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User Service Guide

HP Integrity rx4640 Server

Manufacturing Part Number: A6961-96013-ed2

Second Edition

November 2008

Summary of content (197 pages)

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Legal Notices Copyright Notices. © Copyright 2006-2008 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.
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Contents About This Document Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . New and Changed Information in This Edition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Publishing History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Document Organization. . . . . . . . . . . . .
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Contents 4. Removing and Replacing Components Safety Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Service Tools Required. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Accessing a Rack Mounted Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Contents PCI Slot Locations and Configurations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 Removing and Replacing the SCSI Core I/O Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86 Removing and Replacing the LAN Core I/O Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88 Removing and Replacing the Server Battery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Contents QuickFind Diagnostic Panel LED Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . I/O Baseboard LED Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Power Supply Status LED Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iLO MP LAN Port Link/Activity LED Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Contents Extensible Firmware Interface Boot Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . EFI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . EFI/POSSE Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . help . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Contents 8
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Tables Table 1. Publishing History Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Table 2. HP-UX 11i Releases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 Table 1-1. Server Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Table 3-1. Power States . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Tables 10
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Figures Figure 1-1. HP Integrity rx4640 Server with Front Bezel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 1-2. HP Integrity rx4640 Server (front view with bezel removed) . . . . . . . . . . . . . . . . . . . . Figure 1-3. HP Integrity rx4640 Server (rear view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 2-1. Front View with Bezel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Figures Figure 4-30. Slot ID Numbering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 Figure 4-31. SCSI I/O Card Latch Location. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86 Figure 4-32. Inserting SCSI I/O Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87 Figure 4-33. LAN I/O Card Latch Location . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Figures 13
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Figures 14
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About This Document This document provides information and instructions on servicing and troubleshooting the HP Integrity rx4640 server. Document updates may be issued between editions to correct errors or document product changes. To ensure that you receive the updated or new editions, you should subscribe to the appropriate product support service. See your HP sales representative for details. The latest version of this document can be found on the HP website at: http://www.docs.hp.com.
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Document Organization This guide is divided into the following chapters. Chapter 1 Introduction Use this chapter to learn about the features and specifications of the HP Integrity rx4640 server. Chapter 2 Controls, Ports, and LEDs Use this chapter to learn about the locations of the external controls, ports, and LEDs on the server. Chapter 3 Powering Off and Powering On the Server Use this chapter to learn about powering the server off and on.
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Command A command name or qualified command phrase. Option An available option. Screen Output Example of computer screen output. [ ] The contents are optional in formats and command descriptions. If the contents are a list separated by |, you must select one of the items. { } The contents are required in formats and command descriptions. If the contents are a list separated by |, you must select one of the items. ... The preceding element may be repeated an arbitrary number of times.
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Website for HP Technical Support: http://us-support2.external.hp.com/ Books about HP-UX Published by Prentice Hall The http://www.hp.com/hpbooks/ website lists the HP books that Prentice Hall currently publishes, such as HP-UX books including: • HP-UX 11i System Administration Handbook http://www.hp.com/hpbooks/prentice/ptr_0130600814.html • HP-UX Virtual Partitions http://www.hp.com/hpbooks/prentice/ptr_0130352128.
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1 Introduction The HP Integrity rx4640 server is a 4-processor/8-core IPF rack-mount server based on the Itanium2 processor family architecture. The supported operating systems include HP-UX, Windows, Linux, and OpenVMS. The server accommodates up to 32 DIMMs and internal peripherals; including two hard disk drives, and a DVD. Its high availability features include hot-swap fans and 200-240 VAC power supplies, hot-plug disk drives, and hot-plug PCI-X cards.
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Introduction Server Overview Server Overview The HP Integrity rx4640 server is a 4U high Electronics Industry Association (EIA) enclosure, which mounts in any standard 19” EIA rack. All external cabling enters and exits from the rear of the enclosure. With the server installed in the rack, service access is enhanced by the use of chassis slides. It has bays to accommodate 1 + 1 redundant, hot-swappable power supplies, accessible from the rear of the enclosure.
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Introduction Server Dimensions and Weight Figure 1-2 HP Integrity rx4640 Server (front view with bezel removed) Figure 1-3 HP Integrity rx4640 Server (rear view) Server Dimensions and Weight Table 1-1 shows the dimensions and weight of the HP Integrity rx4640 server. Table 1-1 Dimensions Server Dimensions Value Height 17.46 cm (6.87 in.) Width 44 cm (17.32 in.) Depth (63.8 cm (25.1 in.
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Introduction Server Components Server Components The following components comprise the HP Integrity rx4640 server. Processors The following processors are available for the rx4640 server: • 1.6 GHz / 18 MB cache • 1.6 GHz / 24 MB cache These processors are dual core processors. The processor configuration options are 1-processor/2-core (1p/2c), 2p/4c, 3p/6c, or 4p/8c.
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Introduction Server Components • Two 10/100/1000Base-T ethernet LAN port • One 10/100 integrated Lights Out Management Processor (iLO MP) LAN port • One VGA port Power Supply Unit • 1200 W output power • Redundant and hot-swap power supplies Motherboard Manageability • Baseboard Management Controller (BMC) • Temperature monitoring and fans regulation by BMC • Includes diagnostic panel LED display that shows server health • Hardware diagnostics by BMC displayed by diagnostic panel LED • IP
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Introduction Supported Operating Systems Supported Operating Systems The following operating systems are supported on the entry-class HP Integrity servers: • HP-UX 11i Version 2 (B.11.23) • HP OpenVMS I64 • Microsoft® Windows® Server 2003 • Red Hat Enterprise Linux 4 • SuSE Linux Enterprise Server 10 For more operating system information, see Appendix B, “Booting the Operating System,” on page 141.
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2 Controls, Ports, and LEDs This chapter describes the controls, ports, and LEDs found on the front panel, rear panel, and internal locations of the HP Integrity rx4640 server. This chapter addresses the following topics: • “Front Panel Controls, Ports, and LEDs” on page 26. • “Rear Panel Controls, Ports, and LEDs” on page 28. • “Internal Controls, Ports, and LEDs” on page 31.
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Controls, Ports, and LEDs Front Panel Controls, Ports, and LEDs Front Panel Controls, Ports, and LEDs The front panel of the HP Integrity rx4640 server provides the controls and indicators commonly used for operation. Figure 2-1, Figure 2-2, and Figure 2-3 show the controls, ports, and LEDs on the front panel and control panel.
