AlphaServer1000ServiceGuideOrder Number: EK–DTLSV–SV. B01Digital Equipment CorporationMaynard, Massachusetts
5.8.2 Multiple Controller ConfigurationsFigure 5–9 shows a configuration using two controllers. In this configuration theStorageWorks shelf is configured
Figure 5–10 Dual Controller Configuration with Dual Bus StorageWorks ShelfJ10J1J12J2J11J16J14J13J15J17J3MA00304W3W2W117-03959-0117-03960-0217-03962-011
5.9 Power Supply ConfigurationsAlphaServer 1000 systems offer added reliability with redundant power options,as well as UPS options.The power supplies
Figure 5–11 Power Supply Configurations400 Watts DC or Less400 Watts DC or LessUPSMA00335SingleRedundantUPSSystem Configuration and Setup 5–35
Figure 5–12 Power Supply Cable ConnectionsSignal/Misc. Harness (15-Pin)(20-Pin)+ 5V Harness(24-Pin)+ 3.3V Harness+ 5V Harness(24-Pin)(20-Pin)+ 3.3V Ha
5.10 Console Port ConfigurationsPower-up information is typically displayed on the system’s console terminal. Theconsole terminal may be either a graph
Using a VGA Controller Other than the Standard On-Board VGAWhen the system is configured to use a PCI- or EISA-based VGA controllerinstead of the stand
6AlphaServer 1000 FRU Removal andReplacementThis chapter describes the field-replaceable unit (FRU) removal and replacementprocedures for AlphaServer 1
Table 6–1 AlphaServer 1000 FRUsPart # Description SectionCables17-03970-02 Floppy drive cable (34-pin) Figure 6–517-03971-01 OCP module cable (10-pin)
Table 6–1 (Cont.) AlphaServer 1000 FRUsPart # Description SectionInternal StorageWorksRZnn -VA StorageWorks disk drive Section 6.2.454-23365-01 Intern
PrefaceThis guide describes the procedures and tests used to service AlphaServer 1000systems. AlphaServer 1000 systems use a deskside ‘‘wide-tower’’ e
Table 6–1 (Cont.) AlphaServer 1000 FRUsPart # Description SectionRemovable MediaRRDnn -CA CD–ROM drives Section 6.2.13TLZnn -LG Tape drives Section 6.
Figure 6–2 FRUs, Rear LeftUpper FanSpeakerLower FanMemoryMA00321SCSI CablesPower CordMotherboardCPU Daughter BoardSCSI Multinode CableNVRAM Chip (E14)
6.2 Removal and ReplacementThis section describes the procedures for removing and replacing FRUs forAlphaServer 1000 systems, which use the deskside ‘
Figure 6–4 Removing Top Cover and Side PanelsTop CoverRelease LatchMA00300AlphaServer 1000 FRU Removal and Replacement 6–7
6.2.1 CablesThis section shows the routing for each cable in the system.Figure 6–5 Floppy Drive Cable (34-Pin)J10J1J12J2J11J16J14J13J15J1717-03970-02M
Figure 6–6 OCP Module Cable (10-Pin)J10J1J12J2J11J16J14J13J15J1717-03971-01MA00337AlphaServer 1000 FRU Removal and Replacement 6–9
Figure 6–7 Power CordMA00338Table 6–2 lists the country-specific power cables.Table 6–2 Power Cord Order NumbersCountry Power Cord BN Number Digital Nu
Figure 6–8 Power Supply Current Sharing Cable (3-Pin)MA00339AlphaServer 1000 FRU Removal and Replacement 6–11
Figure 6–9 Power Supply DC Cable AssemblySignal/Misc. Harness (15-Pin)(20-Pin)+ 5V Harness(24-Pin)+ 3.3V Harness+ 5V Harness(24-Pin)(20-Pin)+ 3.3V Har
• Power supply +3.3V (20-pin)Figure 6–10 Power Supply Storage Harness (12-Pin)Storage Harness(12-Pin)J12J1317-03969-01MA00352AlphaServer 1000 FRU Remo
Convention MeaningReturnA key name enclosed in a box indicates that you press that key.Ctrl/x Ctrl/xindicates that you hold down the Ctrl key while yo
Figure 6–11 Interlock/Server Management Cable (2-pin)MA00370J2546–14 AlphaServer 1000 FRU Removal and Replacement
