0 25 1 0 0 0 RX33 0 5 0 3 5 6 RX50 0 85 1 8 25 9 50 1 35 2 4 33 55 TK50 AA 1 35 2 4 94 5 TK50E EA 1 35 2 4 35 6 1QK25 KA M7605 4 0 20 0 2 0 1 0 1QK50 M7546 2 9 0 0 14 5 2 8 0 5 TSV05 M7196 6 5 0 0 32 5 3 0 1 0 2 5 cm x 10 0 1 x 4 in B 5 0 cm x 7 5 2 In x 3 Configuration 2 7 Figure 2 1 23 Enclosure Worksheet ADD THESE COLUMNS BACKPLANE MODULE CURRENT INSERTS SLOT 5 V 12 V W B A STORAGE 1 2 COLUMN TOTALS MUST NOT EXCEED 36 0 7 0 230 4 2 ee ee IF MORE THAN TWO TYPE A FILTER CONNECTORS ARE REQUIRED AN ADAPTER TEMPLATE PN 74 27740 01 MAY BE USED THE ADAPTER ALLOWS THREE ADDITIONAL TYPE A FILTER CONNECTORS BUT REDUCES THE AVAILABLE TYPE B CUTOUTS TO TWO MLO 001484 2 8 KDJ11 D S CPU System Maintenance Figure 2 2 BA200 Series Enclosure Worksheet 12 SLOT ENCLOSURE RIGHT HALF POWER SUPPLY SLOT CURRENT AMPS POWER BUS LOADS ABCO ODILE hy 12 IWAT TSI AC DC MASS STORAGE TAPE 1 gt gt TOTAL AIGHT HALF POWER SUPPLY MUST NOT EXCEED 33 0 2300 e LEFT HALF POWER SUPPLY SLOT CURRENT AMPS POWER a E BB VASS STORAGE JISK DISK
25. Rules Follow these configuration rules when you install or remove modules from the card cage Always install the KDJ11 D S CPU module in slot 1 Always install the MSVII P or MSV11 Q memory module s in the slots immediately following the CPU beginning with slot 2 Maintain the Q22 bus grant continuity for all Q22 bus devices in the system Each Q22 bus slot that comes before a Q22 bus device on the grant continuity chain must contain an M9047 grant continuity card or another Q22 bus device Install modules following the CPU and memory using the sequence shown in Table 2 1 Refer to the applicable enclosure maintenance documentation for enclosure specific guidelines for the I O panel and configuration of the backplane 2 4 Configuration Procedure Each module in a system must use a unique device address and interrupt vector The device address 1s also known as the control status register CSR address Most modules have switches or jumpers for setting the CSR address and interrupt vector values Calculating address and vector values 15 a complex procedure because some modules use floating addresses and vectors The value of a floating address depends on the other modules in the system See Microsystems Options for CSR addresses and interrupt vectors for MicroPDP 11 options Most modules have switches and jumpers to change their operating characteristics For some applications you may have to change the factory swit
26. ces either do not work or work incorrectly The system cannot communicate with another computer 3 3 KDJ11 D S Self Test The KDJ11 D S CPU is configured at the factory for automatic self test and boot mode The self test is stored in boot ROMs and runs each time the system is turned on or restarted The self test performs tests on the following CPU Memory Connections between both CPU and memory modules and the Q22 bus The self test first tests a small portion of the CPU module then progressively tests the rest of the system The system enters automatic boot mode Section 1 5 upon successful completion of the self test If the self test discovers an error or failure the system displays a message Table 3 1 lists and describes the start up seli test error messages Troubleshooting 3 3 Table 3 1 KDJ11 D S Start Up Self Test Error Messages Error Number Description 0 Halt switch CPU fault power supply fault or control has passed from ROM code to secondary boot Preliminary CPU testing hmited error messages Console SLU testing CPU testing On board memory testing External memory testing Floating point LTC interrupt SLUO interrupt SLU1 interrupt and MMU abort testing Not used Qu 02 RN ies Octal debugging techinque ODT mode progress Wrap mode progress Boot progress O gt Console mode progress If any part of the self test or boo
27. ch and jumper positions according to the guidelines in Microsystems Options NOTE Changing the factory positions may affect the operation of the diagnostics for the device Configuration 2 3 2 5 Configuration Worksheets Use the following configuration worksheets located at the end of this chapter to make sure a configuration does not exceed a system s limits for expansion space I O space power and bus loads Enclosure Worksheet BA23 Figure 2 1 BA200 series Figure 2 2 If you use standard DIGITAL modules you will not exceed the limits for bus loads Use the configuration worksheet as follows 1 List all the devices already installed in the system 2 last all the devices you plan to install in the system 3 the information for each device using the data listed in Table 2 2 for BA200 series enclosures or Table 2 3 for the BA23 enclosure 4 Add up the columns Make sure the totals are within the limits for the enclosure power supply 2 4 KDJ11 D 5 CPU System Maintenance Table 2 2 Power and Bus Load Data BA200 Series Option AAV11 SA ADV11 SA AXV11 SA KWV11 SA 16 16 08 DELQA SA DEQNA SA DFAO1 DPV11 SA DRV1J SA DRV1W SA DZQ11 SA IEQ11 SA KDJ11 S KMV1A SA KWV11 SA LPV11 SA M9060 MSV11 PK MSV11 PL MSV11 QA MSV11 QB MSV11 QC RD31 RD32 RF30 S TK50 TQK50 Module 1009 1008 026 4002 M3118 YA M3118 YB M3119 YA 7516