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Controls, Ports, and LEDs Front Panel Controls, Ports, and LEDs Figure 2-3 Control Panel LEDs Server LED Power LED Power button ToC/NMI button Disk LED Thermal LED Locator button/LED NOTE For troubleshooting information regarding control panel LEDs, see “Front Control Panel LED Indicators” on page 117. Hard Disk Drive LED Indicators The hot-swap disk drives have two LEDs per drive, as described below. Figure 2-4 shows the hard disk drive LEDs.
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Controls, Ports, and LEDs Rear Panel Controls, Ports, and LEDs DVD/DVD-R/DVD-RW Drives The HP server is delivered with one DVD drive (DVD-R and DVD-RW optional). Each of these devices has one activity LED. Figure 2-5 shows the location of the DVD LEDs. Figure 2-5 DVD–ROM Drive Eject Button Activity LED Emergency Eject For troubleshooting information regarding the DVD LEDs, see “DVD/DVD-R/DVD-RW Drive LED Indicators” on page 118.
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Controls, Ports, and LEDs Rear Panel Controls, Ports, and LEDs Power Supply Status LEDs Each 200-240 VAC power supply unit has three status LEDs located on the power supply accessible from the rear panel. Consolidated status of all power supplies is reported by the front control panel by the power status LED. Figure 2-7 shows the location of the power supply status LEDs on the rear of the enclosure.
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Controls, Ports, and LEDs Rear Panel Controls, Ports, and LEDs NOTE For troubleshooting information regarding the iLO MP LAN LEDs, see “iLO MP LAN Port Link/Activity LED Display” on page 123. Locator LED and Button An LED and button is provided on the rear panel of the server. Another single blue LED and button is on the front control panel that enables/disables the locator function. See Figure 2-8 for the location of the locator button.
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Controls, Ports, and LEDs Internal Controls, Ports, and LEDs Internal Controls, Ports, and LEDs The HP Integrity rx4640 server contains internal controls, switches, and LEDs inside the server. This includes a diagnostic LED panel located under the top panel; and reset buttons, switches, and LEDs located on the I/O baseboard. QuickFind Diagnostic Panel The QuickFind diagnostic panel has 58 single color LEDs and one multi-color LED for temperature. The LEDs are normally off.
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Controls, Ports, and LEDs Internal Controls, Ports, and LEDs I/O Baseboard LED Indicators There are various LEDs, sensors, reset, and attention buttons located on the HP Integrity rx4640 server I/O baseboard. They are shown in Figure 2-11. Figure 2-11 I/O Baseboard LEDs, Buttons, and Sensors Battery 3.
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3 Powering Off and Powering On the Server This chapter provides information and procedures for powering off and powering on the server. This chapter addresses the following topics: • “Power States” on page 34. • “Powering Off the Server” on page 34. • “Powering On the Server” on page 35.
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Powering Off and Powering On the Server Power States Power States The server has three power states: • Standby power • Full power • Off Plug the power cord into the appropriate receptacle on the rear of the chassis to achieve the standby power state; the front panel power button is not turned on. Full power occurs when the power cord is plugged into the appropriate receptacle, and either the power is activated through the iLO MP PC command, or the power button is activated.
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Powering Off and Powering On the Server Powering On the Server Step 4. Enter PC to use the remote power control command. Step 5. Enter OFF to power off the server, and enter YES when prompted to confirm the action. IMPORTANT The main dc voltage is now removed from the server; however, ac voltage for standby power is still present in the server. Step 6. Unplug all power cables from the receptacles on the rear panel of the server.
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Powering Off and Powering On the Server Powering On the Server Step 6. Start the operating system. See Appendix B, “Booting the Operating System,” on page 141, or your operating system documentation for more information. Powering On the Server Manually NOTE If the power restore feature is set to Always On through the iLO MP PR command, the server may automatically power on to the full power state. To manually power on the server, follow these steps: Step 1.
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4 Removing and Replacing Components This chapter describes the procedure for removing and replacing the different components in the HP Integrity rx4640 server.
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Removing and Replacing Components Safety Information Safety Information Follow the procedures listed below to ensure safe handling of components and to prevent harm to both you and the HP server: • Use an antistatic wrist strap and a grounding mat, such as those included in the Electrically Conductive Field Service Grounding Kit (HP 9300-1155). • Handle accessory boards and components by the edges only. Do not touch any metal-edge connectors or any electrical components on accessory boards.
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Removing and Replacing Components Accessing a Rack Mounted Server Extending the Server from the Rack NOTE Ensure that there is enough area (Approximately 1.5 meters [4.5 ft.]) to fully extend the server out the front and work on it. To extend the server from the rack, follow these steps: Step 1. Remove the T-25 screws that fasten the server to the rack. See Figure 4-1, “Accessing 25MM Torx Screws.” Step 2.
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Removing and Replacing Components Accessing a Pedestal Mounted Server Accessing a Pedestal Mounted Server The HP Integrity rx4640 server is also designed to be pedestal mounted. You do not need to remove the pedestal from the HP server to gain access to internal components. The front bezel, front cover, and top cover may be removed with the pedestal attached to the HP server. WARNING Figure 4-2 40 Ensure that the HP server is properly grounded when performing remove-and-replace procedures.
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Removing and Replacing Components Removing and Replacing the Front Bezel Removing and Replacing the Front Bezel The server does not have to be turned off to remove the front bezel. Figure 4-3 shows how to remove the front bezel. Figure 4-3 Removing and Replacing the Front Bezel Removing the Front Bezel To remove the front bezel, perform the following step: Step 1. Grasp the front bezel at the outer edges and pull straight out.
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Removing and Replacing Components Removing and Replacing the Front and Top Covers Removing and Replacing the Front and Top Covers The following procedures detail how to remove and replace the front and top covers of the HP Integrity rx4640 server. Figure 4-4 shows how to remove the front cover. NOTE Figure 4-4 When the front or top cover is removed the chassis fan units increase to high speed to assist cooling.