Figure 6–12 Internal StorageWorks Jumper Cable (50-Pin)J10J1J12J2J11J16J14J13J15J17J3MA00342W3W2W117-03960-010123456AlphaServer 1000 FRU Removal and R
Figure 6–13 SCSI (J15 StorageWorks Shelf to Bulkhead Connector or Bulkheadto Multinode) Cable (50-Pin)J10J1J12J2J11J16J14J13J15J17J3MA00343W3W2W117-03
Figure 6–14 SCSI (J15 StorageWorks Shelf to Bulkhead Connector or Bulkheadto Multinode) Cable (50-Pin)J10J1J12J2J11J16J14J13J15J17J3MA00345W3W2W117-03
Figure 6–15 SCSI (J1 or J14 StorageWorks Shelf to Bulkhead Connector) Cable(50-Pin)J10J1J12J2J11J16J14J13J15J17J3MA00346W3W2W117-03959-0117-03960-0217
Figure 6–16 SCSI (Embedded 8-bit) Multinode Cable (50-Pin)J10J117-03962-01Bus ID 4Bus ID 5J10J1MA0034717-03959-01Bus ID 4Bus ID 517-03959-01AlphaServe
Figure 6–17 SCSI RAID Internal Cable (50-Pin) (Single-Channel)J10J1J12J2J11J16J14J13J15J17J3MA00348W3W2W117-03959-0117-03960-0117-03962-0117-03962-021
Figure 6–18 SCSI RAID Internal Cable (50-Pin) (Dual-Channel)J10J1J12J2J11J16J14J13J15J17J3MA00349W3W2W117-03959-0117-03960-0217-03962-0117-03962-0217-
6.2.2 CPU Daughter BoardFigure 6–19 Removing CPU Daughter BoardMA00312CrossbarRetainingScrewCPU CardHandleClipsWarning: CPU and memory modules have pa
6.2.3 FansSTEP 1: REMOVE THE CPU DAUGHTER BOARD AND ANY OTHER OPTIONSBLOCKING ACCESS TO THE FAN SCREWS.See Figure 6–19 for removing the CPU daughter b
1Troubleshooting StrategyThis chapter describes the troubleshooting strategy for AlphaServer 1000systems.• Section 1.1 provides questions to consider
Figure 6–20 Removing FansUpper FanLower FanMA003116–24 AlphaServer 1000 FRU Removal and Replacement
6.2.4 StorageWorks DriveNoteIf the StorageWorks drives are plugged into an SWXCR-xx controller,you can ‘‘hot swap’’ drives; that is, you can add or re
6.2.5 Internal StorageWorks BackplaneSTEP 1: REMOVE POWER SUPPLIES.Figure 6–22 Removing Power SupplyCurrent SharingHarness (3-Pin)Signal/Misc. Harness
STEP 2: REMOVE INTERNAL STORAGEWORKS BACKPLANE.Figure 6–23 Removing Internal StorageWorks BackplaneMA00323AlphaServer 1000 FRU Removal and Replacement
6.2.6 Memory ModulesThe positions of the failing single-inline memory modules (SIMMs) are reportedby SROM power-up scripts (Section 2.1.1).Note• Bank
Warning: Memory and CPU modules have parts that operate at hightemperatures. Wait 2 minutes after power is removed before handlingthese modules.Cautio
NoteSIMMs can only be removed and installed in successive order. Forexample; to remove a SIMM at bank 0, SIMM 1, SIMMs 0 and 1 forbanks 3, 2, and 1 mu
NoteWhen installing SIMMs, make sure that the SIMMs are fully seated. Thetwo latches on each SIMM connector should lock around the edges of theSIMMs.A
6.2.7 Interlock SwitchFigure 6–27 Removing the Interlock Safety SwitchMA003096–32 AlphaServer 1000 FRU Removal and Replacement
6.2.8 MotherboardSTEP 1: RECORD THE POSITION OF EISA AND PCI OPTIONS.STEP 2: REMOVE EISA AND PCI OPTIONS.STEP 3: REMOVE CPU DAUGHTER BOARD.Figure 6–28
1.1.1 Problem CategoriesSystem problems can be classified into the following five categories. Using thesecategories, you can quickly determine a startin
Figure 6–29 Removing CPU Daughter BoardMA00312CrossbarRetainingScrewCPU CardHandleClipsWarning: CPU and memory modules have parts that operate at high
STEP 4: DETACH MOTHERBOARD CABLES, REMOVE SCREWS ANDMOTHERBOARD.CautionWhen replacing the system bus motherboard install the screws in theorder indica
