Service Handbook HP VISUALIZE B1000/C3000 UNIX® Workstations Manufacturing Part Number: n.a.
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Contents 1. Product Information Product Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 System Unit Front Panel Controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 System LCD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 System Power Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 Storage Device Controls and Features . . . . . . . . . . . . . . . . . .
Contents Floppy Disk Drive (Optional) Configuration . . . . . . . . . . . . . . . . . . . . Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . I/O Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Monitor-Type Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 43 45 46 3. Troubleshooting Flow Diagrams for Troubleshooting . . . . . . . . . . . . . . . . . . . . . .
Contents DIMM Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .141 System Unit LCD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .145 The System Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .147 Replacing the Battery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .150 5. Diagrams System Power. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Stable Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ISL Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Invoking ISL from the Boot Console Handler . . . . . . . . . . . . . . . . . . ISL User Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Obtaining and Updating System Firmware . . . . . . . . . . . . . . . . . . . . . To install the firmware update . . . . . . . .
Contents B. SCSI Connections SCSI Bus Differences . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .203 SCSI Restrictions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .204 Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .204 Terminators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .206 Number of Devices Per SCSI Bus . . . . . . . . . . . . . .
Contents 10
Figures Figure 1-1.. System Unit Front Panel Controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Figure 1-2.. LCD Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Figure 1-3.. CD Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Figure 1-4.. Floppy Drive Controls and Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figures Figure 4-23.. Front of System Unit with the Front Panel Removed . . . . . . . . . . . . . . . . .118 Figure 4-24.. Removing the CD Drive Bracket and Blank. . . . . . . . . . . . . . . . . . . . . . . . .119 Figure 4-25.. Installing the CD Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .120 Figure 4-26.. Tightening the Bracket Screws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .120 Figure 4-27.. Plugging in the ATAPI and Power Cables . .
Figures Figure 4-62.. Installing the System Board. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 5-1.. Power Distribution Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 5-2.. System Unit Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure A-1.. VCCI Class B ITE (Japan) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure A-2.. RRL Class A EMI (Korea) . . . . . . . .
Figures 14
Tables Table 1-1.. CD Drive Controls. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Table 1-2.. Floppy Drive Controls and Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Table 1-3.. Audio Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Table 1-4.. Serial I/O Pins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tables 16
1 Product Information This chapter introduces the HP VISUALIZE B1000/C3000 workstations, including their controls and indicators. This information is provided to help familiarize you with the main features and components of these workstations.
Product Information Included in this chapter are the following topics: • Product description • System unit front panel controls • System unit rear panel connectors • Monitor information • Keyboard and Mouse information • Operating System Overview 18 Chapter 1
Product Information Product Description Product Description The HP VISUALIZE B1000 and C3000 workstations contain the following key features: • Processor: — One 300MHz PA8500 processor in the B1000 or one 400MHz PA8500 processor in the C3000 — One 750MHz PA8700 processor in the C3700 — The PA8500 processor has a 0.5MByte instruction cache and a 1.0MByte data cache — The PA8700 processor has a 0.75MByte instruction cache and a 1.5MByte data cache • Operating System: The B1000/C3000 requires the HP-UX 10.
Product Information Product Description Floppy Disk Drive • Standard Network: – RJ45, Twisted Pair 10 BaseT/100 BaseT • Standard I/O Ports: — Ultra2 Wide Low-Voltage Differential (LVD) SCSI, one — Ultra Narrow Single-Ended (NSE) SCSI, one — Parallel port (IEEE 1284), one — Universal Serial Bus (USB) ports, two — Serial Interface ports (RS-232C), two — Audio ports (Line-in, Line-out, headset, and microphone-in) • Optional I/O: Six PCI slots are available for the B1000/C3000 workstations.
Product Information System Unit Front Panel Controls System Unit Front Panel Controls Figure 1-1 shows the location of the system unit front panel controls. Figure 1-1. System Unit Front Panel Controls System LCD Display System Power Switch Storage Devices Security Lock System LCD The Liquid Crystal Display (LCD) is located on the left side of the front panel. The LCD displays 2-lines of information, with up to 16-characters per line.
Product Information System Unit Front Panel Controls Figure 1-2. LCD Symbols System Power Switch Use the Power switch to power the system unit on and off. When you use the soft power down procedure, the B1000/C3000 workstations’ hardware is designed to produce the proper diagnostic and self test messages, and broadcasts a warning message to remote terminals that it is about to shutdown. The operating system executes an automatic shutdown -q command.
Product Information System Unit Front Panel Controls Figure 1-3. CD Drive Disk Tray Busy Indicator Emergency Eject Eject Button Table 1-1. CD Drive Controls Control/Feature Purpose Eject Button Press to open the Disc Tray and insert or remove a disc. When the drive is in use, press the eject button for more than one second to open the Disc Tray. Press to close the tray.
Product Information System Unit Front Panel Controls The optional floppy disk drive (Product Number A5009A) is a 3.5-inch form factor device with a PC/AT interface. It connects to the workstation via a 34-pin PC/AT ribbon cable and a 4-pin power cable. The floppy disk drive has up to 1.44 MByte capacity depending on the media and format used. Figure 1-4. shows the operating controls and features of the floppy drive, and Table 1-2. describes those controls and features. Figure 1-4.
Product Information System Unit Rear Panel Connectors System Unit Rear Panel Connectors This section describes the following connectors on the system unit’s rear panel: • Two serial ports (RS-232) • Two Universal Serial Bus ports (USB) • LAN connector, 10 BaseT/100 BaseT • HP parallel IEEE 1284 (printer) connector • Audio connectors (PCI based, line in, line out, headset, and microphone in) • Ultra2 Wide LVD (Low Voltage Differential) SCSI • Ultra Narrow Single-Ended (NSE) SCSI • TOC (transfer of control)
Product Information System Unit Rear Panel Connectors Audio Connectors The Model B1000 and C3000 workstations have audio-input and -output capabilities through external input and output connectors on the rear panel and through an internal speaker. The sound is 16-bit, 44 kHz (CD-quality). The rear panel contains the Audio IN (Stereo line-in) and Microphone (Mic-in), and Audio OUT (Stereo line-out) and Headphones (headphone-out) connectors. This workstation also has a mono internal speaker.
Product Information System Unit Rear Panel Connectors Table 1-3. Audio Electrical Specifications Frequency Response 25 to 20KHz Input Sensitivity/Impedance Line in 2.0V pk/47kohm Microphone in 22mVpk/1kohm Max Output Level/Impedance Line Out 2.8Vpp/47kohm Headphone 2.75Vpp/50ohm Speaker (internal) 5.
Product Information System Unit Rear Panel Connectors an external transceiver. The workstation automatically selects the correct network setting. RS-232 Serial Input/Output Connectors There are a variety of peripheral devices that can attach to the RS-232 Serial Input/Output (SIO) ports on this workstation. Refer to the label on the rear of the workstation to locate serial port 1 and serial port 2. Peripheral devices include printers, plotters, modems, and scanners.
Product Information System Unit Rear Panel Connectors TOC Button The TOC (transfer of control) button interrupts the system and transfers control from the default device to an auxiliary device. A transfer of control saves the state of the processor in Processor Internal Memory (PIM) and begins execution of recovery software at a nonzero location specified by a special location in Page Zero called MEM_TOC. The TOC code is protected by a checksum.
Product Information System Unit Rear Panel Connectors Figure 1-7.
Product Information Monitor Information Monitor Information The B1000/C3000 workstations support the following monitors: • 19-inch, 1280×1024 color monitor (A4575A) • 19-inch, 1600×1200 color monitor (A4575A) • 21-inch, 1280×1024 color monitor (A4576A) • 21-inch, 1600×1200 color monitor (A4576A) For information on the A4575A monitors, see: • HP A4575A Color Monitor CE Handbook (A4575-90099) The A4575A is a 19" high-range resolution, multi-mode color monitor for use on workstations and X-terminals.
Product Information HP Supported USB Devices HP Supported USB Devices USB Keyboard The HP VISUALIZE B1000/C3000 workstations support USB keyboards. The keyboard shipped with the workstation provides a localized PC-104, PC-105 or HP-JIS-106 compatible input device for USB-equipped PA-RISC workstations and other USB-compatible computers that support the HP-UX operating system. The keyboard includes a captive cable terminated in a USB Style A connector.
Product Information Operating System Overview Operating System Overview The B1000/C3000 workstation uses the HP-UX operating system, version 10.20 and the Workstation Additional Core Enhancements for HP-UX 10.20 (June, 1999). The B3700 workstation uses the HP-UX 11.0 and Workstation Additional Core Enhancements (ACE) for HP-UX 11.0 (November, 1999) or HP-UX 11i operating system and the Hardware Enablement Bundle (HWE) for HP-UX 11i (June, 2001).
Product Information Memory Memory The main memory for an HP VISUALIZE B1000/C3000 workstation can vary from a minimum of 128 MBytes to a maximum of 2 GBytes. The workstation has eight memory card slots. Currently the B1000/C3000 workstations support only 128 MByte and 256 MByte memory DIMM cards in these slots. To install DIMM cards in the B1000/C3000 workstation reference “Installing Additional Memory” on page 141 in this Service Handbook.
2 Configuration This chapter provides details about setting up and changing the system configuration for the HP VISUALIZE B1000/C3000 workstations.
Configuration Chapter Overview Chapter Overview This chapter contains the following sections: • Workstation Configurations • Field Replaceable Unit (FRU) Configurations — Internal Storage Devices — Memory — I/O Cards — Monitor-Type Selection 36 Chapter 2
Configuration Workstation Configurations Workstation Configurations Refer to the HP Workstations Website for a complete list of supported accessories, peripherals, and operating system versions for the HP VISUALIZE B1000/C3000 workstations. The URL for the Website is: http://www.hp.