28. d 17774500 2 The map identifies XH at addresses 17774440 56 and 17774460 76 When the on board line time clock CSR at address 17777546 is reached during the I O page portion of the Map command the ROM code follows the LTC CSR printout with either BEVENT 0 signal is not present on Q bus BEVENT 1 signal is present Q bus The line time clock test does not fail if the BEVENT signal is not present When the ROM code detects a device at addresses 17774440 to 17774456 or 17774460 to 17774476 during the page portion of the Map command it identifies that device as XH for an Ethernet controller and then reads and types the six byte station address starting at either 17774440 or 17774460 The ROM code prints out in hexadecimal bits 7 4 then 3 0 of each of the six bytes The Map command message in Example 1 11 shows one DEQNA present at location 17774440 to 17774456 Example 1 11 Map Command Message Commands are Help Boot List Map Test and Wrap Type a command then press Return KDJ11 D S ROM V1 0 512 Kbytes 00000000 01777776 512 KB CSR 17772100 Press the Return key when ready to continue Example 1 11 Cont d on next page KDJ11 D S CPU Description 1 19 Example 1 11 Cont Command Message 17772100 MCSR 17772150 17772152 DU 17772200 17772216 SIPDRO 7 17772220 17772236 SDPDRO 7 17772240 17772256 SIPARO 7 17772260 17772260 SDPARO 7 17772300 17772316 KIPDRO 7 17772320 17772336
29. d Wrap Type a command then press Return KDJ11 D S CPU Description 1 15 1 6 1 The Help command displays a brief description of all console mode commands Press either RETURN Example 1 7 shows the Help command message Console mode continues when you exit from Help Example 1 7 Help Command Message Commands are Help Boot List Map Test and Wrap Type a command then press Return Command Description Boot Load and start a program from a device List List boot programs Map memory and page Test Run continuous self test press CTRL C to exit Wrap Wrap console to SLU1 press CTRL D to exit Commands are Help Boot List Map Test and Wrap Type a command then press Return 1 6 2 Boot Command The Boot command allows you to select a boot device The command uses arguments and optional switches Arguments specify the device name and unit number The device name 16 a two letter mnemonic that describes the device An optional third letter specifies the controller If you omit the unit number the program assumes unit zero Enter the Boot command in either of the following two ways then press The system prompts for the device name and unit number as shown in Example 1 8 Example 1 9 shows successful boot message using device DL 2 press the space bar type the device name and unit number then press RETURN 1 16
30. display MCS characters For more information on configuring the KDJ11 D s see the ADJ11 D S CPU Module User s Guide 1 4 Boot and Diagnostic ROM Code Bootstrap and diagnostic programs reside in two ROMs or EPROMs on the KDJ11 D S module The programs ROM code test the CPU module and memory at power up or restart and boot the user s software from various devices The ROM code consists of three routines Diagnostics that run when the ROM code is started The diagnostics verify that the KDJ11 D S and any additional Q22 bus memory modules are working correctly The test run time is longer when additional memory modules are installed Bootstrap routines for most DIGITAL tape disk and network products All support routines and user commands KDJ11 D S CPU Description 1 11 1 5 Automatic Boot Mode After the KDJ11 D S start up self test completes the ROM code automatically tries to load and start boot a program from the user s disk or tape drive If successful the ROM code displays a message at the console terminal Example 1 1 shows a message for a successful system bootstrap in automatic boot mode In this example the software is RT 11 booted from device DUO Example 1 1 Successful Automatic Boot Message 987654321 DUO RT 11FB 5 05 01 descending number sequence top line of Example 1 1 indicates that the tests are executing Messages following DUO are generated by the booted software no
31. e KDJ11 D S CPU 1n slot 1 The MSV11 Q module has a 1 2 or 4 Mbyte capacity using either 64K or 256K MOS dynamic RAMs The control status register CSR contains bits used to store the parity error address bits You can force wrong parity by setting a bit in the CSR to check the parity logic KDJ11 D S CPU Description 1 27 Figure 1 7 5 11 0 Module Layout TEST JUMPER CSR REGISTER USED BY MANUFACTURING SELECTION DO NOT REMOVE Wu gt 501754701 DT J10 J8 J6 J4 STARTING ADDRESS 9 SWITCHES J3 J2 J1 56 USED ENDING ADDRESS SWITCHES OFF ON J17 J16 J15 J14 J13 J12 o o o o o O pn TEST JUMPERS BATTERY BACKUP USED BY MANUFACTURING JUMPERS DO NOT REMOVE NEM Table 1 11 lists the memory module variants and their storage capacities Table 1 11 MSV11 Q Variations Revision Option Module Storage RAM Size C MSV11 QA M7551 AA 1 Mbyte 56K C MSV11 QB M7551 BA 2 Mbyte 256K half populated C MSV11 QC M7551 CA 4 Mbyte 256K fully populated Identify the revision level by the following printed circuit board number 5017547 1 on upper right corner of component side of module C 2 5017547 01 on upper left corner of component side of module 1 28 KDJ11 D S CPU System Maintenance You must configure the MSV11 Q starting and ending addresses using DIP switches SW1 and SW2 Figure 1 7 SW1 is the ending address and SW2 is the starting address Table 1 12 lists the