STEP 5: MOVE THE NVRAM CHIP (E14) AND NVRAM TOY CHIP (E78) TO THENEW MOTHERBOARD.Move the socketed NVRAM chip (position E14) and NVRAM TOY chip (E78)
6.2.9 NVRAM Chip (E14) and NVRAM TOY Clock Chip (E78)See Figure 6–31 for the motherboard layout.6.2.10 OCP ModuleSTEP 1: REMOVE FRONT DOOR.STEP 2: REM
Figure 6–33 Removing Front PanelRemoveScrewsRemoveHidden ScrewsMA003076–38 AlphaServer 1000 FRU Removal and Replacement
Figure 6–34 Removing the OCP ModuleMA00308J254Black/Red(To InterlockSwitch)Green/Yellow(To Motherboard)AlphaServer 1000 FRU Removal and Replacement 6–
6.2.11 Power SupplySTEP 1: DISCONNECT POWER SUPPLY CABLES.STEP 2: REMOVE POWER SUPPLY.Figure 6–35 Removing Power SupplyCurrent SharingHarness (3-Pin)S
6.2.12 SpeakerFigure 6–36 Removing SpeakerMA00310AlphaServer 1000 FRU Removal and Replacement 6–41
6.2.13 Removable MediaFigure 6–37 Removing a CD–ROM DriveMA003246–42 AlphaServer 1000 FRU Removal and Replacement
Figure 6–38 Removing a Tape DriveMA00325AlphaServer 1000 FRU Removal and Replacement 6–43
Table 1–1 Diagnostic Flow for Power ProblemsSymptom ActionSystem does not power on.• Check the power source and power cord.• Check that the system’s t
Figure 6–39 Removing a Floppy DriveMA003266–44 AlphaServer 1000 FRU Removal and Replacement
ADefault Jumper SettingsThis appendix provides the location and default setting for all jumpers inAlphaServer 1000 systems:• Section A.1 provides loca
A.1 Motherboard JumpersFigure A–1 shows the location and default settings for jumpers located on themotherboard.Figure A–1 Motherboard Jumpers (Defaul
Jumper Name Description Default SettingJ27 VGA Enable When enabled (as shown inFigure A–1), the on-board VGAlogic is activated.Enabled for on-boardVGA
A.2 CPU Daughter Board (J3 and J4) Supported SettingsFigure A–2 shows the supported AlphaServer 1000 4/200 settings for the J3 andJ4 jumpers on the CP
Figure A–3 AlphaServer 1000 4/233 CPU Daughter Board (Jumpers J3 and J4)MA00791J3J4Supported settings:• J4 Jumper:OffOnOffOffOn• J3 Jumper:OffDefault
A.3 CPU Daughter Board (J1 Jumper)Figure A–4 shows the default setting for the J1 jumper on the CPU daughterboard. For information on SROM tests and t
Glossary10BASE-T Ethernet networkIEEE standard 802.3-compliant Ethernet products used for local distribution ofdata. These networking products charact
backup cacheA second, very fast cache memory that is closely coupled with the processor.bandwidthThe rate of data transfer in a bus or I/O channel. Th
bystanderA system bus node (CPU or memory) that is not addressed by a current systembus commander.byteA group of eight contiguous bits starting on an
Table 1–2 Diagnostic Flow for Problems Getting to Console ModeSymptom ActionPower-up screen is not displayed. Interpret the error beep codes at power-
clusterA group of networked computers that communicate over a common interface.The systems in the cluster share resources, and software programs work
data cacheA high-speed cache memory reserved for the storage of data. Abbreviated asD-cache.DECchip 21064 processorThe CMOS, single-chip processor bas
DUP serverDiagnostic Utility Program server. A firmware program on board DSSI devicesthat allows a user to set host to a specified device in order to ru
fail-safe loader (FSL)A program that allows you to power up without initiating drivers or runningpower-up diagnostics. From the fail-safe loader you c
haltThe action of transferring control of the computer system to the console program.hoseThe interface between the card cage and the I/O subsystems.ho