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Removing and Replacing Components Removing and Replacing the Front and Top Covers Replacing the Front Cover To replace the front cover, follow these steps: Step 1. Align the tabs at the rear of the front cover with the corresponding slots in the chassis and fully seat the tabs into the slots. Figure 4-4 shows how to install the front cover. Step 2. Tighten the four thumbscrews securely. Step 3. Replace the front bezel. See “Replacing the Front Bezel” on page 41. Step 4.
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Removing and Replacing Components Removing and Replacing the Memory Extender Board Replacing the Top Cover To replace the top cover, follow these steps: Step 1. Align the tabs at the rear of the top cover with the corresponding slots in the chassis, fully seat the tabs into the slots, and push forward until it seats. Step 2. Using a torx T15 driver, tighten the two thumbscrews securely. Step 3. If rack mounted, slide the HP server into the rack until it stops.
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Removing and Replacing Components Removing and Replacing the Memory Extender Board Step 4. Press each latch on the two extraction levers located on each side of the memory extender board. Figure 4-6 shows how to unlatch the memory extender board. Figure 4-6 Opening the Memory Extender Board Latches Step 5. Pull on the extraction levers to unplug the memory extender board from the socket located on the midplane riser board and remove the memory extender board from the chassis.
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Removing and Replacing Components Removing and Replacing Server Memory DIMMs Replacing the Memory Extender Board To replace the memory extender board, follow these steps: Step 1. Ensure the extraction levers are positioned in the outward, unlocked position. Figure 4-7 shows how to install the memory extender board. Step 2. Align the memory extender board with the front and rear chassis guide slots. Step 3.
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Removing and Replacing Components Removing and Replacing Server Memory DIMMs NOTE If desired, the processor extender board may be removed without removing the HP server from the rack. Step 2. Remove the front bezel. See “Removing the Front Bezel” on page 41. Step 3. Remove the front cover. See “Removing the Front Cover” on page 42. Step 4. Remove the memory extender board. See “Removing the Memory Extender Board” on page 44. Step 5.
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Removing and Replacing Components Removing and Replacing Server Memory DIMMs Step 4. Replace the front cover. See “Replacing the Front Cover” on page 43. Step 5. Replace the front bezel. See “Replacing the Front Bezel” on page 41. Step 6. If rack mounted, slide the HP server into the rack until it stops. See “Inserting the Server into the Rack” on page 39.
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Removing and Replacing Components Removing and Replacing Server Memory DIMMs 16 DIMM Memory Extender Board Layout The following details the slot locations, quads, and slot filler requirements on the 16 DIMM memory extender board. Figure 4-9 shows the slot locations on the 16 DIMM extender board. Figure 4-9 1D 1C 16 DIMM Extender Board Slot IDs 3C 3D 3A 3B 1B 1A 0D 0C 2C 2D 2A 2B 0B 0A Table 4-1 details the quads on the 16 DIMM memory extender board.
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Removing and Replacing Components Removing and Replacing Server Memory DIMMs Table 4-2 details the slot filler requirements when installing DIMMs on the 16 DIMM memory extender board.
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Removing and Replacing Components Removing and Replacing Server Memory DIMMs Table 4-3 details the quads on the 32 DIMM memory extender board.
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Removing and Replacing Components Removing and Replacing the Processor Extender Board Removing and Replacing the Processor Extender Board The processor extender board is located directly under the memory extender board. The processor extender board can hold between one and four processors. WARNING Ensure that the server is powered down and all power sources have been disconnected from the server prior to removing or replacing the processor extender board.
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Removing and Replacing Components Removing and Replacing the Processor Extender Board Step 4. Press the latch on the extraction levers located on each side of the processor extender board. Figure 4-11 shows how to open the processor extender board latches. Figure 4-11 Opening the Processor Extender Board Latches Step 5. Pull out on the extraction levers to unplug the processor extender board from the socket located on the midplane riser board.
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Removing and Replacing Components Removing and Replacing the Processor Extender Board Replacing the Processor Extender Board To replace the processor extender board, follow these steps: Step 1. Ensure the extraction levers are positioned in the outward, unlocked position. Step 2. Align the processor extender board with the front and rear card guides. Step 3. Slide the processor extender board down until it begins to seat in the socket located on the midplane riser board. Step 4.
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Removing and Replacing Components Removing and Replacing a Processor Removing and Replacing a Processor Us the following procedures to remove and replace a processor on the processor extender board. Processors are located on the top and bottom surfaces of the processor extender board. WARNING Ensure that the server is powered down and all power sources have been disconnected from the server prior to removing or replacing a processor.
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Removing and Replacing Components Removing and Replacing a Processor Figure 4-13 Processor Slot Locations on the Processor Extender Board CPU 1 CPU 0 CPU 3 (under) CPU 2 (under Removing a Processor To remove a processor on the processor extender board, follow these steps: NOTE The processor being removed in this procedure is CPU 1. This procedure applies to all the processors on the processor extender board. Step 1. If rack mounted, slide the HP server out from the rack until it stops.
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Removing and Replacing Components Removing and Replacing a Processor Step 5. Using a torx T15 driver, loosen the six captive T15 shoulder screws that attach the sequencer frame on the heatsink in the order specified in Figure 4-14 until the sequencer frame is free. Figure 4-14 Removing the Processor Sequencer Sequencer 5 3 4 6 Shoulder screws 1 2 Processor power cable Step 6. Remove the sequencer frame from the heatsink. Step 7.
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Removing and Replacing Components Removing and Replacing a Processor Step 8. Unlock the processor from the processor extender board by inserting the 2 mm hex end of the processor installation tool through the processor into the ZIF socket lock and turning it 180 degrees counterclockwise. Figure 4-15 shows the location of the ZIF socket lock. Figure 4-15 Unlocking the Processor from the Processor Extender Board Processor ZIF Socket Lock Step 9.
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Removing and Replacing Components Removing and Replacing a Processor Step 1. If rack mounted, slide the HP server out from the rack until it stops. See “Accessing a Rack Mounted Server” on page 38. Step 2. Remove the front bezel. See “Removing the Front Bezel” on page 41. Step 3. Remove the front cover. See “Removing the Front Cover” on page 42. Step 4. Remove the processor extender board. See “Removing the Processor Extender Board” on page 52. Step 5.
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Removing and Replacing Components Removing and Replacing a Processor Step 8. Make sure the processor power cable is not pinched underneath the processor before locking the processor onto the processor extender board. Figure 4-17 shows the correct placement of the processor power cable.