32. e in one of three ways By pressing the console terminal Break key if halt on break jumper W11 located on the CPU module is not installed or halt on break switch is not disabled Also make sure you enable the Break key on the terminal By executing a Halt instruction kernel mode if halt option Jumper W1 the CPU module 15 installed When the Q22 bus BHALT line is asserted on the backplane When the system enters console ODT mode it displays the following on the console terminal nnnnnrn number nnnnnn is the contents of PC R7 and is the ODT prompt character ODT consists of commands and routines to find error conditions and to communicate with the system You can examine or modify the contents of the system s registers and memory locations by entering ODT commands The console ODT commands are listed and described in Table 3 3 3 8 KDJ11 D S CPU System Maintenance Table 3 3 KDJ11 D S Console ODT Commands Command Internal register PSW designator Open location Close location Close then open location Go Proceed Binary dump Symbol Sor R Return Line feed G Function Specifies the location as a processor register if followed by 0 through 7 or 5 For example R9 1 and so on Specifies the location as the processor status word PSW if preceded by R or 8 Prints the contents of a specified location Closes an open location Closes a
33. ess 17776520 Wrap Console to 101 type CTRL D to exit 1 6 7 Command Keys The command keys and their functions are listed below Delete Deletes the previously entered character CTRLH Selects the console terminal as hard copy terminal Affects output only if you press the Delete key When you press Delete the ROM code identifies deleted characters with forward slash characters Deletes the entire command line Selects the console terminal as a video terminal Affects output only if you press the Delete key When you press Delete the deleted characters are erased from the screen default Reprints the command line Normally used on hard copy terminals to reprint command lines that are obscured by pressing the Delete key 1 7 MSV11 P Memory The MSV11 P memory is a quad height module that occupies the slot s in the backplane immediately following the KDJ11 D S CPU in slot 1 The MSV11 P module contains 64K metallic oxide semiconductor MOS chips that provide storage for 18 bit words 16 data bits and 2 parity bits The MSV11 P also contains parity control circuitry and a control status register 1 22 KDJ11 D S CPU System Maintenance memory module variants and their storage capacities are MSV11 PK M8967 K 256 Kbytes MSV11 PL M8067 L 512 Kbytes You configure the MSVII P shown in Figure 1 6 by means of jumpers and wire wrap pins The
34. he associated language Example 3 1 Language Inquiry and Error Prompt English Type 1 and press the Return key Francais Tapex 2 et appuyez sur Retour Deutsch Geben Sie 3 ein und drucken Sie WR Nederlands Typ 4 en druk op Return Svenska Skriv 5 och tryck sedan pa Ret Italiano Introdurre 6 e premere Ritorno Espanol Presione el 7 y luego la tecla Retorno Portuguese Escreva 8 seguido de Return KDJ11 D S 1 KDJ11 D S 3 015 Error see troubleshooting section in owner s manual for assistance ROM VPC 024722 KDJ11 D S gt Troubleshooting 3 5 The error messages are shown in Examples 3 2 through 3 4 explanation of the third line in these error messages follows Example 3 4 Example 3 2 On Board RAM Test Error Message KDJ11 D S 3 15 Error see troubleshooting section in owner s manual for assistance RAM VPC 024722 PA 17604722 01000000 125200 lt gt 125252 KDJ11 D S gt Example 3 3 Q22 Bus RAM Test Error Message KDJ11 D S 3 15 Error see troubleshooting section in owner s manual for assistance O bus RAM CSR VPC nnnnnn KDJ11 D S gt Example 3 4 11 Unexpected Trap Error Message KDJ11 D S 3 15 s Error see troubleshooting section in owner s manual for assistance J11 004 024722 KDJ11 D S gt 3 6 KDJ11 D S CPU System Maintenance The third line Examples 3 2 through 3 4 contains up to four parts 1 short description of the failed area as follows J11 J11 test e
35. hooting procedures for systems containing the KDJ11 D S CPU Appendix explains how to format RD and RX series disk drives in MicroPDP 11 systems Appendix B provides a list of related documentation Warnings Cautions and Notes Warnings cautions and notes appear throughout this guide They have the following meanings WARNING Provides information to prevent personal injury CAUTION Provides information to prevent damage to equipment or software NOTE Provides general information about the current topic Vii Chapter 1 KDJ11 D S CPU Description 1 1 Introduction This chapter describes the KDJ11 D S CPU modules There are six variants listed 1n Table 1 1 Unless otherwise stated the term KDJ11 D S refers to all six variants Table 1 1 KDJ11 D B Variants MicroPDP 11 53 Version Module No On Board Memory Enclosure KDJ11 DA M7554 512 Kbytes 15 MHz BA23 KDJ11 DB M7554 1 5 Mbytes 15 MHz BA23 KDJ11 SA M7554 PA 012 Kbytes 15 MHz BA200 series KDJ11 SB M7554 PB 512 Kbytes 18 MHz BA200 series KDJ11 SC M7554 PC 1 5 Mbytes 15 MHz BA200 series KDJ11 SD M7554 PD 1 5 Mbytes 18 MHz BA200 series This chapter also describes the following memory modules MSV11 PK PL and MSV11 QA QB QC The KDJ11 S D is designed for systems that use the extended LSI 11 bus commonly called the Q22 bus The KDJ11 D S uses either the 5 11 or MSV11 Q memory module s and a set of standard Q22 bus options KDJ11 D S
36. ions Jumpers W Switch 222358 Position Description 00000 0 Test Enter console mode using English text 00001 1 Test Enter console mode using French text 00010 2 Test Enter console mode using German text 00011 3 Test Enter console mode using Dutch text 00100 4 Test Enter console mode using Swedish text 00101 5 Test Enter console mode using Italian text 00110 6 Test Enter console mode using Spanish text 00111 1 lest Enter console mode using Portuguese text 01000 8 Test Enter console mode reserved 01001 9 lest Enter console mode reserved 01010 10 Test Enter console mode reserved 01011 11 Test Enter console mode reserved 01100 12 Test Autoboot tapes and disks user selects language 01101 13 lest Autoboot DPV11 DUV11 DLV11 E F TU58 and 5 01110 14 Test Autoboot DEQNA 0 1 01111 15 Manufacturing test loop 10000 0 Test Autoboot tapes and disks using English text 10001 1 Test Autoboot tapes disks using French text 10010 2 Test Autoboot tapes and disks using German text 10011 3 Test Autoboot tapes and disks using Dutch text 10 jumper installed 1 jumper removed 2 Jumpers W2 W3 W5 and W8 removed to use switch With Version 1 0 ROMs you can select only English positions 00000 and 10000 or Spanish positions 00110 and 10110 With Version 2 0 ROMs you can select eight languages 4Factory or default setting High speed autoboot memory address sh