Configuration FRU Configurations FRU Configurations This section provides information for setting up or changing the configuration of the system Field Replaceable Units (FRUs). Internal Storage Configurations Hard Disk Drive Configuration The SCSI IDs for hard disk drives are hard-wired into the SCA Ultra2 Wide LVD SCSI interfaces in the backplane of the two disk bays within the B1000 and C3000 workstations.
Configuration FRU Configurations Figure 2-1. Hard Drive, 9Gbyte/18Gbyte Ultra2 Low Voltage Differential The hard disk drive in Figure 2-2 is used exclusively for the HP VISUALIZE B1000 workstation. Figure 2-2.
Configuration FRU Configurations Configuring a Hard Disk Drive This section describes how to add a hard drive to your system as a file system using SAM. For more information about configuring a hard disk drive, refer to the manual Managing Systems and Workgroups. The procedures in this section require you to log in as root. If you cannot log in as root, contact your system administrator. 1. Log in as root and create a mount directory (for example, /disk1). 2.
Configuration FRU Configurations 6. Double click on the Disk Devices icon. The following screen message is displayed: Scanning the system’s hardware... The Disk and File Systems window opens containing a list of drives currently configured on this system. You need to select one of the appropriate drives that is not in use. 7. Click on Add in the Actions menu and select the item Not Using the Logical Volume Manager. 8.
Configuration FRU Configurations CD Drive (Optional) Configuration The optional CD drive connects to the ATAPI (IDE) interface in the CD drive bay backplane within the B1000/C3000 workstations via a 40-pin ribbon cable, a 4-pin audio cable, and a 4-pin power cable. No interfacing addressing is required for the CD drive. However, as shown in Figure 2-3. the CD drive should have a jumper set on the C SEL (Cable Select) selection pins. (The CD drive should ship from the factory already jumpered for C SEL.
Configuration FRU Configurations Memory This workstation has 8 memory slots, labeled 0 through 7. Memory can be configured from 128MB to 1.4GB for the B1000 and 256 MB to 2 GB for the C3000. Memory does not have to be configured in pairs for the B1000/C3000, but must be loaded in the order described in Figure 2-4.. Notice the alternating load pattern by location on the system board. Figure 2-4.
Configuration FRU Configurations The B1000/C3000 workstation supports the 128 MByte DIMMs or the 256 MByte DIMMs. If users install different size memory boards in a single unit, the largest size must be loaded first then the smaller capacity memory boards for maximum performance. For example, load a 256 MByte DIMM in slot 0 and a 128 MByte DIMM in slot 1. NOTE Users who wish to achieve both maximum performance and maximum future capacity are advised to use 256 MB boards exclusively.
Configuration FRU Configurations I/O Cards There are six I/O slots located on the rear panel of the B1000 and C3000 workstations. Slots 1 through 4 are full-size PCI slots. Slots 5 and 6 are half-size Peripheral Connect Interface (PCI) slots. See Figure 2-5. for a brief description of slot capabilities. Figure 2-5.
Configuration FRU Configurations Monitor-Type Selection The B1000/C3000 supports the following monitors: • 19-inch, 1280×1024 color monitor, 75 Hz (A4575A) • 19-inch, 1600×1200 color monitor, 75 Hz (A4575A) • 21-inch, 1280×1024 color monitor (stereo capability), 75 Hz (A4576A) • 21-inch, 1600×1200 color monitor, 75 Hz (A4576A) The monitor type does not have to change since the workstation is set up to support the above mentioned monitors.
3 Troubleshooting This chapter provides information about isolating a failing component, known as a Field Replaceable Unit (FRU), in the B1000/C3000 workstations.
Troubleshooting To troubleshoot a HP VISUALIZE B1000/C3000 workstation, you must be familiar with the HP-UX operating system and be able to start and stop processes. You should also be familiar with the boot ROM diagnostics, and the Mesa (Support Tools Manager) on-line tests, which we describe in this chapter. As a super-user who is troubleshooting a HP-UX system, you should be able to shutdown and reboot a system, start and stop processes, and examine error logs.
Troubleshooting Flow Diagrams for Troubleshooting Flow Diagrams for Troubleshooting The following four figures contain troubleshooting flowcharts you can follow to isolate a failing Field Replaceable Unit (FRU). Figure 3-1., “Power On LCD, Troubleshooting Flow,” contains the main troubleshooting flowchart. Figures 3-2 through 3-4 then contain flowcharts for console, bootable device, and HP-UX troubleshooting, respectively.
Troubleshooting Flow Diagrams for Troubleshooting Figure 3-1.
Troubleshooting Flow Diagrams for Troubleshooting Figure 3-2.
Troubleshooting Flow Diagrams for Troubleshooting Figure 3-3.
Troubleshooting Flow Diagrams for Troubleshooting Figure 3-4.
Troubleshooting Identifying LCD-Indicated Conditions Identifying LCD-Indicated Conditions This workstation uses an LCD panel to display firmware/OS progress codes. the codes, referred to as chassis codes, consist of one of the mnemonics listed below, followed by a 4-digit hexadecimal number identifying the code module being executed.
Troubleshooting LCD Fan Failures and Warnings LCD Fan Failures and Warnings This section provides the failure and warning messages you will see in the LCD if there is a problem with a fan in the B1000/C3000 workstation. A chassis code which indicates that a fan has failed (FLT D01n) or is running too slowly (WRN D02n) within a B1000 or C3000 workstation specifies the fan number, n. Table 3-1., “Fan Numbers and Corresponding Name,” lists the fan numbers and their names. Table 3-1.
Troubleshooting LCD Fan Failures and Warnings Figure 3-5. Fan Locations Turbo Cooler Fan (5) PCI Card Fan (4) Upper System Fan (2) Lower System Fan (3) Memory Fan (6) In the case of a fan problem, you will need to replace: • The fan itself, if it is either a system board cooling fan, PCI (I/O) fan, or a memory fan.
Troubleshooting Dealing with a Boot Failure Dealing with a Boot Failure To start this workstation from an operating system stored on a device different from the usual boot device, to boot from a different disk, or to boot from another type of device (such as DDS tape drive, an alternate hard disk or CD), see the following situations and examples that use the Boot Console Handler. To access the Boot Console Handler, see Chapter 6 of this manual.
Troubleshooting Dealing with a Boot Failure Searching for Bootable Media To list all devices that may contain bootable media, go to the Main Menu of the Boot Console Interface and then type the following at the prompt: Main Menu: Enter a command or a menu > search ipl The search may turn up more devices than there are lines on the display.
Troubleshooting Dealing with a Boot Failure Boot Command Notations The boot command supports the following two notations: • Mnemonic • Path number Type help scsi or help lan for more information on the boot path parameters. Here are examples of mnemonic notation: • boot with “no parameters” selects the primary boot path in stable storage. • boot with the alternate or alt parameters selects the alternate boot path in stable storage.
Troubleshooting Selftest Failures Selftest Failures Chassis codes are the key to debugging selftest errors. If a failure is found during selftest, chassis codes are displayed in the LCD. The procedure for using these codes to debug a failure is as follows: 1. Using Table 3-2., “Chassis Codes for B1000/C3000 Workstations,” find the chassis code listed on the LCD. 2. To get additional information about failures from the Boot Console Handler, use the Service Menu’s pim, pdt, and ChassisCodes commands.
Troubleshooting Selftest Failures Chassis Codes Table 3-2. lists all of the chassis codes for the B1000 and C3000 workstations. Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 1n01 SYS BD HPMC occurred CPU n detected an unexpected HPMC. FLT 1n02 SYS BD powerfail intrpt CPU n detected an unexpected power fail interrupt. FLT 1n03 SYS BD recvry cntr trap CPU n detected an unexpected recovery counter trap.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 1n13 SYS BD data mem brk trp CPU n detected an unexpected data memory break trap. FLT 1n14 SYS BD TLB dirty bit tr CPU n detected an unexpected TLB dirty bit trap. FLT 1n15 SYS BD page refrnce trp CPU n detected an unexpected page reference trap. FLT 1n16 SYS BD assist emul trap CPU n detected an unexpected assist emulation trap.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description TST 1n27 SYS BD CPUn itimer test CPU n is starting its interval timer self-test. TST 1n28 SYS BD CPUn multi-media CPU n is starting its multi-media instructions self-test. TST 1n29 SYS BD CPUn shadow reg CPU n is starting its shadow register self-test. TST 1n2A SYS BD CPUn diagnse reg CPU n is starting its diagnose register self-test.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 1nBA SYS BD monarch CPU fail The monarch CPU failed. FLT 1nBB SYS BD bad CPUn number The CPU identifier was out of range. FLT 1nBF SYS BD CPUn halt boot Bootstrap failure--machine halted. INI 1nCA SYS BD CPUn sys bus arb Monarch CPU is initializing the system bus arbitration. WRN 1nCD SYS BD CPUn deconfig CPU n deconfigured itself.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description TST 2n90 SYS BD CPUn dcache ECC CPU n is starting its data cache ECC self-test. FLT 2BAD SYS BD assertion fail A firmware assertion failed. TST 3n00 SYS BD ROM checksum tst Monarch CPU n is testing the boot ROM integrity. FLT 3n00 SYS BD ROM checksum BAD The boot ROM failed checksum. INI 3n00 SYS BD ROM checksum ok The boot ROM passed checksum.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 3n09 SYS BD bad sys mde byte CPU n detected an unsupported system mode. WRN 3n1A SYS BD hversion mismtch Stable store hardware version doesn’t match system. TST 3n1B SYS BD chck model strng Check model string with version in stable store. WRN 3n1B SYS BD model str msmtch Model string doesn’t match that in stable store.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description WRN 4n01 SYS BD CPUn skip lst CPU n is bypassing its late self-tests to save time. TST 4n0E SYS BD CPUn exit lst CPU n finished its late self-tests. TST 4n20 SYS BD CPUn lst erly st CPU n is re-executing some of its early self-tests from system memory. TST 4n21 SYS BD CPUn lst basic CPU n is re-executing its basic operations self-test.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description TST 4n60 SYS BD CPUn dcache miss CPU n is starting its data cache miss self-test. FLT 5n00 SYS BD unknown bus err CPU n detected an unknown error on the system bus (Runway). FLT 5n02 SYS BD path err assertd CPU n detected a path error on the system bus (Runway).