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Removing and Replacing Components Removing and Replacing a Processor CAUTION When rotating the locking cam, hold the palm of your hand on top of the assembly and exert light pressure. This ensures that the assembly stays flush and level to the socket while it is being tightened. Figure 4-18 Locking the Processor to the Processor Extender Board Processor ZIF Socket Lock Step 10. Plug in the processor cable to its socket on the extender board. Step 11. Place the sequencer frame over the processor.
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Removing and Replacing Components Removing and Replacing a Processor CAUTION Do not overtighten the six shoulder screws—they may shear off if overtightened. Stop tightening the shoulder screws when you feel them just bottom out.
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Removing and Replacing Components Removing and Replacing Hot-Swap Chassis Fans Removing and Replacing Hot-Swap Chassis Fans There are three hot-swap chassis fan units in the HP server. Fan units 0, 1, and 2 are in the center of the chassis, spanning the full chassis width. Fan units 0 and 1 are interchangeable and are in the left and center positions. Fan unit 2 is smaller and only fits into the right-most position (behind the power supply).
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Removing and Replacing Components Removing and Replacing Hot-Swap Chassis Fans Step 3. Grasp the fan unit locking handle, tilt it up, and pull out the fan from the chassis. Figure 4-20 Removing and Replacing the Chassis Fans 0 and 1 NOTE 64 When one fan unit is removed from the server, the remaining fan units operate at full speed for two minutes. After two minutes the server goes into soft-shutdown mode.
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Removing and Replacing Components Removing and Replacing Hot-Swap Chassis Fans Figure 4-21 Removing and Replacing the Chassis Fan 2 Replacing a Hot-Swap Chassis Fan Unit To replace a hot-swap chassis fan unit, follow these steps: Step 1. Orient the fan units by aligning the appropriate icon on the fan unit handle to the identical icon on the chassis wall. Fan units 0 and 1 have “triangle” icons and fan unit 2 has a “square” icon. Step 2.
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Removing and Replacing Components Removing and Replacing the I/O Baseboard Step 3. Check the QuickFind diagnostic board LED indicating the replaced fan unit. • When the fan is functioning normally, the LED is off. • When the fan fails, the LED is lit. Step 4. Replace the top cover. “Replacing the Top Cover” on page 44. Step 5. If rack mounted, slide the HP server into the rack until it stops. “Inserting the Server into the Rack” on page 39.
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Removing and Replacing Components Removing and Replacing the I/O Baseboard CAUTION When unplugging the SCSI cables, note the labeling on the SCSI A and SCSI B channel cables. When plugging in these cables, you must match each cable with its appropriate socket on the SCSI HBA. If the cables are mismatched your server may not reboot. Both cables and sockets are clearly marked with the correct channel. Step 6.
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Removing and Replacing Components Removing and Replacing the I/O Baseboard Step 7. Grasp the handle on the rear of the server and slide the I/O baseboard assembly all the way to the rear until removed from chassis. Figure 4-23 shows how to remove the I/O baseboard. NOTE Figure 4-23 The I/O baseboard assembly is large, so be careful when lifting it out of the server. Removing the I/O Baseboard Replacing the I/O Baseboard To replace the I/O baseboard, follow these steps: Step 1.
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Removing and Replacing Components Removing and Replacing the I/O Baseboard • MX2 dual-core processor - On Figure 4-24 I/O Baseboard Dip Switches I/O baseboard switches NOTE The I/O baseboard is large, so use care when sliding it into the server chassis. Step 2. Align the I/O baseboard assembly rails with the chassis slots and slide the assembly into the chassis until it stops against the midplane riser board socket.
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Removing and Replacing Components Removing and Replacing the I/O Baseboard CAUTION When plugging the SCSI cables, note the labeling on the SCSI A and SCSI B channel cables. You must match each cable with its appropriate socket on the SCSI HBA. If the cables are mismatched your server may not reboot. Both cables and sockets are clearly marked with the correct channel. Step 6. Plug in the internal SCSI cable(s) to the HBA board in PCI slot 1. Step 7. Replace the top cover.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards Removing and Replacing Hot-Plug PCI-X Cards The HP Integrity rx4640 server supports PCI-X hot-plug technology and offers six PCI-X, hot-plug capable slots. CAUTION There are restrictions on the number of PCI-X cards that can be installed in the rx4640 server at any given time, depending on the cards being used.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards To easily locate the PCI-X slot at which you wish to perform a hot-plug operation, you can command the attention LEDs, on the OLX divider and the I/O baseboard, to blink and act as visual cues to the active slot location. This operation is always initiated through a software or web interface and is optional to the operating system on your HP server.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards Table 4-6 Hot-Plug Operation and OS Compatibility (Continued) Hot-Plug Operation Locate Windows Server 2003 Enterprise Edition HP-UX 11i v2 Yes. Only supported through the command line interface or the web interface.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards Table 4-7 Hot-Plug Hardware and Software Interfaces and OS Availability Hot-Plug PCI-X Interface Web Interface HP-UX 11i v2 Yes- pdweb command. Read Interface Card OL* Support for HP-UX Servers and Workstations, pdweb-Peripheral Device tool Web Interface, at http://docs.hp.com.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards • Slots 7 and 8 are single slots, they do not share a PCI-X bus. The maximum capability of each slot is PCI-X 133 MHz. Only slots 7 and 8 allow 133 Mhz, PCI-X cards to run at full speed. These two slots are not limited by bus mode frequency related incompatibilities. Table 4-8 PCI-X Card vs.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards CAUTION Figure 4-25 Do not use more than 3 RAID cards in any of the slots on your HP Integrity rx4640 server. Server power limitations restrict the use of more than 3 RAID cards per server.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards Hot-Plug Operation Procedures The hot-plug procedures described in this section will use the hardware interface only. Software interface procedures are described in Table 4-7, “Hot-Plug Hardware and Software Interfaces and OS Availability.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards NOTE After pushing the attention button, you have 5 seconds to cancel the operation by pushing the attention button again. Step 9. Replace the top cover. Step 10. Push the HP server all the way back into the rack until it stops.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards Figure 4-27 Inserting PCI-X Card Online Deletion (OL-D) To delete a PCI-X card from an occupied slot, follow these steps: Step 1. If rack mounted, slide the HP server out from the rack until it stops. See “Extending the Server from the Rack” on page 39. Step 2. Remove the top cover from the chassis. See “Removing the Top Cover” on page 43. Step 3.