loopback testInternal and external tests that are used to isolate a failure by testing segmentsof a particular control or data path. A subset of ROM-b
motherboardThe main circuit board of a computer. The motherboard contains the baseelectronics for the system (for example, base I/O, CPU, ROM, and con
operator control panelThe panel located on the front of the system, which contains the power-up/diagnostic display, DC On/Off button, Halt button, and
RAIDRedundant array of inexpensive disks. A technique that organizes disk data toimprove performance and reliability. RAID has three attributes:• It i
serial control busA two-conductor serial interconnect that is independent of the system bus. Thisbus links the processor modules, the I/O, the memory,
Table 1–3 Diagnostic Flow for Problems Reported by the Console ProgramSymptom ActionPower-up tests do not complete. Interpret the error beep codes at
system diskThe device on which the operating system resides.TCP/IPTransmission Control Protocol/Internet Protocol. A set of softwarecommunications pro
wide area network (WAN)A high-speed network that connects a server to a distant host computer, PC, orother server, or that connects numerous computers
IndexAA: environment variable, 5–7AC power-up sequence, 2–19Acceptance testing, 3–18arc command, 5–4ARC interface, 5–3switching to SRM from, 5–4AUTOLO
Console event log, 2–8Console firmwareDEC OSF/1, 5–3diagnostics, 2–21OpenVMS, 5–3Windows NT, 5–3Console interfacesswitching between, 5–4Console output,
Environment variables set during systemconfiguration, 5–13ERF/uerf, 1–7Errorhandling, 1–7logging, 1–7report formatter (ERF), 1–7Error formattersDECeven
Logsevent, 1–7Loopback tests, 1–8COM2 and parallel ports, 3–4command summary, 3–3MMachine check/interrupts, 4–2processor, 4–2processor corrected, 4–2s
ROM-based diagnostics (RBDs) (cont’d)running, 3–1utilities, 3–2SSCSI buson-board, 5–29SCSI devicesWindows NT firmware device names,5–5, 5–6Serial ports
Troubleshooting (cont’d)with DEC VET, 1–8with loopback tests, 1–8with operating system exercisers, 1–8with ROM-based diagnostics, 1–7WWindows NT firmwa
How to Order Additional DocumentationTechnical SupportIf you need help deciding which documentation best meets your needs, call 800-DIGITAL(800-344-48
Table 1–4 Diagnostic Flow for Boot ProblemsSymptom ActionSystem cannot find boot device. Check the system configuration for the correct deviceparameters
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Do Not Tear – Fold Here and TapeTMBUSINESSREPLYMAILFIRST CLASS PERMIT NO. 33 MAYNARD MASS.POSTAGE WILL BE PAID BY ADDRESSEENo PostageNecessaryIf Maile
Table 1–5 Diagnostic Flow for Errors Reported by the Operating SystemSymptom ActionSystem is hung or has crashed. Examine the crash dump file.Refer to
First Printing, February 1995Second Printing, July 1995Digital Equipment Corporation makes no representations that the use of its products in themanne
RECOMMENDED USE: ROM-based diagnostics are the primary meansof testing the console environment and diagnosing the CPU, memory,Ethernet, I/O buses, and
Crash DumpsFor fatal errors, such as fatal bugchecks, DEC OSF/1 and OpenVMS operatingsystems will save the contents of memory to a crash dump file.RECO
2Power-Up Diagnostics and DisplayThis chapter provides information on how to interpret error beep codes andthe power-up display on the console screen.