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description TST 7020 SYS BD search for IMM Try to find a single memory bank to use for the initial memory module. TST 703s DIMM DIMM s IMM vrfy DIMM s was the initial memory module last boot. Verify it still works. FLT 704s DIMM DIMM s IMM fail DIMM s failed the initial memory module test. TST 705s DIMM DIMM s IMM test Test DIMM in slot s as the initial memory module.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 7207 DIMM DIMM table full The DIMM table is full--cannot add new type. FLT 7208 DIMM no DIMMs found SPD didn’t find any memory DIMMs. INI 721s DIMM is DIMM s inst? SPD is checking memory slot s. INI 722s DIMM ???? DIMM in s SPD found a DIMM in slot s, but can’t determine its size. DIMM will not be used.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 730C SYS BD mem intrlv fail Memory interleave generation failed. INI 730F SYS BD mem config done Main memory configuration complete. TST 7400 DIMM non-dest mem tst Starting non-destructive memory test. TST 740F DIMM non-dst tst done Non-destructive memory test complete. INI 7500 SYS BD memory reset Resetting memory system.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 7612 DIMM ECC single ECC Memory ECC test failed to detect single-bit ECC error. FLT 7613 DIMM ECC multipl data Memory ECC test failed to detect multiple-bit data error. FLT 7614 DIMM ECC multpl signl Memory ECC test failed to signal multiple-bit error. FLT 7800 SYS BD mem err summary Printing memory error summary word to RS-232.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT 7848 SYS BD addr not mapped Memory address outside configured memory space. FLT 785s DIMM MBE in DIMM s Destructive memory test detected an uncorrectable memory error in DIMM s. FLT 786s DIMM SBE&MBE DIMM s Destructive memory test detected both an uncorrectable and a correctable memory error in DIMM s.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description WRN 80F8 EXT IO invalid boot dev Invalid boot device class; bad IODC? WRN 80FC EXT IO invalid boot dev Unexpected error; bad IODC? INI 8800 IOCARD PCI BusWlk start Starting PCI bus and device discovery. INI 88r1 IOCARD PCI Rope r walk Starting PCI bus and device discovery on Rope r. INI 8802 IOCARD PCI BusWalk done PCI bus and device discovery complete.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description WRN 8C0A EXT IO PCI mem type err PCI device requested invalid memory type. WRN 8C0B IO BD PCI max bus dpth PCI bus depth exceeded maximum supported depth. WRN 8C0C EXT IO PCI dev not cnfg Unable to configure PCI device. WRN 8C0F IO BD dev tree ovrflow Data space for PCI devices is full. WRN 8DEC IO BD init LAN SROM Initializing the core LAN serial EPROM.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description WRN 9C6s EXT IO bad PCI slot s Graphics in PCI slot s failed to initialize as a console device. INI 9C8t EXT IO cnfg mon type t Set graphics console to monitor type t. (Seen when cycling through types.) WRN 9C8t EXT IO mon type t fail Failed to configure console to monitor type t. INI 9CDB IO BD consl is SER_LDB Console display is on serial LDB port.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description INI C540 EXT IO init pri path Autoboot is trying to boot from primary boot device. INI C580 EXT IO load IPL pri pth Loading IPL from primary boot device. WRN C5F0 EXT IO err read pri IPL Error loading IPL from primary boot device. FLT C5F0 EXT IO pri IPL fault Error loading IPL from primary boot device.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description WRN C7F1 EXT IO bad alt IPL read Cannot load IPL from non-primary boot device--load address invalid. WRN C7F2 EXT IO bad alt IPL read Cannot load IPL from non-primary boot device--file is not IPL image. WRN C7F3 EXT IO bad alt IPL read Cannot load IPL from non-primary boot device--IPL image size invalid.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description WRN CB10 SYS BD LPMC initiated A Low-Priority Machine Check entered the firmware LPMC handler. The handler should log the error and return to normal operation. WRN CB11 SYS BD icache LPMC err An instruction cache parity error caused the LPMC. WRN CB12 SYS BD dcache LPMC err A data cache parity/ECC error caused the LPMC.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description OFF CBA6 IO BD R2PCI resp tmout Rope-to-PCI bridge timed out. Could be a failure of the PCI card, rope, or R2PCI bridge. OFF CBA7 IO BD Unknown AIOC err Unknown I/O controller error. OFF CBB1 IO BD PCI timeout A PCI card requested the bus but failed to use it. OFF CBB2 IO BD PCI timeout; OV More than once aPCI card requested the bus but failed to use it.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description OFF CBD0 IO BD R2PCI T-Abort;OV Rope-to-PCI bridge signalled multiple Target Aborts. OFF CBD2 IO BD PCI parity err PCI address/command parity error. OFF CBD4 IO BD PCI par err; OV Multiple PCI address/command parity errors. OFF CBD6 IO BD PCI no DEVSEL# No PCI device selected (DEVSEL# assertion). I/O error log word 3 contains the error address.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description FLT CBF2 SYS BD bad OS HPMC len The size of the operating system HPMC handler is invalid. Firmware will halt the CPU, requiring a power cycle to recover. FLT CBF3 SYS BD bad OS HPMC addr The operating system HPMC handler vector is invalid. Firmware will halt the CPU, requiring a power cycle to recover.
Troubleshooting Selftest Failures Table 3-2. Chassis Codes for B1000/C3000 Workstations Ostat Code FRU Message Description INI CC4n SYS BD CPUn mem rendez Slave CPU n entering memory rendezvous, waiting for the monarch CPU to select a boot device. TST D000 SYS BD micro controller Firmware is initializing communications with the system controller. WRN D004 SYS BD micro not resp Firmware detected a communications error with the system controller.
Troubleshooting Running System Verification Tests Running System Verification Tests HP-UX uses an on-line diagnostics product named Mesa (Support Tools Manager) that allows system operation verification.
Troubleshooting Running System Verification Tests 5. To exit the Support Tools Manager, enter the following: CSTM> exit Enter If any tests failed, run Self Test and ISL diagnostics to isolate the problem.
Troubleshooting Running ODE-Based Diagnostics Running ODE-Based Diagnostics The Offline Diagnostic Environment (ODE) consists of diagnostic modules for testing and verifying system operation. ODE provides all the necessary functions for the user to load specified tests and interact with those tests. ODE is an ISL utility. To boot ODE: 1. Invoke the ISL environment from the system disk or CD-ROM. 2. Type ode [Enter] after the ISL> prompt to invoke ODE from the LIF directory on the system disk.
4 Field Replaceable Units This chapter lists the HP VISUALIZE B1000/C3000 Workstation Field Replaceable Units (FRUs) and provides procedures and illustrations showing their removal and replacement.
Field Replaceable Units WARNING For all removal and replacement procedures in this chapter, you must power off the workstation and unplug the workstation power cord from the AC power outlet. NOTE To maintain FCC/EMI compliance, verify that all covers are replaced and that all screws are properly seated.
Field Replaceable Units Figure 4-1.
Field Replaceable Units Figure 4-2. CD Drive Bracket Assembly CD Drive Bracket Blank Filler Plate Blank Filler Screws (T-10 Torx Screws) Bracket Screws (T-15 Torx Screws) Figure 4-2. shows the CD Drive Bracket FRUs for the B1000/C3000 workstation.
Field Replaceable Units Figure 4-3. Floppy Drive Bracket Assembly Floppy Drive Bracket Bracket Screw Blank Filler Screws (T-10 Torx) Bracket Screw (T-15 Torx) Blank Figure 4-3. shows the Floppy Disk Drive Bracket Assembly for the B1000/C3000 workstation.
Field Replaceable Units Figure 4-4. Hard Disk Drive Bracket Assembly 6-32 Shoulder Screws Drive Mounting Bracket Figure 4-4 shows the Hard Disk Drive Bracket Assembly FRUs for the B1000/C3000 workstation.
Field Replaceable Units Exchange and Non-exchange Part Numbers Exchange and Non-exchange Part Numbers In this chapter we refer to exchange and non-exchange part numbers. You must return FRUs with exchange part numbers in exchange for a replacement FRU. Do not return FRUs with non-exchange part numbers—you may discard them. Each of the B1000/C3000 workstation exploded views show field replaceable units.
Field Replaceable Units Exchange and Non-exchange Part Numbers FRUs Part Numbers Table 4-1.
Field Replaceable Units Exchange and Non-exchange Part Numbers Table 4-2.
Field Replaceable Units Exchange and Non-exchange Part Numbers Table 4-2.
Field Replaceable Units FRU Removal and Replacement FRU Removal and Replacement The procedures in this section describe how to remove field replaceable units (FRUs). Observe any notices and prerequisites before removing a FRU. Replacement is the reverse of removal, unless noted. Before performing these procedures, observe the following precautions: Step 1. Power off the system, the monitor, and any peripheral devices.
Field Replaceable Units FRU Removal and Replacement System Unit Front Panel This section describes how to open and close the workstation front panel. Opening the System Unit Front Panel Perform the following steps to open the system unit. 1. Power off the workstation, and unplug the power cord from the electrical outlet. 2. Attach the static-grounding wrist strap by following the instructions on the package. Attach the sticky end of the wrist strap to bare metal on the back panel of the system unit. 3.