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Removing and Replacing Components Removing and Replacing Hot-Plug PCI-X Cards Step 4. Turn the PCI-X card lock on the chassis until the manual retention latch (MRL) is free to pull up. Step 5. At this point, the power to the slot is off; pull up on the manual retention latch located on the OLX divider. Figure 4-26 shows the layout of the PCI-X card divider. Step 6. Remove the existing PCI-X card from the slot. Step 7. Push the manual retention latch down until it seats against the chassis wall. Step 8.
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Removing and Replacing Components Removing and Replacing OLX Dividers Step 9. Turn the PCI-X card lock on the chassis to the closed position. This locks the PCI-X card into its slot and the manual retention latch into the closed position. Step 10. Press the attention button—the power LED starts to blink. Step 11. Wait for the power LED to stop blinking—the PCI-X card is now active. Step 12. Replace the top cover. “Replacing the Top Cover” on page 44. Step 13.
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Removing and Replacing Components Removing and Replacing OLX Dividers Step 3. Remove the top cover. See “Removing the Top Cover” on page 43. Step 4. Slide open the latch on the rear PCI cage wall to unlock the rear edge of the PCI divider. Figure 4-28 shows how to open the OLX divider latch.
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Removing and Replacing Components Removing and Replacing OLX Dividers Step 5. Pull up on the manual retention latch to unlock it from the chassis wall. Figure 4-29 shows where the manual retention latch is on the OLX divider. Figure 4-29 Removing and Replacing the OLX Divider Manual retention latch Locking tabs Step 6. If you are removing the entire OLX divider rack, remove the four T15 fasteners holding the rack to the I/O baseboard. Step 7.
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Removing and Replacing Components Removing and Replacing OLX Dividers Replacing an OLX Divider To replace an OLX divider, follow these steps: Step 1. Insert the OLX divider into the available slots on the I/O baseboard and push down firmly to seat it into the slots. Step 2. At this point, if you are replacing the entire OLX divider rack on to the I/O baseboard, replace the four torx T15 fasteners. Step 3. Slide the latch on the rear OLX divider wall closed, to lock the rear edge of the PCI divider.
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Removing and Replacing Components Removing and Replacing Core I/O Cards Removing and Replacing Core I/O Cards The HP Integrity rx4640 server has two I/O card slots that are dedicated for core I/O cards. They are labelled slots 1 and 2 on the I/O baseboard. Figure 4-30 shows the location of the core I/O slots on the I/O baseboard. PCI Slot Locations and Configurations The following describes configuration requirements for slots 1 and 2: • PCI slot 1 is dedicated for use by a SCSI HBA card.
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Removing and Replacing Components Removing and Replacing Core I/O Cards Removing and Replacing the SCSI Core I/O Card The HP Integrity rx4640 server has two I/O card slots that are dedicated for core I/O cards. PCI Slot Locations and Configurations PCI slots are numbered from 1 through 8 in your HP server. Figure 4-30 shows the core I/O card locations on the I/O baseboard. The dedicated core I/O card slots are slots 1 and 2.
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Removing and Replacing Components Removing and Replacing Core I/O Cards Step 6. Install replacement SCSI I/O card. Figure 4-32 shows the correct way to install the SCSI I/O card. CAUTION Always handle I/O cards by their edges. Failure to comply with this precaution may result in damage to the card. Ensure that you fully seat the card into the slot or the card may be damaged when power is re-applied to the slot. Figure 4-32 Inserting SCSI I/O Card Back of server Step 7.
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Removing and Replacing Components Removing and Replacing Core I/O Cards Removing and Replacing the LAN Core I/O Card Removing the LAN Core I/O Card To remove the LAN core I/O card in slot 2, follow these steps: Step 1. If rack mounted, slide the HP server out from the rack until it stops. See “Extending the Server from the Rack” on page 39. Step 2. Remove the top cover from the chassis. See “Removing the Top Cover” on page 43. Step 3. Disconnect any LAN cables connected to the LAN core I/O card. Step 4.
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Removing and Replacing Components Removing and Replacing the Server Battery Removing and Replacing the Server Battery The server battery may be replaced by removing the top cover and accessing the I/O baseboard. To remove and replace the server battery, follow these steps: Step 1. If rack mounted, slide the HP server out from the rack until it stops. See “Extending the Server from the Rack” on page 39. Step 2. Remove the top cover from the chassis. See “Removing the Top Cover” on page 43. Step 3.
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Removing and Replacing Components Removing and Replacing Hard Disk Drives NOTE The positive terminal of the battery is designated by the “+” sign. The battery is installed with the “+” sign facing up. Step 6. Replace the I/O baseboard assembly. See “Replacing the I/O Baseboard” on page 68. Step 7. Replace the top cover. See “Replacing the Top Cover” on page 44. Step 8. If rack mounted, slide the HP server all the way in until it stops. See “Inserting the Server into the Rack” on page 39.
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Removing and Replacing Components Removing and Replacing Hard Disk Drives Step 2. Close the drive-ejector handle by pushing it down until it clicks. Step 3. The hot-plug disk drive is now correctly installed.
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Removing and Replacing Components Removing and Replacing Hard Disk Drives NOTE Figure 4-37 92 If you are only removing a hard disk drive and not replacing it with another one, you must install a volume filler into the empty slot. Figure 4-37 shows how to install a volume filler in slot 2 of the server.
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Removing and Replacing Components Removing and Replacing the SCSI Backplane Board Removing and Replacing the SCSI Backplane Board Use these procedures to remove and replace the SCSI backplane board. The SCSI backplane board is attached to the rear of the disk media housing at the front, right side of the chassis. WARNING Ensure that the server is powered down and all power sources have been disconnected from the server prior to removing or replacing the SCSI backplane.
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Removing and Replacing Components Removing and Replacing the SCSI Backplane Board Step 12. Push the SCSI backplane board away from the disk drive cage and lift it up and out of the chassis. Figure 4-38 shows how to remove the SCSI backplane. Figure 4-38 Removing and Replacing the SCSI Backplane Board Replacing the SCSI Backplane Board To replace the SCSI backplane, follow these steps: Step 1. Replace the SCSI backplane to the rear of the disk drive cage. Step 2.