2.1 Interpreting Error Beep CodesIf errors are detected at power-up, audible beep codes are emitted from thesystem. For example, if the SROM code coul
Table 2–1 (Cont.) Interpreting Error Beep CodesBeepCode Problem Corrective Action1-3-3 No usable memory detected.1. Verify that the memory modulesare
Table 2–2 SROM Memory Tests, CPU Jumper J1Bank# Test Description Test Results6 Backup Cache TagTestTest status displays on OCP:1.2.3.done.If the tests
Table 2–2 (Cont.) SROM Memory Tests, CPU Jumper J1Bank# Test Description Test Results5 Memory Test,Cache Enabled:Tests memory withbackup and datacache
Figure 2–1 Jumper J1 on the CPU Daughter BoardMA00328J176543210Bank Jumper Setting0 Standard boot setting (default)1 Mini-console setting: Internal us
Figure 2–2 AlphaServer 1000 Memory LayoutBank 3Bank 2Bank 1Bank 0ECC BanksMA00327SIMM 3SIMM 2SIMM 1SIMM 0ECC SIMM for Bank 2ECC SIMM for Bank 0ECC SIM
ContentsPreface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi1 Troubleshooting Strategy1.1 Troubl
Windows NT SystemsThe Windows NT operating system is supported by the ARC firmware (seeSection 5.1.1). Systems using Windows NT power up to the ARC boo
2.3 Mass Storage Problems Indicated at Power-UpMass storage failures at power-up are usually indicated by read fail messages.Other problems are indica
Table 2–3 (Cont.) Mass Storage ProblemsProblem Symptom Corrective ActionSCSI bus lengthexceededDrives may disappearintermittently from theshow configa
Table 2–4 Troubleshooting Problems with SWXCR-xx RAID ControllerSymptom ActionSome RAID drives do not appearon theshow device ddisplay.Valid configured
For information on other storage devices, refer to the documentation provided bythe manufacturer or vendor.Figure 2–3 StorageWorks Disk Drive LEDs (SC
Figure 2–5 CD–ROM Drive Activity LEDActivity LEDMA00333Power-Up Diagnostics and Display 2–13
2.5 EISA Bus Problems Indicated at Power-UpEISA bus failures at power-up are usually indicated by the following messagesdisplayed during power-up:EISA
2.5.1 Additional EISA Troubleshooting TipsThe following tips can aid in isolating EISA bus problems.• Peripheral device controllers need to be seated
2.6 PCI Bus Problems Indicated at Power-UpPCI bus failures at power-up are usually indicated by the inability of the systemto see the device. Table 2–
2.7 Fail-Safe LoaderThe fail-safe loader (FSL) allows you to attempt to recover when one of thefollowing is the cause of a problem getting to the cons
3 Running System Diagnostics3.1 Running ROM-Based Diagnostics . . . . . . . . . . . . . . . . . . . 3–13.2 Command Summary . . . . . . . . . . . . . .
Figure 2–6 Jumper J1 on the CPU Daughter BoardMA00328J176543210Bank Jumper Setting0 Standard boot setting (default)1 Mini-console setting: Internal us
2.8 Power-Up SequenceDuring the AlphaServer 1000 power-up sequence, the power supplies arestabilized and the system is initialized and tested through
2.8.2 DC Power-Up SequenceDC power is applied to the system with the DC On/Off button on the operatorcontrol panel.A summary of the DC power-up sequen
4. Configure the memory in the system and test only the first 4 MB of memory.If there is more than one memory module of the same size, the lowestnumbere
5. Enter console mode or boot the operating system. This action is determinedby theauto_actionenvironment variable.If theos_typeenvironment variable i
3Running System DiagnosticsThis chapter provides information on how to run system diagnostics.• Section 3.1 describes how to run ROM-based diagnostics
3.2 Command SummaryTable 3–1 provides a summary of the diagnostic and related commands.Table 3–1 Summary of Diagnostic and Related CommandsCommand Fun
Table 3–1 (Cont.) Summary of Diagnostic and Related CommandsCommand Function ReferenceLoopback Testingtest lb Conducts loopback tests for COM2 and the
3.3.1 testThetestcommand runs firmware diagnostics for the entire core system. Thetests are run concurrently in the background. Fatal errors are report
5. VGA console tests. These tests are run only if the console environmentvariable is set to ‘‘serial.’’ The VGA console test displays rows of the lett
5.2.2 Memory Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5–195.3 Motherboard . . . . . . . . . . . . . . . . . . . . . . . . . .