Field Replaceable Units FRU Removal and Replacement 3. Plug in the system unit power cord, and power on the system. Left Side Panel of the System Unit This section explains how to open and close the left side panel of the system unit. This side panel will have to be opened whenever you need access to the internal components of the workstation. Opening the Left Side Panel of the System Unit Perform these steps to open the left side panel.
Field Replaceable Units FRU Removal and Replacement Figure 4-6. Opening the Left Side Panel of the System Unit Hinge Slot T-15 Torx Thumbscrew EMI gasket Safety Interlock Switch NOTE 100 Safety Interlock Release Pin The EMI gasket, as shown in Figure 4-6, must not be removed from the side panel.
Field Replaceable Units FRU Removal and Replacement Closing the Left Side Panel of the System Unit Perform these steps to close the left side panel. NOTE Power supply thumbscrews must be fully tightened before closing the left side panel. Failure to tighten thumbscrews may damage the left side panel. 1. Hold the left side panel so that the hook hinges can be inserted into their hinge slots. See Figure 4-6.
Field Replaceable Units FRU Removal and Replacement System Power Supply This section will prove important to you as you begin to service the system. For example, you may need to install memory in the system unit. To do this, you need to position the power supply so you can access the memory slots. To remove the system board, you will need to remove the power supply. If the power supply fails, you will need to replace it with a new one. This section will help you accomplish these tasks.
Field Replaceable Units FRU Removal and Replacement the power supply is propped in the upright position as shown in Figure 4-8. Note that the bail automatically springs into the bail lock to secure the power supply. Figure 4-8. Propping Up the Power Supply Bail Lock Bail Bail Power Supply Closing the System Once you have completed the task you set out to perform, you are ready to close the system. To close the system follow these steps: 1.
Field Replaceable Units FRU Removal and Replacement Figure 4-9. Disconnecting the Power Supply Cables Power Cable Connectors Control Cable Connector 3. Remove the bail from the bail lock. See Figure 4-10. 4. Grasp the power supply by the handle and slide the spring hinge lever to the right and rotate it downward to lock it in place. See Figure 4-10. This allows you pull outward on the left side of the power supply while moving the power supply to the left as shown in Figure 4-10.
Field Replaceable Units FRU Removal and Replacement Figure 4-10. Removing the Power Supply Power Supply Right Hinge Spring Lever Spring Hinge Bail Lock Bail Closing the System Once you have completed the task you set out to perform, you are ready to close the system. To close the system follow these steps: 1. Pick up the power supply by its handle and slide the power supply pivot hole over the right side hinge pin. 2.
Field Replaceable Units FRU Removal and Replacement I/O Cards The B1000 and C3000 computer’s PCI assembly has six slots. Slots 5 and 6 are half-size Peripheral Connect Interface (PCI) slots. Slots 1 through 4 are full-size PCI slots. See Figure 4-11 for a brief description of slot capabilities. Figure 4-11.
Field Replaceable Units FRU Removal and Replacement Removing I/O Cards This section assumes that you already have I/O cards loaded in the system unit, and you would like to remove them. You will need a T-15 Torx driver or a flat blade screw driver to remove the I/O slot bulkhead screws. Here are the steps required for remove an I/O card from the system unit. 1. Open the side panel of the system unit as explained in the section “Opening the Left Side Panel of the System Unit” in this chapter. 2.
Field Replaceable Units FRU Removal and Replacement Installing I/O Cards To install a new I/O card, do the following: NOTE Slots two and four are the graphics card slots. The primary graphics card slot is slot number two and the secondary graphics card slot is slot number four. 1. Open the left side panel of the system unit as explained in the section “Opening the Left Side Panel of the System Unit” in this chapter. 2. Locate the appropriate slot for the I/O card that is to be installed. See Figure 4-12.
Field Replaceable Units FRU Removal and Replacement System Unit Fans The B1000/C3000 has five fans that are used to cool various areas within the unit. If one of these fans is not working, you will need to replace it to ensure no heat damage is caused to the system unit. To replace a bad fan, you will need to follow one of three sets of procedures that are covered in this section.
Field Replaceable Units FRU Removal and Replacement Removing the Fan from the Hard Disk Drive Area This section provides the procedure for removing the cooling fan from the back of the hard disk drive chassis. You will need to remove this fan when it needs replacement and when you need to access or remove the: • SCA disk interface board • System board • DIMM cards Here are the steps necessary for removing the fan from the hard disk drive chassis. 1. Remove the system unit’s side panel.
Field Replaceable Units FRU Removal and Replacement Figure 4-16. Removing the Fan from the Hard Disk Drive Chassis Top Alignment Tab Fan Bracket Handle Fan Bracket Memory Fan Bottom Alignment Tab DIMM Card Fan Bracket Guide Bottom Alignment Hole DIMM Card Connector Removing the Fans from the CPU Area This section provides the procedure for removing the cooling fans from the CPU area of the system unit’s chassis.
Field Replaceable Units FRU Removal and Replacement Figure 4-17. Removing the Fan Rivets Plastic Rivet(s) Plastic Rivet(s) Plastic Rivet(s) Plastic Rivet(s) 4. Remove the plastic mounting rivets that hold the fans in place. See Figure 4-17. To remove the rivets, press in on the backside of the rivet to release the fastener. If the rivet backside is inaccessible, use a sharp edged device to remove the rivet from the face of the rear panel.
Field Replaceable Units FRU Removal and Replacement Figure 4-18. Removing CPU Area Fans Top of Workstation (Upper) System Fan 2 Front of Workstatio (Lower) System Fan 3 Note that you can replace the fans using the original rivets; however, the plastic rivets will be slightly deformed. If you would like new rivets to replace the old ones, new rivets for mounting the fans are supplied in the replacement kit.
Field Replaceable Units FRU Removal and Replacement Removing the Fan and Speaker from the I/O Card Area The I/O area of the system unit has its own cooling fan. Note that there is a speaker attached to the same mounting bracket as the fan. This section explains how to remove the fan and speaker if they are defective. To remove the I/O cooling fan or speaker, do the following: 1. Remove the workstation left side panel. See the section “Opening the Left Side Panel of the System” in this chapter. 2.
Field Replaceable Units FRU Removal and Replacement Figure 4-20. Removing the Fan and Speaker from the I/O Area Fan Speaker Bracket Mounting Clip Speaker Cable Clips Fan Power Cable Bracket CD Drive Chassis Bracket Stop Mounting Clip Retainer Hole 5. To remove the speaker from the mounting bracket, push a finger through the access hole and spread the two retaining clips. The speaker will pop free of the mounting clips. Figure 4-21.
Field Replaceable Units FRU Removal and Replacement 6. Remove the fan from the bracket by slightly pulling the left and right fan mounting clips away from the fan, and then pulling outward in the direction of the arrow. See Figure 4-21. Installing a Fan or Speaker in the I/O Card Area If you are replacing a fan or speaker in the I/O card area, follow the steps covered in this section. 1.
Field Replaceable Units FRU Removal and Replacement Removable Media Devices There are only two removable media devices allowed in a B1000/C3000 computer: • CD Drive • 3.5-inch floppy disk drive. The procedures provided in the subsequent sections explain how to install and remove media devices. Installing a CD Drive Install the CD drive by following the procedure covered in this section. WARNING Turn the workstation off and unplug the power cord before installing the CD drive.
Field Replaceable Units FRU Removal and Replacement Figure 4-22. Removing the CD Drive Rear Cover Rear Cover Rear Cover Handle Audio Cable T-15 Torx/slotted Screw ATAPI Cable Power Cable 3. Rotate the system unit around until you see the front of the unit as shown in Figure 4-23. Figure 4-23. Front of System Unit with the Front Panel Removed LCD Display System Power Switch CD Drive Blank Floppy Disk Drive Blank 4.
Field Replaceable Units FRU Removal and Replacement Figure 4-24. Removing the CD Drive Bracket and Blank CD Drive Bracket Blank Bracket Blank Filler Screws (T-10 Torx Screws) Bracket Screws 5. Read the CAUTION statement at the beginning of this section. Next remove the CD Drive from its shipping container, and using the four T-10 screws mount the disk drive to the bracket as shown in Figure 4-24.
Field Replaceable Units FRU Removal and Replacement Figure 4-25. Installing the CD Drive CD Drive Bracket Guide CD Drive Blank Filler Screws CD Drive Bracket Runner Bracket Screws 6. Slide the CD Drive and its bracket into the system unit chassis as shown in Figure 4-25. There are runners on the side of each bracket and guides inside the CD Drive chassis that will help the assembly to slide into place. 7. Tighten the two CD Drive bracket screws as shown in Figure 4-26. Figure 4-26.
Field Replaceable Units FRU Removal and Replacement Figure 4-27. Plugging in the ATAPI and Power Cables Audio Cable ATAPI Cable Power Cable 9. Make sure that the ATAPI and power cables are positioned so that they come out of the bottom edge of the rear CD Drive cover. This edge is rounded to prevent cutting of the cables. See Figure 4-28. Next tighten the T-15 Torx screw. Figure 4-28. Replacing the Rear EMI CD Drive Cover T-15 Torx/Slotted Screw Rear Cover 10.
Field Replaceable Units FRU Removal and Replacement 1. Perform the procedures in the sections “Opening the System Unit Front Panel” and “Opening the Left Side Panel of the System Unit.” The front panel must be open to remove the CD Drive from the system chassis. The left side panel needs to be opened so you can get to the CD Drive’s ATAPI connector and its power connector. 2. Remove the CD Drive rear disk cover by unscrewing the T-15 Torx screw as shown in Figure 4-29.