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Removing and Replacing Components Removing and Replacing the Midplane Riser Board Removing and Replacing the Midplane Riser Board The midplane riser board is attached to the main bulkhead in the center of the chassis. WARNING Ensure that the server is powered down and all power sources have been disconnected from the server prior to removing or replacing the midplane riser backplane. Voltages are present at various locations within the server whenever an ac power source is connected.
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Removing and Replacing Components Removing and Replacing the Midplane Riser Board NOTE At this point, all cables and connectors should be unplugged from the midplane riser board. Step 13. Using a torx #15 driver, remove the five torx screws attaching the midplane riser board to the chassis. Step 14. Grasp the top edge of the midplane riser board and lift straight up to release it from the keyway slots on the chassis. Then pull straight out and up to remove the midplane riser board from the chassis.
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Removing and Replacing Components Removing and Replacing the Midplane Riser Board Replacing the Midplane Riser Board To replace the midplane riser board, follow these steps: Step 1. Replace the midplane riser board onto the keyway slots on the chassis wall. Then push straight down until it seats onto the locking studs. Figure 4-39 shows how to install the midplane riser board. Step 2. Using a torx #15 driver, replace and tighten the 5 torx screws attaching the midplane riser board to the chassis. Step 3.
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Removing and Replacing Components Removing and Replacing the Power Supplies Removing and Replacing the Power Supplies The HP Integrity rx4640 server has two 200-240 VAC hot-swap power supply units (PSU). These PSUs are located at the rear of the HP server. The supported configuration of the HP Integrity rx4640 server requires a minimum of one PSU installed. CAUTION Observe all ESD safety precautions before attempting this procedure.
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Removing and Replacing Components Removing and Replacing the Power Supplies Step 3. Loosen the captive thumbscrew located at the top left of the PSU. Step 4. Grasp the handle and pull the PSU out of the server. Figure 4-40 shows how to remove a PSU. Replacing a Hot-Swap Power Supply Step 1. Supporting the PSU with both hands, slide it into the empty slot until it plugs into the socket on the internal power distribution board. Tighten the thumbscrew hand-tight. Step 2.
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Removing and Replacing Components Removing and Replacing the Power Distribution Board Removing and Replacing the Power Distribution Board These procedures detail how to remove and replace the power distribution board in the server. The power distribution board is attached to the rear power supply cage, underneath the hot-swap power supply fan unit.
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Removing and Replacing Components Removing and Replacing the Power Distribution Board Step 7. Push the power distribution board towards the center of the chassis to release it from the keyway slots. Pull it off the keyway slots and up and out of the chassis. Figure 4-41 shows how to remove the power distribution board.
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Removing and Replacing Components Removing and Replacing the DVD Drive Removing and Replacing the DVD Drive These procedures show how to remove and replace the DVD drive. The DVD drive is located on the front of the HP server. WARNING Ensure that the server is powered down and all power sources have been disconnected from the server prior to removing or replacing a DVD drive. Voltages are present at various locations within the server whenever an ac power source is connected.
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Removing and Replacing Components Removing and Replacing the DVD Drive Step 3. Pull the drive straight out to remove it from the chassis. Figure 4-42 shows how to remove the DVD drive. Figure 4-42 Removing and Replacing the DVD Drive Replacing the DVD Drive To replace a DVD drive, follow these steps: Step 1. Grasp the front of the DVD drive and squeeze in on the locking tab to release the drive. Step 2. Push the drive straight into the drive bay until the locking tab clicks into place.
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Removing and Replacing Components Removing and Replacing the DVD I/O Board Removing and Replacing the DVD I/O Board The DVD I/O board is located under a metal cover that is directly under DVD location at the front left of the chassis. WARNING Ensure that the server is powered down and all power sources have been disconnected from the server prior to removing or replacing a DVD I/O board. Voltages are present at various locations within the server whenever an ac power source is connected.
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Removing and Replacing Components Removing and Replacing the DVD I/O Board Step 7. Using a torx #15 driver, remove the two torx screws holding the DVD I/O board cover plate to the chassis and remove the cover plate. Figure 4-43 Removing and Replacing the DVD I/O Board Cover DVD I/O board Step 8. Unfasten the release clip attaching the DVD I/O board to the chassis. and remove the I/O board from the chassis. Step 9.
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Removing and Replacing Components Removing and Replacing the DVD I/O Board Replacing the DVD I/O Board To replace the DVD I/O board, follow these steps: Step 1. Replace the DVD I/O board into the chassis and plug in the midplane riser board connector cable. Step 2. Replace DVD I/O board to the chassis by refastening the release clip. Step 3. Replace the cover plate using the two torx #15 screws and a torx #15 driver. Step 4. Replace the processor extender board.
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Removing and Replacing Components Removing and Replacing the Display Board Removing and Replacing the Display Board These procedures detail how to remove and replace the display board. The display board is located behind the control panel and under the front cover. The display board contains the server’s on/off switch and three LEDs that indicate server status.
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Removing and Replacing Components Removing and Replacing the Display Board Step 5. Gently unplug the midplane riser board connector cable from the display board and remove the board from the chassis. Figure 4-44 shows how to remove the display board. Figure 4-44 Removing and Replacing the Display Board Replacing the Display Board To replace the display board, follow these steps: Step 1. Gently plug in the midplane riser board cable into the display board. Step 2.
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Removing and Replacing Components Removing and Replacing the QuickFind Diagnostic Board Removing and Replacing the QuickFind Diagnostic Board These procedures detail how to remove and replace the QuickFind diagnostic board. The QuickFind diagnostic board is located on top of the power supply cage, underneath the top cover. WARNING Ensure that the server is powered down and all power sources have been disconnected from the server prior to removing or replacing the QuickFind diagnostic board.
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Removing and Replacing Components Removing and Replacing the QuickFind Diagnostic Board Step 5. Unplug the cable from the connector on QuickFind diagnostic board and remove the board from the chassis. Figure 4-45 shows how to remove the QuickFind diagnostic board. Figure 4-45 Removing and Replacing the QuickFind Diagnostic Board Cover QuickFind diagnostic board Replacing the QuickFind Diagnostic Board To replace the QuickFind diagnostic board, follow these steps: Step 1.