37. l Manual 505 Tape Transport System User s Guide 2 KDJ11 D S CPU System Maintenance Order Number EK AXV11 UG EK AV11D UG EK RQDX2 UG EK RQDX3 UG EK ORA60 SV EK ORA60 UG EK ORAS81 SV EK ORAS81 UG EK 5A482 UG EK SA482 SV EK ORC25 UG EK ORC25 PS EK RRDS50 PS EK RED50 UG EK RX33T TM EK LEPO1 OM EK LEPO5 UG 5 05 5 5 05 EK TSV05 UG Document Title Systems MicroVAX Special Systems Maintenance 630QB Maintenance Print Set 630QE Maintenance Print Set 630QY Maintenance Print Set 63097 Maintenance Print Set BA23 Enclosure Maintenance BA123 Enclosure Maintenance BA213 Enclosure Maintenance BA214 Enclosure Maintenance BA215 Enclosure Maintenance H9642 J Cabinet Maintenance H9644 Cabinet Maintenance KA630 CPU System Maintenance KA640 CPU System Maintenance KA650 CPU System Maintenance KDF11 B CPU System Maintenance KDJ11 B CPU System Maintenance KDJ11 D S CPU System Maintenance MicroPDP 11 Hardware Information Kit for BA23 MicroPDP 11 Hardware Information Kit for BA123 MicroPDP 11 Hardware Information Kit for H9642 J MicroPDP 11 Hardware Information Kit for BA213 Microsystems Options Microsystems Site Preparation Guide MicroVAX II Hardware Information Kit for BA23 MicroVAX II Hardware Information Kit for BA1231 MicroVAX Hardware Information Kit for H9642 J MicroVAX 3500 Customer Hardware Information Kit MicroVAX 3600 Customer Hardware Information Kit
38. le boot mode changing 1 9 L Languages console terminal requirements for 1 11 switch positions for on KDJ11 D S 1 10 List command in console mode 1 17 Map command in console mode 1 18 Memory available for KDJ11 D S 1 2 Messages boot error console mode 1 13 bootstrap in automatic boot mode 1 12 console mode 1 14 disk formatter program 3 language during self test 3 5 Index 2 Messages cont d self test error 3 4 Modules and self tests 3 1 available memory KDJ11 D S CPU 1 2 configuration guidelines for 9 3 CSR addresses and interrupt vectors for 2 3 power and bus load data for 2 6 recommended order of in backplane 2 2 rules for placement of in backplane 2 3 self tests for KDJ11 D S 3 3 11 memory CSR addresses for expansion of 1 24 LEDs 1 23 location of in backplane 1 22 starting addresses for 1 25 starting address for additional modules 1 26 variants 1 23 MSV11 Q memory CSR address configuration 1 30 factory CSR address configura tion 1 30 location of in backplane 1 27 starting and ending addresses for 1 29 variants 1 28 Octal debugging technique ODT 3 9 Options power and bus load data for 2 6 R RD series disk drives 1 Reconstruct mode for disk formatter Reformat mode for disk formatter 9 Restore mode disk formatter A 3 ROM code on KDJ11 D S 1 11 RX series disk drives 1 5 selt te
39. lists the console mode commands and control characters Table 1 5 Console Mode Commands and Characters Command Description Help Lists console mode commands Boot Boots from selected device List Lists ROM boot programs Map Sizes memory and map I O page lest Runs tests 3 through 6 Wrap Wraps SLUO to SLUT 2 Alternate form of Help command Boot command switch nonstandard CSR address Wrap command switch wraps SLUO to specified SLU 1 14 KDJ11 D S CPU System Maintenance Table 1 5 Cont Console Mode Commands and Characters Command Description AK Boot command switch overrides boot block definition Delete Deletes previous command character Command delimiter CTRL C Aborts operation Enters requests console mode CTRL D Aborts wrap and reenters console mode Console is a hard copy terminal CTRL L Displays language inquiry message CTRL R Redisplays command line CTRL U Deletes command line CTRL V Console is a video terminal JJ D To execute a console mode command type the first character of the command and then press RETURN If you enter an invalid command a message 1s displayed and the prompt is displayed again to request additional input Example 1 6 shows an invalid entry Example 1 6 Invalid Entry Message Commands are Help Boot List Map Test and Wrap Type a command then press Return MP Invalid Input Commands are Help Boot List Map Test an
40. mand 15 entered to run all loopable tests four passes the testing sequence 1 aborted with no errors Example 1 12 Test Command Message Commands are Help Boot List Map Test and Wrap Type a command then press Return Continuous self test type CTRL C to exit 0 4 Commands are Help Boot List Map Test and Wrap Type a command then press Return 1 6 6 Wrap Command The Wrap command transmits all input from the console terminal DLARTO to the second SLU DLART1 or to a selected SLU input from DLART1 or the selected SLU is sent to the console terminal This action allows you at DLARTO to communicate with another system through DLARTI or another selected SLU The command has one optional switch switch A Entering the Wrap command with switch A causes the ROM code to request an alternate SLU address The valid alternate address range 1s 17776500 to 17776676 Example 1 13 shows the Wrap command without the switch The console wraps to the second SLU at address 17776500 Example 1 14 shows the Wrap command with an alternate SLU address KDJ11 D S CPU Description 1 21 Example 1 13 Wrap Command Message Without Switch Commands are Help Boot List Map Test and Wrap Type a command then press Return T Wrap Console to 5101 type CTRL D to exit Example 1 14 Wrap Command Message With Switch Commands are Help Boot List Map Test and Wrap Type a command then press Return W A Addr