Field Replaceable Units FRU Removal and Replacement mounting screws (T-10 Torx screws) as shown in Figure 4-31 and remove the CD Drive from the bracket. You are now ready to attach the CD Drive blank to the CD Drive bracket. Figure 4-31. Removing the CD Drive Bracket Guide CD Drive Bracket Runner CD Drive Mounting Screws CD Drive Bracket Bracket Screws 5. Insert the CD Drive blank in the CD Drive bracket and tighten the four CD Drive mounting screws to secure the blank.
Field Replaceable Units FRU Removal and Replacement Figure 4-32. Installing the CD Drive Blank Bracket Guide Blank Bracket Runner CD Drive Mounting Screws CD Drive Bracket Bracket Screws 6. Tighten the two CD Drive bracket screws as shown in Figure 4-33. Figure 4-33. Tightening the Bracket Screws Bracket Screw Bracket Screw 7. Place the ATAPI cable and power cables inside the CD Drive chassis, and position the cables so that they go under the bottom edge of the CD Drive’s rear cover.
Field Replaceable Units FRU Removal and Replacement cover’s edge is rounded to keep you from cutting the cables. Figure 4-34. Next, place the end opposite the rear cover handle into the cover slot and tighten the T-15 Torx screw to secure the rear cover. You have now completed the removal of the CD Drive. Figure 4-34.
Field Replaceable Units FRU Removal and Replacement Figure 4-35. Removing the Floppy Disk’s Rear Cover Rear Cover Rear Cover Handle Power Cable T-15 Torx/slotted Screw Floppy Data Cable 3. Rotate the system unit around until you see the front of the workstation as shown in Figure 4-36. Figure 4-36. Front of Workstation with the Front Panel Removed LCD CD Drive Blank Power Switch Floppy Drive Bank 4.
Field Replaceable Units FRU Removal and Replacement Figure 4-37. Removing the Floppy Disk Bracket and Blank Bracket Bracket Screw Blank Filler Screws Bracket Screw Blank 5. Read the CAUTION statement at the beginning of this section. Next remove the floppy disk drive from its shipping container, and using the four T-10 blank screws mount the disk drive to the bracket as shown in Figure 4-38.
Field Replaceable Units FRU Removal and Replacement Figure 4-38. Installing the Floppy Disk Drive Floppy Disk Drive Front Panel Floppy Disk Drive Mounting Screws (T-10 Torx Screws) Floppy Disk Drive Bracket Bracket Screws 6. Slide the floppy disk and its bracket into the system unit chassis as shown in Figure 4-38. 7. Tighten the two floppy bracket screws as shown in Figure 4-39. Figure 4-39. Tightening the Bracket Screws Bracket Screw (hidden) Bracket Screw 8.
Field Replaceable Units FRU Removal and Replacement Figure 4-40. Plugging in the Data and Power Cables Power Cable Data Cable 9. Verify that the data and power cables are positioned to come out of the top edge of the rear floppy cover. This edge is rounded to prevent cutting of the cables. See Figure 4-41. Next tighten the T-15 rear cover screw. Figure 4-41. Replacing the Rear Floppy Cover T-15 Torx/slotted Screw Power Cable Data Cable Floppy Rear Cover 10.
Field Replaceable Units FRU Removal and Replacement 2. Remove the floppy rear disk cover by unscrewing the T-15 Torx screw as shown in Figure 4-42. Note that the floppy’s rear cover is located on the rear of the removable media chassis inside the system unit. Push the cover handle away from the rear of the removable media chassis approximately one inch. Next pull the cover handle toward you. Remove the data and power cables from their connectors. Figure 4-42.
Field Replaceable Units FRU Removal and Replacement Figure 4-44. Removing the Floppy Disk Drive Floppy Disk Mounting Screw (four, T-10) Bracket Screw Floppy Disk Drive Floppy Disk Bracket 5. Place the floppy disk blank in the floppy disk bracket and insert the four floppy disk mounting screws into the bracket and tighten them. See Figure 4-45.
Field Replaceable Units FRU Removal and Replacement Figure 4-45. Installing the Floppy Disk Blank and Bracket Floppy Disk Bracket Bracket Screw Floppy Disk Mounting Screws (four, T-10) Floppy Disk Blank 6. Slide the floppy disk blank and its bracket into the system unit chassis as shown in Figure 4-45. 7. Tighten the two floppy disk bracket screws as shown in Figure 4-46.. Figure 4-46.
Field Replaceable Units FRU Removal and Replacement 8. Inspect and verify that the data and power cables are positioned to come out of the top edge of the rear floppy cover. This edge is rounded to prevent cutting of the cables. See Figure 4-47. Put the rear cover in place and tighten the T-15 rear cover screw. Figure 4-47. Replacing the Rear Floppy Cover Rear Cover T-15 Torx/slotted Screw Power Cable Data Cable Rear Cover Handle 9.
Field Replaceable Units FRU Removal and Replacement Hard Disk Drive This section describes installation and removal of hard disk drives in the B1000/C3000 workstation.The first subsection details how to install a hard drive, the second subsection details how to remove a hard disk drive and the final subsection describes how to configure the hard disk after it is installed. The B1000/C3000 workstations may have a maximum of two hard drives. The hard drive that came with the workstation was set to SCSI ID 6.
Field Replaceable Units FRU Removal and Replacement Figure 4-48. The Hard Drive Slots Hard Disk Drive Slots SCSI ID 5 SCSI ID 6 (Boot Disk) 2. Open the hard drive slot by pressing the plastic release hook upward and pulling outward on the release lever as shown in Figure 4-49. As you pull outward on the release lever the hard drive bracket will easily slide out of the slot.
Field Replaceable Units FRU Removal and Replacement Figure 4-49. Removing the Hard Drive Bracket Hard Disk Drive Bracket Two T-15 Torx Hard Disk Drive Mounting Screws (hidden) Plastic Release Hook Release Lever Two T-15 Torx Hard Disk Drive Mounting Screws 3. Mount the hard disk drive on the hard drive bracket using the four T-10 torx screws and rubber mounting grommets as shown in Figure 4-50.
Field Replaceable Units FRU Removal and Replacement Figure 4-50. Inserting the Hard Disk Drive Mounting Grommet (do not remove) T-15 Torx Shoulder Screw Hard Drive Bracket Plastic Release Hook Hard Disk Drive Release Lever Removing a Hard Disk Drive This procedure explains how to remove the hard disk drive. Note that there are no cables for you to worry about when removing a hard disk drive. 1.
Field Replaceable Units FRU Removal and Replacement Figure 4-51. The Hard Drive Slots Hard Disk Drive Slots SCSI ID 5 SCSI ID 6 2. Open the hard drive slot by pressing the plastic release hook upward and pulling outward on the release lever as shown in Figure 4-52.. As you pull outward on the release lever, the hard drive bracket will slide out of its slot. Figure 4-52.
Field Replaceable Units FRU Removal and Replacement 3. Remove the four T-15 Torx screws from the hard disk drive bracket. See Figure 4-53.. Figure 4-53. Removing the Hard Disk Drive from the Bracket Mounting Grommet (do not remove) T-15 Torx Shoulder Screw Hard Disk Drive Bracket Plastic Release Hook Plastic Release Lever Hard Disk Drive 4. Slide the assembly into its hard drive slot, and push inward on the release lever until the front of the hard dive bracket is flush with the system unit.
Field Replaceable Units FRU Removal and Replacement Figure 4-54.
Field Replaceable Units FRU Removal and Replacement DIMM Cards This section contains information regarding the installation and removal of memory (DIMM cards). Before continuing with this section, carefully read the following list of considerations: • Use the procedure described in “Displaying the Current Memory Configuration” on page 175 before attempting to install additional memory DIMMs in the workstation. • Review the steps involved in installing memory DIMMs before you begin.
Field Replaceable Units FRU Removal and Replacement 4. For ease in installation of additional memory the hard disk drive fan may need to be removed. See the section “Removing the Fan from the Hard Disk Drive Area” on page 110 in this chapter. 5. Load the DIMM cards in the slots using the loading sequence provided in Figure 4-56. Figure 4-56.
Field Replaceable Units FRU Removal and Replacement Figure 4-57. Installing Memory Cards Press down on ejector tabs to open Step 1 them and place the DIMM card in the connector so that your fingers are on the edge of the DIMM card. Notches Step 2 Black Ejector Tab Push the DIMM card down firmly and evenly into the connector to be sure it is properly seated. White Ejector Tab 7. Place the DIMM card in the connector, lining it up with the guides.
Field Replaceable Units FRU Removal and Replacement Figure 4-58. Propping Up the Power Supply Power Supply Disk/Memory Fan Fan Bracket DIMM Connectors 3. Prop up the system unit power supply as explained in the section “Propping Up the System Unit Power Supply” in this chapter. 4. For ease in removing memory cards, remove the fan from the hard disk drive chassis. See the section “Removing the Fan from the Hard Disk Drive Chassis” in this chapter. 5.
Field Replaceable Units FRU Removal and Replacement System Unit LCD This section describes how to remove and replace the B1000/C3000 workstation power switch/LCD assembly, which is located on the front panel. Removing the System Unit LCD To remove the LCD assembly, perform the following steps: 1. Open the system unit’s front panel as shown in the section “Opening the System Unit Front Panel.” 2. Unplug the LCD’s connector as shown in Figure 4-60. Figure 4-60.
Field Replaceable Units FRU Removal and Replacement 4. Replace the system unit’s front panel. This completes the installation of the system LCD assembly.
Field Replaceable Units FRU Removal and Replacement The System Board The system board contains the I/O section, computer main memory, CPU, and all of the circuitry and connections that control how the workstation’s hardware and operating system interact with each other. If any of the components on the system board are defective, you must remove the system board from the workstation chassis. The system board in the B1000/C3000 workstation is mounted on a tray.