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5 Troubleshooting This chapter provides basic troubleshooting instructions for the HP Integrity rx4640 server.
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Troubleshooting Troubleshooting Tips Troubleshooting Tips WARNING Before removing a cover to service components that cannot be hot-swapped, always disconnect the ac power cords and unplug telephone cables. Disconnect telephone cables to avoid exposure to shock hazard from telephone ringing voltages. Disconnect the ac power cords to avoid exposure to high energy levels that may cause burns when parts are short-circuited by metal objects such as tools or jewelry.
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Troubleshooting Possible Problems Step 4. You have now reached the point where the failed Field Replaceable Unit (FRU or FRUs) have been identified and need to be replaced. You must now perform the specific remove-and-replace verification steps. NOTE If multiple FRUs are identified as part of the solution, a fix cannot be guaranteed unless all identified failed FRUs are replaced. Step 5. There may be specific recovery procedures you need to perform to finish the repair.
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Troubleshooting Possible Problems Step 3. Display and examine the system event log (SEL) and forward progress log (FPL) for further information relating to warning or fault isolation. Step 4. Review the firmware revisions of all firmware. NOTE If the server does not boot to EFI, the only way to check firmware revisions is with the iLO MP SR command. However, the result may not be accurate because the versions it displays are updated by system firmware during the boot to EFI.
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Troubleshooting Possible Problems Step 6. Verify that the server is plugged into a power source that is within specifications described on the label of the power supply. Step 7. Make sure that the internal SCSI chain is terminated and that termination is not enabled on any of the drives. Note that LVD SCSI termination is provided on the cable. Step 8. Check that the processors are installed in the correct sockets and that terminators are installed in all unused sockets. Step 9. Reset the main memory DIMMs.
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Troubleshooting Troubleshooting Using LED Indicators Step 1. Examine the front panel LEDs for warning or fault indications. The server LED flashes yellow with a warning indication and flashes red with a fault indication. See “Front Control Panel LED Indicators” on page 117. Step 2. Examine the QuickFind Diagnostic Panel for indications of specific warning or fault indications. The diagnostic LEDs present patterns that categorize the source of the warning or fault.
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Troubleshooting Troubleshooting Using LED Indicators Front Control Panel LED Indicators The front control panel LEDs show you the server status at a glance. If warning or attention lights are flashing, then you should to query the QuickFind diagnostic panel or management processor for further information.
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Troubleshooting Troubleshooting Using LED Indicators Hard Disk Drive LED Indicators The hot-swap disk drives have two LEDs per drive, as described below. Figure 5-2shows the location of the hard disk drive LEDs. Definitions of the hard disk drive LEDs are detailed in Table 5-2. • Status LED - The drive status LED displays green when disk power is on, and is off when disk power is off. • Activity LED - The drive activity LED is green and indicates disk drive activity.
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Troubleshooting Troubleshooting Using LED Indicators QuickFind Diagnostic Panel LED Indicators The QuickFind diagnostic panel is located under the top cover and is attached to the top of the power supply cage. Figure 5-4 and Table 5-4 show and describe the status of the various LEDs and what is wrong with the indicated component.
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Troubleshooting Troubleshooting Using LED Indicators Table 5-4 Item QuickFind Diagnostic Panel LED Definitions (Continued) LED 0 LED 1 LED 2 LED3 Details Subsystem CPU board Memory board I/O board n/a A soldered voltage regulator has failed—the specified board must be replaced. I/O VRM 12 volt 5 volt 3 volt n/a A plug-in voltage regulator has failed—replace I/O baseboard.
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Troubleshooting Troubleshooting Using LED Indicators I/O Baseboard LED Indicators Figure 5-5 shows the various LEDs, sensors, and reset or attention buttons found on the I/O baseboard. Table 5-5 describes the status of the various LEDs on the I/O baseboard. Figure 5-5 I/O Baseboard LEDs, Buttons and Sensors Battery 3.
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Troubleshooting Troubleshooting Using LED Indicators Table 5-5 LED/Button I/O Baseboard LEDs, Buttons and Sensors Color Status Condition 12 V VRM Power LED Green On 12 V VRM is functioning. 5 V VRM Power LED Green On 5 V VRM is functioning. 3.3 V VRM Power LED Green On 3.3 V VRM is functioning. iLO MP Heartbeat Green Blinking The management processor is functioning correctly. iLO MP Self Test LED Amber On The management processor is executing the internal self test.
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Troubleshooting Troubleshooting Using LED Indicators Power Supply Status LED Indicators Each of the two 200-240 VAC power supply unit has three status LEDs located on the back of the power supply on the rear panel. Consolidated status of all power supplies is reported by the front control panel by the power status LED.
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Troubleshooting Troubleshooting Using LED Indicators On some servers, the LEDs display as follows: Figure 5-7 iLO MP LAN LEDs 100M Link/Activity, Amber LED 10M Link/Activity, Green LED USB Ports Locator Button and LED Table 5-7 iLO MP LED Status Descriptions LED Condition Status 100M amber On Linked at 100MBps. No activity 100M amber Blinking Linked at 100MBps. Activity present 10M green On Linked at 10MBps. No activity 10M green Blinking Linked at 10MBps.
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Troubleshooting Troubleshooting Using LED Indicators Table 5-8 iLO MP LED Status Descriptions (Continued) LED 10M amber Condition Blinking Status Linked at 10MBps. Activity present Locator LED and Button An LED and button is provided on the rear panel of the server. Another single blue LED and button is on the front control panel that enables/disables the locator function. See Figure 5-7 for the locator LED and button location.
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Troubleshooting Troubleshooting Using LED Indicators PCI-X LEDs and Hardware Errors The following table describes the hot-plug PCI-X LED error conditions. Table 5-9 PCI-X LED Descriptions Power LED-Green Attention LED-Amber Condition Description On PCI-X slot is powered on. Blinking Hot-plug operation in progress—do not touch the slot. Off PCI-X slot is powered off. Condition Description On Hardware operational fault. NOTE: If slot is powered on, it will not power off.
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Troubleshooting Troubleshooting Using LED Indicators If the PCI-X card cannot be powered off during a hot-plug removal operation, the attention button turns steady-on and the power LED remains steady-on. CAUTION Chapter 5 If your slot does not power off during a hot-plug removal operation, do not open the manual retention latch (MRL) on the OLX divider. This action may cause a server failure or an operating system crash.