ID Program Device Pass Hard/Soft Bytes Written Bytes Read-------- ------------ ------------ ------ --------- ------------- -------------00000001 idle
3.3.2 cat el and more elThecat elandmore elcommands display the current contents of the consoleevent log. Status and error messages (if problems occur
3.3.3 memoryThememorycommand tests memory by running a memory exerciser each time thecommand is entered. The exercisers are run in the background and
Example with a memory compare error indicating bad SIMMs.>>> memory>>> memory>>> memory*** Hard Error - Error #44 - Memory
3.3.4 netewThenetewcommand is used to run MOP loopback tests for any EISA- or PCI-based ew* (DECchip 21040, TULIP) Ethernet ports. The command can als
Testing an Ethernet Port:>>> netew>>> show_statusID Program Device Pass Hard/Soft Bytes Written Bytes Read-------- ------------ ----
3.3.5 networkThenetworkcommand is used to run MOP loopback tests for any EISA- or PCI-based er* (DEC 4220, LANCE) Ethernet ports. The command can also
Testing an Ethernet Port:>>> network>>> show_statusID Program Device Pass Hard/Soft Bytes Written Bytes Read-------- ------------ --
3.3.6 net -sThenet -scommand displays the MOP counters for the specified Ethernet port.Synopsis:net -s ewa0Example:>>> net -s ewa0Status count
3.3.7 net -icThenet -iccommand initializes the MOP counters for the specified Ethernetport.Synopsis:net -ic ewa0Example:>>> net -ic ewa0>&g
A Default Jumper SettingsA.1 Motherboard Jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . A–2A.2 CPU Daughter Board (J3 and J4) Support
3.3.8 kill and kill_diagsThekillandkill_diagscommands terminate diagnostics that are currentlyexecuting .NoteA serial loopback connector (12-27351-01)
3.3.9 show_statusTheshow_statuscommand reports one line of information per executingdiagnostic. The information includes ID, diagnostic program, devic
3.4 Acceptance Testing and InitializationPerform the acceptance testing procedure listed below after installing a system orwhenever adding or replacin
4Error Log AnalysisThis chapter provides information on how to interpret error logs reported by theoperating system.• Section 4.1 describes machine ch
Table 4–1 AlphaServer 1000 Fault Detection and CorrectionComponent Fault Detection/Correction CapabilityKN22A Processor ModuleDECchip 21064 and 21064A
Processor Machine Check (SCB: 670)Processor machine check errors are fatal system errors that result in a systemcrash. The error handling code for the
• B-cache tag address parity error• B-cache tag control parity error• Non-existent memory error• ESC NMI: IOCHKProcessor-Corrected Machine Check (SCB:
4.3 Event Record TranslationSystems running Digital UNIX and OpenVMS operating systems use theDECevent management utility to translate events into ASC
4.3.2 Digital UNIX Translation Using DECeventThe kernel error log entries are translated from binary to ASCII using the diacommand. To invoke the DECe
5System Configuration and SetupThis chapter provides configuration and setup information for AlphaServer 1000systems and system options.• Section 5.1 de
6–1 FRUs, Front Right . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6–46–2 FRUs, Rear Left . . . . . . . . . . . . . . . . . . . . . . . . .
5.1 Verifying System ConfigurationFigure 5–1 illustrates the system architecture for AlphaServer 1000 systems.Figure 5–1 System Architecture: AlphaServ
SRM Command Line InterfaceSystems running DEC OSF/1 or OpenVMS access the SRM firmware through acommand line interface (CLI). The CLI is a UNIX style s
5.1.2 Switching Between InterfacesFor a few procedures it is necessary to switch from one console interface to theother.• Thetestcommand is run from t
5.1.3.1 Display Hardware ConfigurationThe hardware configuration display provides the following information:• The first screen displays the boot devices.