Field Replaceable Units FRU Removal and Replacement Figure 4-61. Removing the System Board System Board Left Edge Right Edge 8. Fold back the workstation cables to avoid interference or damage. 9. Grasp the system board tray handle and slide the system board to the front of the workstation. The system board tray keyholes are unlatched from the chassis wall hooks. Lift the system board up then rotate to clear the top chassis hem and remove.
Field Replaceable Units FRU Removal and Replacement Figure 4-62. Installing the System Board Fan Power Connector Speaker Connector LCD Display Connector CD Power Connector CD Drive Connector Floppy Drive Connector Fan Power Connector Fan Power Connector Ultra2 Wide LVD SCSI Connector 2. Re-attach the cables described in step 7 of “Removing the System Board” on page 147 and replace the two T-15 Torx screws on the rear of the chassis. 3. Replace the following components: a. Power supply b.
Field Replaceable Units FRU Removal and Replacement Replacing the Battery The battery in the B1000/C3000 workstation is contained within the real time clock module, part number 1826-4269, on the system board. The component reference designation is U33 on the system board. Follow the steps below to replace the battery: 1. Close all open applications on the workstation then use the power button on the front panel to shut down. 2. Unplug the power cord from the workstation to disconnect all AC power.
5 Diagrams This chapter provides functional information about the B1000/C3000 workstations. The following block diagrams are intended as a guide to understanding the overall power distribution and the functional overview of the workstations.
Diagrams System Power System Power Figure 5–1 shows the system power distribution. Figure 5-1.
Diagrams Figure 5–2 shows the system unit block diagram. Figure 5-2.
Diagrams 154 Chapter 5
6 Boot Console Handler This chapter explains how to use the Boot Console Handler, which provides an interactive environment after the power-on sequence in HP Visualize B1000/C3000 workstations.
Boot Console Handler Here are the topics covered in this chapter: • Boot Console Handler Features • Accessing the Boot Console Handler • Booting the Workstation • Searching for Bootable Media • Resetting the Workstation • Displaying and Setting Paths • Displaying and Setting the Monitor type • Changing the Console to an External Terminal • Displaying the Current Memory Configuration • Display the Status of the System I/O • Setting the Auto Boot and Auto Search • Displaying and Setting the Security Mode • D
Boot Console Handler Boot Console Handler Features Boot Console Handler Features There are times when you want to interact directly with the hardware of your computer before it boots the operating system. The workstation provides a menu-driven boot console handler that allows you to perform special tasks, display information, and set certain system parameters, even if the operating system is unavailable.
Boot Console Handler Accessing the Boot Console Handler Accessing the Boot Console Handler If the workstation has crashed or power was turned off for some reason, press the power switch and proceed to step 3. Otherwise, to access the boot console handler, follow these steps: 1. Close any files and applications on your computer. 2. Press the power switch on the front panel of the workstation. NOTE There is no need to manually shut down the HP-UX operating system on your computer before powering it off.
Boot Console Handler Boot Console Menus Boot Console Menus The boot console menus follow, showing the various tasks you can perform and the available information. The shortened version of all commands is indicated by the uppercase letters. Help is available for all the menus and commands by typing either help, he or ? and the menu or command for which you want help.
Boot Console Handler Boot Console Menus Here are the menus: ---------------- Main Menu -----------------------------------------------Command Description -------------------------------------------BOot [PRI|ALT|] Boot from specified path PAth [PRI|ALT|CON|KEY|[] Display or modify a path SEArch [DIsplay|IPL] [] Search for boot devices COnfiguration [] INformation [] Service [] Access Configuration menu/commands Access Information menu/commands Access Service men
Boot Console Handler Boot Console Menus ------ Configuration Menu ----------------------------Command ------- Description ----------- AUto [BOot|SEArch][ON|OFF] BootID [] [] BootINfo BootTimer [0 - 200] CPUconfig [] [ON|OFF] DEfault FastBoot [ON|OFF] LanConfig [] MOnitor [LIST| ] PAth [PRI|ALT|CON|KEY] [] SEArch [DIsplay|IPL] [] SECure [ON|OFF] TIme [c:y:m:d:h:m:[s]] PreviousPower PreviousPower [ON|OFF] Display or set specified auto flag Display or mo
Boot Console Handler Boot Console Menus ------------- Information Menu -------------------------------------Command ------- Description ----------------------------- ALL BootINfo CAche ChipRevisions COprocessor FwrVersion IO LanAddress MEmory PRocessor WArnings Display Display Display Display Display Display Display Display Display Display Display BOot [PRI|ALT|] DIsplay HElp [
Boot Console Handler Boot Console Menus ------ Service Menu ----------------------------------Command ------- Description ------------------------------------ ChassisCodes [] CLEARPIM EepromRead [] {} MemRead [] [a] PCIDelay [] PDT [CLEAR] Display/enable/disable chassis codes Clear (zero) the contents of PIM Read EEPROM locations Read memory locations Display or set PCI delay value Display or clear the Page Deallocation Table PIM [ [HPMC|LPMC|TOC]] ScRoll [ON|O
Boot Console Handler Booting The Workstation Booting The Workstation In general the B1000/C3000 workstation is started by the power switch and HP-UX boots automatically. However, you may not always want the usual sequence to occur. For example, you may want to start the workstation from an operating system that is stored on a device that is different from the usual boot device.
Boot Console Handler Booting The Workstation Answering yes (Y) causes the ISL to be loaded from the specified device. After a short time, the following prompt appears on your screen: ISL> ISL is the program that actually controls the loading of the operating system. By interacting with ISL, you can choose to load an alternate version of the HP-UX operating system. If you do not want to interact with ISL, you must enter no (N). For example, if the usual kernel (/stand/vmunix) on your root disk (fwscsi.6.
Boot Console Handler Searching for Bootable Media Searching for Bootable Media To list devices that contain bootable media, follow the directions in “Accessing the Boot Console Handler” earlier in this chapter, and then type the following at the prompt and press Enter: Main Menu: Enter command > search ipl The search command searches all buses. The search may turn up more devices than there are lines on your display.
Boot Console Handler Resetting the Workstation Resetting the Workstation To reset your workstation to its predefined values, follow the directions in “Accessing the Boot Console Handler” earlier in this chapter, and then type the following at the prompt and press Enter: Main Menu: Enter command > co When the Configuration Menu appears, type the following at the prompt and press Enter: Configuration Menu: Enter command > default When the Configuration Menu appears, type the following at the prompt and press
Boot Console Handler Displaying and Setting Paths Displaying and Setting Paths A path is the hardware address of a device that is attached to the I/O system of your workstation. The path command sets the system paths shown in Table 6-1. The path command sets and displays the hardware address of a specified device attached to the I/O bus of your workstation. Table 6-1.
Boot Console Handler Displaying and Setting Paths Handler” earlier in this chapter, and then type the following at the prompt and press Enter: Main Menu: Enter command > path path_type path where path_type is one of the path types listed in Table 6-1. and path is the specification of the path in Mnemonic Style Notation (as described in Table 6-2.). For example, to set the primary boot path to a SCSI disk with an ID of 6.
Boot Console Handler Displaying and Setting the Monitor Type Displaying and Setting the Monitor Type The workstation ships from the factory preset to use a monitor with a specific resolution and frequency. If you replace your workstation’s monitor with a different type of monitor, you must reconfigure your workstation to support the new monitor. The Monitor Command The monitor command lets you change your workstation’s graphics configuration.
Boot Console Handler Displaying and Setting the Monitor Type Displaying the Current Monitor Configuration To display the current monitor configuration for your system from the Configuration Menu of the Boot Console Handler, follow the directions in “Accessing the Boot Console Handler” on page 158 in this chapter. Once you are in the Boot Console Handler Main Menu, type the following command and press Enter: Main Menu: Enter command> configuration This places you in the Configuration Menu.
Boot Console Handler Displaying and Setting the Monitor Type Setting the Monitor Type You can set the monitor type for a graphics adapter by typing the following at the prompt and pressing Enter: Configuration Menu: Enter command> monitor graphics(n) tt Where n is the number of the graphics adapter and tt is the monitor type.
Boot Console Handler Displaying and Setting the Monitor Type The boot console may display a message that tells you that your new monitor selection will take effect the next time you reboot your workstation. The boot console also displays the new monitor information.
Boot Console Handler Displaying and Setting the Monitor Type At this point, the new monitor type is active, but not saved. Because you didn’t save the monitor type, the next time you reboot the system the original monitor type will be used. Next, the following message is displayed: To select a new Graphics Monitor Type press the key now, otherwise EXIT by entering any other key (or will time out in 15 seconds)... To restart the monitor selection process, press Tab.
Boot Console Handler Displaying the Current Memory Configuration Displaying the Current Memory Configuration The following sample screen output uses the memory command to show a memory configuration table with properly-installed and configured memory. To display the current memory configuration for you system, from the Information Menu of the boot console handler, follow the directions in “Accessing the Boot Console Handler” on page 158.
Boot Console Handler Displaying the Current Memory Configuration Memory Information Sample The following sample shows the memory information when memory modules are properly installed and configured: MEMORY INFORMATION MEMORY STATUS TABLE Slot Size -----------0 256MB 1 256MB 2 128MB --------- Status -----Active Active Active TOTAL MEMORY = 640MB MEMORY FAULT TABLE Slot ----- Size ------ Status ------------ Active, Installed Memory Deallocated Pages : 640MB of SDRAM : 0 Pages -------------------------
Boot Console Handler Displaying the Status of the I/O slots Displaying the Status of the I/O slots The I/O command lets you identify all built-in I/O devices and optional I/O devices installed in the option slots. It is available in the Information Menu. To use the IO command from the Information Menu of the boot console, type the following command at the prompt and press Enter: Information Menu: Enter command> IO Information about the built-in and optional I/O devices is displayed.