41. n open location then prints the contents of the next contiguous location Starts program execution Resumes program execution For manufacturing use only Troubleshooting 3 9 Formatting RD and RX Series Disk Drives A 1 Disk Formatting Format RD or RX series disk drive as follows CAUTION Do not format disks without first backing up the data The disk formatting procedure destroys previous disk contents 1 Insert the formatter diskette or the tape cartridge into its drive Press RETURN 2 ZRQx after the period prompt x is B for RQDX1 or RQDX2 C for and F for RX33 The question marks allow you to use any revision of the program Press RETURN NOTE When formatting an RD52 drive make sure you have Version or later Earlier versions format the RD52 31 Mbytes as though it were an RD51 11 Mbytes prompt similar to the following appears on the terminal DR 3 Torun the program type START and The following dialog takes place CHANGE HW 1 Type N no and press RETURN CHANGE SW L Type N and press RETURN ENTER DATE in mm dd yy format A Type the current date for example 11 15 88 Press RETURN ENTER UNIT NUMBER TO FORMAT 0 Formatting RD and RX Series Disk Drives 1 0 for the first fixed disk drive or type 1 the second Press RETURN USE EXISTING BAD BLOCK I
42. nce of devices depends the application This means the order of modules also depends on the application Most applications try to balance the use of devices To achieve maximum system performance use the recommended order listed in Table 2 1 The order is based on the Q bus DMA transfer characteristics use it as a guideline Make sure you read the rules and guidelines in Section 2 3 for placement of the CPU and memory modules Table 2 1 Q Bus Recommended Module Order Option Option Type Example Comments Communications Synchronous DEQNA Ethernet interface DRV11 J General purpose Line printer LPV11 Communications DLVJ1 Asynchronous DMV11 Synchronous DMA Disk controller RIV 12 RRD50 Read only KDA50 RQDX3 MSCP Disk tape controller KLESI Tape controller TQK50 Disk controller RQDX2 General purpose interface DRV11 CAUTION Jf an option has Q CD jumpers check the documentation for that option for the correct Q CD jumper settings An incorrect jumper setting can cause damage to the option When devices do not perform as expected you can change the recommended module order to meet the needs of the application Often performance problems involve a device that 1s heavily used or has a low delay tolerance Usually there are other heavily used devices between the device with the low delay tolerance and the CPU In this case move the problem device closer to the CPU 2 2 KDJ11 D S CPU System Maintenance 2 3 Configuration
43. nd Wrap Type a command then press Return Example 1 4 Boot Error Message in Console Mode Nonexistent Controller Commands are Help Boot List Map Test and Wrap Type a command then press Return 011 KDJ11 D S E 04 Non existent controller address 17772152 Commands are Help Boot List Map Test and Wrap Type a command then press Return KDJ11 D S CPU Description 1 13 1 6 Console Mode Console mode allows you to select a boot device list available boot programs run ROM tests obtain a map of all memory and I O page locations and wrap the console SLU to the second SLU You can enter console mode in two ways Depending on the contents of native register NR lt 12 08 gt console mode is entered automatically after testing 16 completed In console mode the ROM code allows you to determine the execution sequence by entering keyboard commands through the console terminal e By typing during testing or the boot sequence in this case the NR bits are ignored When you enter console mode the ROM code displays the message shown in Example 1 5 then waits for you to enter a command Example 1 5 Successful Power Up to Console Mode Message 987654321 Commands are Help Boot List Map Test and Wrap Type a command then press Return You can select from the six console mode commands listed in the prompt message For a brief description of the commands type either RETURN or RETURN Table 1 5
44. ng device pursuant to Subpart J of Part 15 of FCC Rules which are designed to provide reasonable protection against such radio frequency interference when operated in a commercial environment Operation of this equipment in a residential area cause interference in which case the user at his own expense be required to take measures to correct the interference Preface Chapter 1 1 1 1 2 1 3 1 3 1 1 4 1 5 1 5 1 1 6 1 6 1 1 6 2 1 6 3 1 6 4 1 6 5 1 6 6 1 6 7 1 7 1 7 1 1 8 Chapter 2 Configuration 2 1 2 2 2 3 2 4 2 5 KDJ11 D S CPU Description KDJ11 D S Overview Configuration Boot Mode Selection Boot and Diagnostic ROM Code Automatic Boot Mode Bootstrap Error Messages Console Mode Help Command Boot Command List Command Map Command lest Command Wrap Command Command MSV11 P Memory MSV11 P Expansion Addresses MSV11 Q Memory Module Order Configuration Rules Configuration Procedure Configuration Worksheets Contents vil Chapter 3 Troubleshooting 31 Overview 3 1 3 2 General Procedures 3 1 3 2 1 system Fails To 3 2 3 2 2 System Boots but Device Fails 3 3 33 KDJ11 D S Self Test 3 3 3 3 1 Test 1 3 4 3 3 2 2 3 5 3 3 3 Tes