Table 5–2 (Cont.) ARC Firmware Device NamesName Descriptionscsi(0)disk(0)rdisk(0)scsi(0)cdrom(5)fdisk(0)The scsi( ) devices are SCSI disk or CD–ROM de
Example 5–1 (Cont.) Sample Hardware Configuration DisplaySlot Device Identifier0 Other DEC2A011 Disk ADP00012 Network DEC42205 Network DEC30026 Network
Table 5–3 lists and explains the default ARC firmware environment variables.Table 5–3 ARC Firmware Environment VariablesVariable DescriptionA: The defa
5.1.4 Verifying Configuration: SRM Console Commands for DECOSF/1 and OpenVMSThe following SRM console commands are used to verify system configuration o
Synopsis:show configExample:>>> show configFirmwareSRM Console: V1.1-1ARC Console: 3.5-14PALcode: VMS PALcode X5.55, OSF PALcode X1.35-53Seria
5.1.4.2 show deviceTheshow devicecommand displays the devices and controllers in the system.The device name convention is shown in Figure 5–2.Figure 5
6–34 Removing the OCP Module . . . . . . . . . . . . . . . . . . . . . 6–396–35 Removing Power Supply . . . . . . . . . . . . . . . . . . . . . . . 6–
Example:>>> show devicedka400.4.0.6.0 DKA400 RRD43 2893dva0.0.0.0.1 DVA0era0.0.0.2.1 ERA0 08-00-2B-BC-93-7Apka0.7.0.6.0 PKA0 SCSI Bus ID 7>
show envarArguments:envar The name of the environment variable to be modified.value The value that is assigned to the environment variable. This may be
Table 5–4 (Cont.) Environment Variables Set During System ConfigurationVariable Attributes Functionbootdef_dev NV The device or device list from which
Table 5–4 (Cont.) Environment Variables Set During System ConfigurationVariable Attributes Functionconsole NV Sets the device on which power-up output
Table 5–4 (Cont.) Environment Variables Set During System ConfigurationVariable Attributes Functionos_type NV Sets the default operating system.‘‘vms’’
NoteWhenever you use thesetcommand to reset an environment variable,you must initialize the system to put the new setting into effect. Initializethe s
Figure 5–3 Card Cages and Bus LocationsBank 3Bank 2Bank 1Bank 0ECC BanksMA00334EISA/ISAOption SlotsPCI Option SlotsPCI or EISA/ISAOption SlotsCPU Daug
5.2.1 CPU Daughter BoardAlphaServer 1000 systems use a CPU daughter board. The daughter boardprovides:• The DECchip 21064 processor• 2 megabytes of ba
Table 5–5 Operating System Memory RequirementsOperating System Memory RequirementsDEC OSF/1 andOpenVMS32 MB minimum; 64 MB recommendedWindows NT 16 MB
• The speaker interface• PCI-to-EISA bridge chip set• Time-of-year (TOY) clock• Connectors:– EISA bus connectors (Slots 1-8)– PCI bus connectors (Slot
5–6 Summary of Procedure for Configuring EISA Bus(EISA Options Only) . . . . . . . . . . . . . . . . . . . . . . . . . . 5–265–7 Summary of Procedure f
Up to eight ISA (or EISA) modules can reside in the EISA bus portion of the cardcage. Refer to Section 5.6 for information on using the EISA Configurat
The ECU is supplied on the two System Configuration Diskettes shipped withthe system. Make a backup copy of the system configuration diskette and keepth
5.6.2 How to Start the ECUComplete the following steps to run the ECU:1. Invoke the console firmware.• For systems running Windows NT—Shut down the ope
NoteIf you are configuring only EISA options, do not perform Step 2 ofthe ECU, ‘‘Add or remove boards.’’ (EISA boards are recognized andconfigured autom
Table 5–6 Summary of Procedure for Configuring EISA Bus (EISA OptionsOnly)Step ExplanationInstall EISA option. Use the instructions provided with the E
Table 5–7 Summary of Procedure for Configuring EISA Bus with ISA OptionsStep ExplanationInstall or move EISAoption. Do not install ISAboards.Use the in
5.7 PCI Bus OptionsPCI (Peripheral Component Interconnect) is an industry-standard expansion I/Obus that is the preferred bus for high-performance I/O
• The entire SCSI bus length, from terminator to terminator, must not exceed6 meters for single-ended SCSI-2 at 5 MB/sec, or 3 meters for single-ended
Figure 5–7 Single Controller Configuration with Dual Bus StorageWorks ShelfJ10J1J12J2J11J16J14J13J15J17J3MA00301W3W2W117-03959-0117-03962-01Bus ID 4Bus
Figure 5–8 Single Controller Configuration with Single Bus StorageWorksShelfJ10J1J12J2J11J16J14J13J15J17J3MA00302W3W2W117-03959-0117-03960-0117-03962-0
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