Boot Console Handler Setting the Auto Boot and Auto Search Flags Setting the Auto Boot and Auto Search Flags The auto boot and auto search flags are variables stored in your workstation’s nonvolatile memory. (Non-volatile memory retains its contents even after power is turned off.) If you reset these flags to a new value, the change takes effect the next time you reboot the workstation. The auto boot flag boots the operating system whenever the workstation is turned on.
Boot Console Handler Displaying and Setting the Security Mode Displaying and Setting the Security Mode The secure flag is a variable stored in non-volatile memory. (Non-volatile memory retains its contents even after power is turned off.) If you reset this flag to a new value, the change takes effect the next time you reboot the computer. When the secure flag is set to on, auto boot and auto search are enabled and cannot be stopped.
Boot Console Handler Displaying and Setting Fastboot Mode Displaying and Setting Fastboot Mode When fastboot is enabled (set to on), the workstation does a quick check of the memory and skips some processor self tests during the power-on self tests. This enables the workstation to complete its boot process quicker. The default factory setting is for fastboot to be enabled (set to on).
Boot Console Handler Displaying and Setting the LAN Station Address Displaying and Setting the LAN Station Address It is sometimes necessary to supply the LAN station address of the workstation to other users. For example, if the workstation is to become a member of a cluster, the cluster administrator needs to know your LAN station address in order to add your workstation to the cluster. Note that the LAN station address can be determined using the Boot Console Handler Information Menu.
Boot Console Handler Displaying System Information Displaying System Information The all command allows you to display the system’s processor revision and speed, cache size, memory size, flag settings, and the boot and console paths. To display system information from the Information Menu, type the following at the prompt and press Enter: Information Menu: Enter command> all This information is paged to allow you to view it as necessary, unless the ScRoll command has been used to disable scrolling.
Boot Console Handler Displaying PIM Information Displaying PIM Information The pim command allows you to display the most recent PIM information for the specified fault type.
Boot Console Handler Stable Storage Stable Storage Stable storage is non-volatile memory associated with the PA-RISC processor module.
Boot Console Handler ISL Environment ISL Environment The ISL environment provides the means to load the operating system (HP-UX) environment. The ISL environment also provides an offline platform to execute optional diagnostic and utility programs from a boot device when HP-UX does not load. The ISL program is the first program loaded into main memory from an external medium (LAN, disk, or tape) and launched by the initial program loader (IPL) routine from the Boot Administration environment.
Boot Console Handler ISL Environment • display - displays the boot and console paths in Stable Storage and the current setting of the ISL Boot Flags. • primpath - modifies the primary boot path entry in Stable Storage. The entry in Stable Storage for the primary boot device begins at byte address 0 and ends at byte address 31. • altpath - modifies the alternate boot path entry in Stable Storage. The entry for the alternate boot device begins at byte address 128 and ends at 159.
Boot Console Handler Obtaining and Updating System Firmware Obtaining and Updating System Firmware To update a system’s firmware, the firmware patch must be obtained from the patch server website at http://us-external_support.hp.com or http://europe-external_support.hp.com. The patch file is a combined shar’ed file that contains an ASCII cataloging file, a readme type ASCII file, and the firmware LIF binary file.
Boot Console Handler Obtaining and Updating System Firmware NOTE This process is automatic and requires no interaction until directed to do so. Please do not interrupt the process. The load process will take about 2 minutes. Step 5. A warning message will be issued, followed by "Continue ([y]/n)?” type y and press Enter if you wish to continue. Be sure the image on the tape is a newer version than that on your system before proceeding.
Boot Console Handler Obtaining and Updating System Firmware launch IPL other ISL Revision A.00.
Boot Console Handler Obtaining and Updating System Firmware Cannot get module’s product string. Continuing Please wait while I examine the LIF for F/W files: Done. Type HELP for command information. File Name | Intended Product | Version ------------+--------------------------------+---------PDC | Forte/Allegro Firmware (PDC) | 1.
A Product Specifications This appendix lists the regulatory specifications, safety requirements, environmental specifications, and electrical specifications for the HP VISUALIZE B1000/C3000 workstations.
Product Specifications Regulatory and Safety Statements Regulatory and Safety Statements This section lists the regulatory and safety statements for the B1000 and the C3000 workstations.
Product Specifications Regulatory and Safety Statements Appendix A 193
Product Specifications Regulatory and Safety Statements Emissions Regulations Federal Communications Commission (FCC) This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules and Canadian Department of Communications. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
Product Specifications Regulatory and Safety Statements Figure A-1. VCCI Class B ITE (Japan) Figure A-2. RRL Class A EMI (Korea) Figure A-3.
Product Specifications Regulatory and Safety Statements responsibility and liability arising therefrom. Acoustics Regulation On Noise Declaration For Machines -3. GSGV Lpa <70dB Lpa <70dB operator position am Arbeitsplatz normal operation normaler Betrieb per ISO 7779 nach DIN 45635 T.19 Laser Safety Statement (U.S.A.) (For workstations that have a CD drive installed.) The CD-ROM mass-storage system is certified as a Class 1 laser product under the U.S.
Product Specifications Regulatory and Safety Statements Warnings pa Appendix A 197
Product Specifications Environmental Specifications Environmental Specifications Acoustics Deskside: 4.7 bels typical @ 25˚ C 4.9 bels typical @ 30˚ C Altitude Operating: 0-10,000 ft. above sea level (0-3000m) Non-operating (storage or shipping): 0-15,000 ft.
Product Specifications Environmental Specifications Vibration Operating random: 0.21 Grms, 5-500 Hz Swept sine survival (shipping): 0.5 G (0-peak), 5-500 Hz Random survival (shipping): Appendix A 2.
Product Specifications Electrical Specifications Electrical Specifications Input Power For B1000 and C3000 workstations: 7.4 Amps RMS max @ 100V 6.2 Amps RMS max @ 120V 3.8 Amps RMS max @ 200V 3.
B SCSI Connections This appendix provides information about connecting Small Computer System Interface (SCSI) devices to an HP VISUALIZE B1000/C3000 workstation.
SCSI Connections The following topics are covered within this section: • SCSI bus differences • SCSI restrictions • Determining SCSI bus length • Assigning SCSI device IDs • Connecting to the SCSI ports If you are on a B1000/C3000 workstation, the instructions in this chapter assume you are using HP-UX 10.20 operating system and Workstation Additional Core Enhancements for HP-UX 10.20 (June 1999) with HP CDE (Common Desktop Environment).
SCSI Connections SCSI Bus Differences SCSI Bus Differences A Small Computer Systems Interface (SCSI) bus is an IEEE standard bus for connecting your workstation to internal and external devices (SCSI devices) running at different speeds. There may be one device connected to the external SCSI port or more than one device may be daisy chained to a single external SCSI port. Examples of SCSI devices are 4-mm DDS-format tape drives and hard disk drives.
SCSI Connections SCSI Restrictions SCSI Restrictions This section describes the SCSI restrictions that apply to your workstation in the following areas: • Cables • Terminators • Number of Devices Per SCSI Bus • Considerations for Selecting SCSI Devices NOTE The Ultra Narrow, single-ended SCSI bus supports only 7 devices because address 7 is reserved by the system. The Ultra2 Wide, Low-Voltage Differential SCSI bus supports 15 devices because address 7 is reserved by the system.
SCSI Connections SCSI Restrictions HP offers the following SCSI cables for connecting externally connected devices to the system Ultra2 Wide Low-Voltage Differential port: Table B-3. Ultra2 Wide Low-Voltage Differential SCSI Cables Cable Number Cable Length Description C2978A 0.5m 68-pin HDTS1 to 68-pin HDTS C2979A 1.5m C2911B 1.0m C2924B 2.5m C2361A 1.0m C2362A 2.5m C2363A 10.0m C2365A 5.0m 68-pin VHDCI2 to 68-pin HDTS 1. High Density Thumbscrew (HDTS) 2.
SCSI Connections SCSI Restrictions Terminators The terminators for Ultra2 Wide Low-Voltage Differential SCSI (LVD SCSI) and Ultra Narrow Single-Ended SCSI (NSE SCSI) are different. The NSE SCSI terminator has 50 pins and will fit on an NSE SCSI connector. The LVD SCSI terminator has 68 pins and will fit on a LVD SCSI connector. Note that these SCSI terminators were shipped with your system. CAUTION It is necessary to put a terminator on unused SCSI connectors on the back panel of the system.
SCSI Connections SCSI Restrictions higher performance SCSI bus than previous SCSI buses and is more sensitive to adherence to the electrical specifications. Low-voltage differential signaling specifications are described in the SCSI Parallel Interface-2 (SPI-2) document and in the Electrical Characteristics of Low Voltage Differential Signaling (LVDS) Interface Circuits TIA/EIA-644 document.
SCSI Connections SCSI Bus Length Constraints SCSI Bus Length Constraints This section discusses SCSI bus length constraints for the Ultra Narrow Single-Ended SCSI bus and the Ultra2 Wide Low-Voltage Differential SCSI bus. Ultra Narrow Single-Ended SCSI Bus Length The maximum cable length for a Ultra Narrow Single-Ended SCSI bus is 3 meters. The HP VISUALIZE B1000/C3000 system uses a negligible amount of this maximum cable length.
SCSI Connections SCSI Bus Length Constraints NOTE Appendix B When calculating the total Ultra2 Wide Low-Voltage Differential SCSI cable/bus/trace length used externally, remember to account for cables connecting external devices together as well as the bus length internal to those devices.