45. omments and suggestions will help us improve the quality of our future documen tation Please note that this form is for comments on documentation only I rate this manual s Excellent Good Fair Poor Accuracy product works as described Completeness enough information Clarity easy to understand Organization structure of subject matter Figures useful Examples useful Index ability to find topic Page layout easy to find information 0000000 10000000 000000 0000000 What I like best about this manual What I like least about this manual My additional comments or suggestions for improving this manual found the following errors in this manual Page Description Please indicate the type of user reader that you most nearly represent 1 Administrative Support Scientist Engineer L Computer Operator Software Support Educator Trainer C System Manager L Programmer Analyst Other please specify Sales Name Title 0 Dept Company Mailing Address Phone 10 87 Do Not Tear Fold Here and Tape NO POSTAGE NECESSARY IF MAILED IN THE UNITED STATES BUSINESS REPLY MAIL FIRST CLASS PERMIT NO 33 MAYNARD MASS POSTAGE WILL BE PAID BY ADDRESSEE DIGITAL EQUIPMENT CORPORATION CORPORATE USER PUBLICATIONS 5 5 45 146 MAIN STREET MAYNARD MA 01754 2571 Hd Do Not Tear Fold
46. onsole terminal screen for an error message Error messages are listed in Section 3 3 f no error message appears make sure the on off power switches on the console terminal and the system are set to on 1 Check the DC OK light on both if applicable Check the cabling to the console terminal Check the hex display on the CPU I O panel If the display does not light check the CPU module s LEDs and the CPU cabling If a hex error message appears F through 1 on the I O panel or the module see Section 3 3 Ifthe console terminal remains off check the power supply and power supply cabling If you can boot XXDP V2 and the system passes all tests then the fault may be in the operating system 3 2 KDJ11 D S CPU System Maintenance 3 2 2 System Boots but Device Fails If the system boots successfully but a device seems to fail or an intermittent failure occurs run the XXDP diagnostic monitor to isolate the failure to an FRU The failing device is usually in one of the following areas CPU Memory Mass storage Communications devices Here are some common indications of an intermittent or device specific problem Operating system error messages appear at power up for a particular communications device Periodic operating system error messages indicate that a device is not present or cannot be found e Periodic data loss or scrambled data occur on one or more communications lines Attached devi
47. orts test bypassed KDJ11 D S CPU Description 1 9 Table 1 3 Cont Boot Select Options Jumpers W Switch 222358 Position Description 10100 4 Test Autoboot tapes and disks using Swedish text 10101 5 Test Autoboot tapes and disks using Italian text 10110 6 Test Autoboot tapes and disks using Spanish text 10111 7 Test Autoboot tapes and disks using Portuguese text 11000 8 Test Autoboot tapes and disks reserved 11001 9 Test Autoboot tapes and disks reserved 11010 10 Test Autoboot tapes and disks reserved 11011 11 Test Autoboot tapes and disks reserved 11100 12 Emulate power up mode 24 with no messages 11101 13 Halt and enter octal debugging technique if trap on halt disabled or loop 11110 14 Test Autoboot DEQNAs 0 and 1 11111 15 Test Enter console mode user selects a language 10 jumper installed 1 jumper removed Jumpers W2 W3 W5 and W8 removed to use switch With Version 1 0 ROMs you can select only English positions 00000 and 10000 or Spanish positions 00110 and 10110 With Version 2 0 ROMs you can select eight languages Trap on halt enabled removed disabled installed The items included in Table 1 3 for tapes and disks are DU 0 255 DU 0 255 at floating addresses DL 0 3 DX 0 1 DY 0 1 MU 0 and MS O For DU you boot removable media before fixed media Version 1 V1 0 supports English and Spanish text only Switch positions 1 through 5 and 7 through 1
48. r s bad blocks from a block on the disk It then formats the disk except for these bad 2 KDJ11 D S CPU System Maintenance blocks process requires about 12 minutes If the program fails try restore mode Restore mode If you answer N to question one the program asks you to type in a list of the bad blocks It then formats the disk except for the bad blocks you specify You can specify the bad blocks using the list that comes with the drive The program asks you for the last eight digits of the serial number found at the top of the disk drive Restore mode requires about 15 minutes Reconstruct mode If you answer N to questions one and two the program searches the disk and identifies the bad blocks It does not use the manufacturer s bad block information It then formats the disk except for the identified bad blocks Reconstruct mode requires about 30 minutes A 1 2 Formatter Messages Table 1 lists the formatter messages their probable causes and actions to correct the problem The first few errors can occur almost immediately The remaining errors can occur from one minute to longer than ten minutes after the program starts Table 1 MicroPDP 11 Formatter Messages Message Description Action Unit is not Winchester Unit is either unavailable or is an RX series diskette or cannot be selected drive Check to make sure the fixed disk is not write protected Make sure the jumper on the disk drive is
49. res the handle functions as a shield for electromagnetic interference EMI and simplifies maintenance The KDJ11 D M7554 is shown in Figure 1 1 The KDJ11 S M7554 P is shown in Figure 1 2 1 2 KDJ11 D 5 CPU System Maintenance Figure 1 1 KDJ11 D Module Layout M7554 NATIVE AND MAINTENANCE MAINTENANCE REGISTERS REGISTER 34 PIN CONNECTOR 8 0oW200W22 21 W109 ow4 W79 OWS E74 299 94 o owi3 120 9 o w9 E41 0 BOOT DIAGNOSTIC DCJ11 ROMS Y R 512 KBYTE RAM E46 W21 o o o 0 W20 D C B A V A V V A V A STATE MACHINE PLS 0 00 1488 KDJ11 D S CPU Description 1 3 Figure 1 2 KDJ11 S Module Layout 7554 BAUD RATE JUMPERS 9600 BAUD SHOWN FOR SLUO AND SLUT W3e e e eW5 sss WE 29 ew W21 W20 0 9 9 9 MLO 001489 1 4 11 0 5 CPU System Maintenance 1 3 Configuration Refer to Figure 1 1 for the location of the jumpers on the KDJ11 D Refer to Figure 1 2 for the location of the connectors and jumpers on the KDJ11 S The KDJ11 D serial line unit SLU panel Figure 1 3 contains SLUO and SLUI baud rate select switches SLUO and SLU1 connectors to the console terminal a test code display a halt on break switch and a 16 position boot mode select switch Figure 1 3 KDJ11 D SLU Panel SLUO CONNECTOR BAUD RATE CONSOLE TERMINAL SELECT SWITCH HALT ON BREAK aud Hate
50. rror J11 FP Jil floating point test error 411 MMU J11 memory management test error J11 nnn 11 unexpected trap to virtual address nnn LTC CSR Line time clock test error SLUO SLU test error in the first console SLUI SLU test error in the second console ROM ROM checksum test error RAM On board memory test error RAM CSR On board memory parity test error Q bus RAM Q bus memory test error Q bus CSR Q bus memory parity test error 2 The virtual PC VPC of the failure Useful only with a program listing 3 Physical address of the failure Useful only with a program listing 4 Displays the failing location the faulty data and the expected data Displayed only with RAM errors All errors are treated as fatal errors you are expected to fix the problem before continuing although you can override errors for troubleshooting purposes Section 3 3 4 3 3 4 Override Errors To override an error you must type one of the two override commands shown in Table 3 2 when the error message is displayed The ROM code displays the KDJ11 D S prompt and waits for input CAUTION Either remove or write protect system media before overriding an error Table 3 2 Error Override Commands Command Result 4 Overrides error and enters console mode L Restarts tests at test 2 Loops through tests ignoring errors Enter to exit loop Troubleshooting 3 7 3 3 5 Octal Debugging Technique ODT Mode You enter console octal debugging technique ODT mod
51. s FAR to select the 256K word range Table 1 8 lists the partial starting address PSA ranges for additional MSV11 P memory modules 1 24 11 0 5 CPU System Maintenance Table 1 7 MSV11 P First Address Ranges First Address Ranges Decimal K Words 000 248 206 504 012 760 768 1016 1024 1727 1280 1528 1526 1784 1742 2040 Octal Words 00000000 0 1740000 02000000 03 740000 04000000 05740000 06000000 0 7 740000 10000000 11740000 12000000 13740000 14000000 15 740000 16000000 17740000 Pins to Wire Wrap None V to Y W to Y W to Y V to Y X to Y X to Y V to Y X to Y W to Y X to Y W to Y V to Y Table 1 8 MSV11 P Partial Starting Address Ranges Partial Starting Address Decimal K 8 16 24 32 40 48 56 64 72 80 88 96 104 112 120 128 136 144 152 Octal 00000000 00040000 00100000 00140000 00200000 00240000 00300000 00340000 00400000 00440000 00500000 00540000 00600000 00640000 00700000 00740000 01000000 01040000 01100000 01140000 Pins to Wire Wrap None T to R L to R L to R Tto R M to M to R T to K M to R L to R M to R L to R T to R N to R N to R T to R N to R L to R N to R L to R T to R N to R M to R to R M to R N to R M to R L to R N to M to R L to R T to R P to R P to R T to R Pto R Lto R P to R L to R T to R KDJ11 D S CPU Description 1 25 Table 1 8 Cont
52. sts KDJ11 D S 3 3 3 4 successful and unsuccessful 3 1 SLU panel See Console SLU panel Switches on KDJ11 D S 1 8 SW and SW2 MSV11 QG 1 29 T Test command in console mode 1 20 lroubleshooting after system changes 3 2 and device specific problems 3 3 boot failures 3 2 device failures 3 3 general procedures for 3 1 W Wrap command in console mode 1 21 X XXDP diagnostic monitor for isolating an FRU failure 3 3 loading for system that fails to boot 3 2 Index 3 HOW ORDER ADDITIONAL DOCUMENTATION From Call Alaska Hawaii 603 884 6660 or New Hampshire Rest of U S A 1 800 Puerto Rico Write Digital Equipment Corporation P O Box CS2008 Nashua NH 03061 Prepaid orders from Puerto Rico call DIGITAL s local subsidiary 809 754 7575 Canada 800 267 6219 for software documentation 613 592 5111 for hardware documentation Internal orders for software documentation Internal orders DTN 2344323 for hardware 508 351 4323 documentation Digital Equipment of Canada Ltd 100 Herzberg Road Kanata Ontario Canada K2K 2A6 Attn Direct Order desk Software Distribution Center SDC Digital Equipment Corporation Westminster MA 01473 Publishing amp Circulation Serv P amp CS NRO3 1 W3 Digital Equipment Corporation Northboro MA 01532 Reader s Comments KDJ11 D S CPU System Maintenance 246 001 Your c