SCSI Connections Assigning SCSI Device IDs Assigning SCSI Device IDs Before assigning a SCSI device ID to your drive, you need to check the existing SCSI device IDs. To determine which SCSI device IDs are available for your device, use the ioscan command in a terminal window: 1. At a command line prompt, enter the following: /usr/sbin/ioscan -f After a few moments, the ioscan utility lists all of the SCSI I/O devices it could find.
SCSI Connections Assigning SCSI Device IDs Assigning Ultra Narrow Single-Ended SCSI Device IDs You can determine which Ultra Narrow Single-Ended SCSI (NSE SCSI) devices are currently in use by reviewing the output from the ioscan command discussed above and looking under the “H/W Path” heading. The entry 10/0/15/0 is the built-in Ultra Narrow Single-Ended SCSI bus.
SCSI Connections Connecting to the SCSI Ports Connecting to the SCSI Ports This section describes how to connect to the system SCSI ports (Ultra Narrow Single-Ended and Ultra2 Wide Low-Voltage Differential). System SCSI Port Connection The system contains two SCSI connectors: • Ultra Narrow, Single-Ended SCSI (NSE SCSI) connector • Ultra2 Wide Low-Voltage Differential SCSI (LVD SCSI) connector Figure B-1 shows the two SCSI connectors.
SCSI Connections Connecting to the SCSI Ports NOTE Appendix B It is necessary to put a terminator on unused SCSI connectors on the rear panel, or the last device connected to the SCSI bus. Terminators are shipped with the system. Only use a NSE SCSI terminator for the NSE SCSI bus and a FW LVD terminator for the FW LVD SCSI bus.
SCSI Connections Connecting to the SCSI Ports 214 Appendix B
C Related Documentation This appendix provides part numbers and titles to related documentation.
Related Documentation Installation Manual • A4985-90010 - HP VISUALIZE B1000/C3000 Installation Card Service Manuals • B2355-90040 - System Administration Tasks Manual HP 9000 Series 700 • B3782-90176 - Support Media User’s Manual • A4033-90099 - HP A4032/A4033 Color Monitors CE Handbook Reference Manuals • A5992-90001 - HP VISUALIZE B1000/C3000 Owner’s Guide 216 Appendix C
Glossary A absolute pathname The full pathname of a file, including all the directories leading to it, starting with the root directory (“/”) and ending with the filename itself See also file, filename, pathname. access permissions Settings that allow (or prevents) a user or group of users to read, write, or execute files See also file access permissions. active window The window that is receiving input from the keyboard at the present time. If there is no active window, anything you type is lost.
Glossary diskless workstations. See also boot ROM. boot console handler The interactive firmware that enables you to interact with the hardware of your workstation before the workstation boots the operating system. The boot console interface allows you to perform special tasks, display information, and set certain system parameters.
Glossary uses removable CD-ROM disks. The drive contains a semiconductor laser for reading data optically and an embedded controller. Central Processing Unit (CPU) The part of a workstation that interprets and executes instructions; the “brain.” child directory subdirectory. See click To press and immediately release a mouse button. The term comes from the fact that pressing and releasing most mouse buttons makes a clicking sound. Compare drag and drop.
Glossary command interpreter A program that reads lines of text from standard input (typed at the keyboard or read from a file) and interprets them as requests to execute commands or programs. An HP-UX command interpreter is called a shell. See also shell. commands. To enter a control key sequence, hold down the “Ctrl” key while pressing another key. cpu See Central Processing Unit. current directory working directory.
Glossary daisy-chaining A method of connecting devices in which the signal passes from one device to the next in serial fashion along a bus. DDS tape drive A device that stores data on Digital Data Storage (DDS) cassettes. default Most commands give you a choice of one or more options. If you don’t specify an option, the command automatically assigns one. This automatic option is called the “default.” See also command option.
Glossary hence the pointer on the screen) while holding down one or more of its buttons. This process specifies two separate locations on the screen for those operations that require two: the location when the mouse button is pressed, and the location when it is released. This is used, for example, to initiate a file-copy by pressing the mouse button on the file to be copied, dragging the file’s icon to the destination window, and releasing the mouse button there.
Glossary that runs at 20 Mbytes/second, which allows a cable length of up to 3 meters and a transfer rate of up to 20MB per second See also Ultra2 Wide Low-Voltage Differential SCSI, Small Computer System Interface. file The basic named unit of data stored on disk See also directory, filename. file access permissions The access rights given to a particular file or directory.
Glossary hard disk drive A device that stores data on a hard disk. The hard disk can be a permanent part of the drive and thus be unremovable, or it can be removable. If it is removable, it is contained in a protective cover that is opened by the drive when access is needed. Help Manager The HP CDE application that provides online help. Desktop Environment.
Glossary into an icon See also icon. Initial System Loader The program that actually controls the loading of the operating system. input device Any of several pieces of hardware equipment used to give information to a system. Examples include the keyboard and the mouse See also output device. input window The window that displays a program’s prompt and any commands typed but not yet executed. three-digit decimal integer between 0 and 255, inclusive, in which leading zeroes are optional.
Glossary the system substitutes the pathname that the link contains. link, v. To establish a relationship between two objects such that one of the objects contains only the information required to associate it with the other, “real,” object. local area network (LAN) A data communications system that allows a number of independent devices to communicate with each other. The systems and clusters that share data, hardware, and software resources via Networking Services software.
Glossary mouse pointer See pointer. N name A character string associated with a file, directory, or link. A name can include various alphanumeric characters, but never a slash (/) or null character See also pathname. network Two or more workstations sharing information See also cluster, workstation. network controller A printed circuit board that passes bit streams between the network and the main memory of the workstation.
Glossary command. object. P permissions A set of rights (read, write, execute) associated with an object in the file system. Determines who may use the object and how. parent directory A directory that contains other directories, each of which is then called a subdirectory See also subdirectory. password The secret word you enter next to the password prompt at login time to permit only authorized access.
Glossary execute programs; a program currently running in the system. R-S RAM Random-access memory. process ID A unique identification number assigned to all processes by the operating system. Also referred to as a PID See also PID. processor internal memory.
Glossary shell command An instruction you give the system to execute a utility program or shell script See also shell script, utility program. shell script A file that contains commands that the system can interpret and run in a shell. shutdown The process of taking the system from multi-user state to system administration state. slider One of the components of a scroll bar.
Glossary as user root, or by typing su (switch user) at a command-line prompt. You must know the root password to become root. the window frame, that contains the title of the window object. system administrator The person responsible for system and network installation, updating, maintenance, and security at your site. transceiver A device that transmits and receives signals. system call Invocation of a kernel process by a user program. system name See internet protocol address.
Glossary organization is authorized use See also user ID, password. user ID The name the computer uses to identify you. Your system administrator assigns you a user ID. Enter your user ID during the login procedure when the system displays the login prompt See also user account. username The name that the system recognizes as uniquely yours. Also known as your “login name.” The username is also the name that identifies you to the mail system and other software requiring secure entry.
Glossary capacity. A workstation usually includes a keyboard, a monitor, and a system unit See also node, disked workstation, diskless workstation.
Index Symbols $HOME, 224 A absolute pathname, 217 active window, 217 ANSI, 217 argument, 217 attachment unit interface (AUI), 217 B B1000/C3000 acoustics, 196 declaration of conformity, 193 electrical specifications, 200 emissions regulations, 194, 195 environmental specifications, 198 laser statements, 196 LEDs, 196 main components, 89 product description, 19 regulatory statements, 192 safety statements, 192 video statement, 194 warnings, 197 back up, 217 battery, 150 bitmap, 217 boot command notations, 5
Index CD Drive, 42 floppy disk drive, 42 FRU, 38 hard disk drive SAM, 40 hard disk drive, 38 I/O cards, 45 memory, 43 workstation, 37 configuration, 220 control key sequence, 220 cpu, 220 CRX color graphics, 220 current working directory, 220 cursor, 220 D daisy-chaining, 220 DDS tape drive, 221 default, 221 Diagrams, 151 functional block, 153 system power, 152 dialog box, 221 DIMM card slot numbering, 142 memory failures, 34 memory, 34 directory, 221 disk, 221 disked workstation, 221 diskette, 221 diskles
Index removable media, 117 removal and replacement, 97 speaker, 114 system board installation, 148 system board, 147 system fans, 111 H hard disk drive, 134 hard disk drive, 223 hard disk, 223 HCRX color graphics, 224 home directory, 224 host name, 224 host, 224 HP Visual User Environment, 224 HP VUE, 224 HP-UX cluster, 224 I I/O slot numbering, 106 icon, 224 iconify, 224 iconize, 224 Initial System Loader, 225 input device, 225 input window, 225 internet protocol address, 225 invisible filename, 225 IP ad
Index nonvolatile memory, 227 O object, 227 Operating System overview, 33 operating system, 227 option, 227 output device, 227 output window, 227 P parent directory, 227 partner node, 228 path, 228 pathname, 228 PID, 228 PIM, 183 pointer, 228 Power switch automatic shutdown, 22 soft power down procedure, 22 process ID, 229 process, 228 Product description, 19 Product specifications, 191 program, 229 prompt, 229 push button, 229 R RAM, 229 real time clock, 150 Rear Panel Connectors, 25 audio connectors, 26
Index Small Computer System Interface (SCSI),230 standalone, 230 Storage Device controls and features, 22 Storage device CD drive, 23 floppy disk drive, 24 Style Manager, 230 subdirectory, 230 superuser, 231 system administrator, 231 system board, 147 system call, 231 system name, 231 T terminal window, 231 title bar, 231 troubleshooting, 49 boot failure, 57 bootable device, 52 bootable media, 58 chassis codes, 61 console, 51 fan failures and warnings, 55 HP-UX Boot, 53 LCD, 54 ODE, 86 selftest failures, 6