53. t diagnostics fails the system normally displays a message in three locations On the console terminal the KDJ11 D S LEDs On the SLU panel Sections 3 3 1 through 3 3 4 explain the KDJ11 D 5 self test results 3 3 1 Test 1 When started the ROM code runs a series of tests that verify the basic MMU operation and verify the ROM code The comprehensive error message display routines are disabled at this point in the testing sequence If an error occurs during test 1 the ROM code displays the following error message KDJ11 D S 1 00 This message indicates that a fatal error condition occurred The ROM code ignores any keyboard input except to redisplay the error message each time input 18 received 3 4 KDJ11 D S CPU System Maintenance 3 3 2 lest 2 Test 2 checks the console SLU When the SLUO test is running the ROM code assumes that error messages cannot be displayed Therefore if an error occurs the ROM code loops on the error 3 3 3 Tests 3 through 6 Tests 3 through 6 are the main CPU and memory tests These tests continuously loop when you enter the Test command error is detected during these tests the ROM code displays a brief error message If an error occurs and you did not select a language the ROM code prompts you for a language then displays the error message In Example 3 1 the user selected English at the language inquiry prompt Note that each line of the language inquiry displays t
54. t the ROM code At this point the ROM code is not executing and all commands and messages are determined by the users software 1 5 1 Bootstrap Error Messages If the autoboot is not successful the ROM code displays an error message indicating that the autoboot was not successful but will make continuous passes until successful or aborted There are two types of KDJ11 D S bootstrap error messages One is associated with automatic boot mode at power up or restart and the other with the console mode Boot command Section 1 6 2 Example 1 2 shows an error message for an unsuccessful system bootstrap in the automatic boot mode 1 12 KDJ11 D S CPU System Maintenance Example 1 2 Boot Error Message Automatic Boot 987654321 KDJ11 D S 01 bootable devices found Boot in progress press CTRL C to exit When an error occurs in a boot program called with the Boot command the ROM code displays one of the following error messages Drive not ready Media not bootable Non existent controller address 17 7nnnnnn Non existent drive Invalid unit number Invalid device Controller error Drive error Examples 1 3 and 1 4 show console mode Boot command error messages Example 1 3 Boot Error Message in Console Mode Nonexistent Drive Commands are Help Boot List Map Test and Wrap Type a command then press Return B DL3 KDJ11 D S E 05 Non existent drive Commands are Help Boot List Map Test a
55. the system to be working Refer to Microsystems Options for a description of self tests for individual modules For detailed information including the contents of the command status register CSR of the module s Q22 bus interface see the user s guide for the module 3 2 General Procedures System problems are generally of two types The system fails to boot Section 3 2 1 The system boots but a device in the system fails Section 3 2 2 Troubleshooting 3 1 You should ask two questions before troubleshooting any problem e Has the system been used before and did it work correctly Have changes been made to the system recently Two common problems occur when you make a change to the system e Cabling is incorrect Module configuration errors incorrect CSR addresses and interrupt vectors are introduced When you troubleshoot problems note the status of cables and connectors before you perform each step Since cables are not always keyed you can easily install them backward or into the wrong connector Label cables before you disconnect them to prevent introducing new problems that make it more difficult to diagnose the original problem 3 2 1 System Fails To Boot The KDJ11 D S CPU module self test is described in Section 3 3 If the system fails or appears to fail to boot the operating system then load and boot the XXDP diagnostic monitor If you cannot boot XXDP V2 do the following Check the c
56. ting Address Jumpers 512 Kbyte Increments 1 27 1 11 MSV11 Q Variations 1 28 1 12 MSV11 Q Starting and Ending Addresses 1 29 1 13 MSVI11 Q CSR Addresses 1 31 1 14 2 1 2 2 2 3 9 1 9 2 9 9 1 Vi MSVII Q Factory Jumper Settings 1 32 Q Bus Recommended Module Order 2 2 Power and Bus Load Data 200 5 2 5 Power Bus Load and I O Insert Data BA23 123 2 6 KDJ11 D S Start Up Self Test Error Messages 3 4 Error Override 3 7 KDJ11 D S Console ODT Commands 3 9 MicroPDP 11 Formatter Messages aa Preface This guide describes a base system configuration ROM based diagnostics and troubleshooting procedures for systems containing the KDJ11 D S central processing unit Intended Audience This document 16 intended only for DIGITAL Field Service personnel and qualified self maintenance customers Organization This guide has three chapters and two appendixes Chapter 1 provides an overview of the KDJ11 D S CPU and the MSVII P and MSV11 Q memory modules Chapter 2 contains system configuration guidelines and lists current power and bus loads for supported options Chapter 3 contains ROM based diagnostic troubles
57. ts through 6 3 5 3 3 4 Override Errors 3 7 3 3 5 Octal Debugging Technique ODT Mode 3 8 Appendix Formatting RD and RX Series Disk Drives A 1 Disk 1 A 1 1 Format Modes 2 1 2 Formatter Appendix Related Documentation Index Examples o 1 1 Successful Automatic Boot Message 1 12 1 2 Boot Error Message Automatic Boot Mode 1 13 1 3 Boot Error Message in Console Mode Nonexistent Drive 1 13 1 4 Boot Error Message Console Mode Nonexistent Controller 1 13 1 5 Successful Power Up to Console Mode Message 1 14 1 6 Invalid Entry 1 15 1 7 Help Command Message 1 16 1 8 Boot Command Argument Prompt 1 17 1 9 Boot Command Using 2 1 17 1 10 List Command Messages 1 18 1 11 Map Command Message 1 19 1 12 Test Command 1 21 1 13 Wrap Command Message Without Switch 1 22 1 14 Wrap Command Message With Switch 1 22 3 1 Language Inquiry and Error Prompt 3 5 3 2 On Board Test
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