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Troubleshooting Diagnostics Diagnostics A suite of offline and online support tools are available to enable manufacturing, field support personnel, and you to troubleshoot server problems. In general, if the operating system (HP-UX) is already running, it is best not to shut it down. Use the online support tools. If the OS cannot be booted, use the offline support tools to resolve the problem. The offline support tools are available from the EFI partition.
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Troubleshooting Diagnostics Online Support Tools List The following online support tools are available on HP-UX 11.23 hosted servers. In some cases, a tool, such as a disk exerciser, is generic to many types of hardware; in other cases, a tool, such as a tape diagnostic, is specific to a particular technology or type of tape drive.
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Troubleshooting Diagnostics Table 5-11 Offline Support Tools List (Continued) Offline Tool Functional Area DISKEXPT Disk Expert Utility IODIAG I/O Diagnostics Launch Facility (Executes third party diagnostics and runs BIST, if available) CIODIAG2 Core I/O Diagnostic Specific Card I/O Diagnostics Card-Specific I/O Diagnostics/BIST General Diagnostic Tools The following tools are currently available for support on other HP 9000 and Integrity server platforms.
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Troubleshooting Recommended Cleaning Procedures http://docs.hp.com/hpux/diag.
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Troubleshooting Where to Get Help Where to Get Help HP customer care will help you solve server problems and, if necessary, initiate appropriate service procedures. Support is available on the HP website and by phone. For information on contacting the HP IT Resource Center (ITRC) near you, go to: http://www.itrc.hp.com. Information to Collect Before you Contact Support Before you contact HP support, you should: Step 1. Check the previous sections of this chapter and attempt to solve the problem.
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Troubleshooting Where to Get Help http://www.hp.com/go/bizsupport. On the web page, enter the server model number (rx4640) and search the field. The following information is available on this HP website: • Software and firmware updates • The latest drivers and utilities • Additional documentation Phone Support To contact HP customer support by phone, go to the HP IT Resource Center (ITRC) near you, at: http://www.itrc.hp.com. Local phone numbers are listed in your native language for help.
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Troubleshooting Where to Get Help 134 Chapter 5
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A Parts Information This appendix provides server part information such as: • Description • Manufacturing part number • Replacement part number • Exchange part number This appendix addresses the following topics: • “Field Replaceable Parts List” on page 136.
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Parts Information Field Replaceable Parts List Field Replaceable Parts List The items in this list and the corresponding item numbers are the field replaceable units (FRUs) for the HP Integrity rx4640 server. NOTE Part numbers are found by using the part nomenclature from this list to select the correct part from the HP Partsurfer. If a I/O baseboard needs to be replaced, remove processors, DIMMs, and adapter boards and transfer these to the new board.
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Parts Information Field Replaceable Parts List Table A-1 Parts List (Continued) Description Mfg.
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Parts Information Field Replaceable Parts List Table A-1 Parts List (Continued) Description Mfg.
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Parts Information Field Replaceable Parts List Table A-1 Parts List (Continued) Description Mfg. Part Number Part Number Replacement Part Number Exchange Bezel-Rack Mount A6961-04043 A6977-67022 n/a Rackless Kit A6961-04001 n/a n/a U320 Dual Port SCSI Core I/O A6961-60011 A6961-67011 n/a Dual Port GigE LAN Card AB352-60001 AB352-67001 n/a PCI-X RAID Smart Array 6402 U320, 2ch 322391-001 309520-001N 309520-001 SPS-BD, Mem, 128, 72Bt, DDR, W.
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Parts Information Field Replaceable Parts List 140 Appendix A
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B Booting the Operating System This chapter covers procedures for booting and shutting down an operating system on the HP Integrity rx4640 server. The following operating systems are supported on HP Integrity servers: HP-UX 11i Version 2 (B.11.23), HP OpenVMS, Microsoft Windows Server 2003, Red Hat Enterprise Linux, and SuSE Linux Enterprise Server. This chapter addresses the following topics: • “Operating Systems Supported on HP Integrity Servers” on page 142.
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Booting the Operating System Operating Systems Supported on HP Integrity Servers Operating Systems Supported on HP Integrity Servers HP supports the following operating systems on entry-class HP Integrity servers. • HP-UX 11i Version 2 (B.11.23) For details see “Booting and Shutting Down HP-UX” on page 143. • HP OpenVMS I64 For details see “Booting and Shutting Down HP OpenVMS” on page 149. • Microsoft® Windows® Server 2003 For details see “Booting and Shutting Down Microsoft Windows” on page 153.
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Booting the Operating System Booting and Shutting Down HP-UX At the EFI Shell, the bcfg command supports listing and managing the boot options list for all operating systems, except Microsoft Windows. On HP Integrity servers with Windows installed, the \MSUtil\nvrboot.efi utility is provided for managing Windows boot options from the EFI Shell. For HP Integrity servers with OpenVMS installed, the \efi\vms\vms_bcfg.efi and \efi\vms\vms_show utilities are provided for managing OpenVMS boot options.
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Booting the Operating System Booting and Shutting Down HP-UX Adding HP-UX to the Boot Options List This section describes how to add an HP-UX entry to the system boot options list. You can add the \EFI\HPUX\HPUX.EFI loader to the boot options list from the EFI Shell or EFI Boot Configuration menu (or in some versions of EFI, the Boot Option Maintenance Menu). On HP Integrity servers, the operating system installer automatically adds an entry to the boot options list.
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Booting the Operating System Booting and Shutting Down HP-UX Press Ctrl+B to exit the system console and return to the iLO MP Main Menu. To exit the iLO MP, enter X at the Main Menu. Standard HP-UX Booting Use either of the following procedures to boot HP-UX: • “Access the EFI Boot Manager menu for the server on which you want to boot HP-UX.” on page 145 • “Access the EFI Shell environment for the server on which you want to boot HP-UX.
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Booting the Operating System Booting and Shutting Down HP-UX The file system number might change each time it is mapped (for example, when the system boots, or when the map -r command is issued). Step 4. When accessing the EFI System Partition for the desired boot device, issue the HPUX command to initiate the HPUX.EFI loader on the device you are accessing. The full path for the loader is \EFI\HPUX\HPUX.EFI.
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Booting the Operating System Booting and Shutting Down HP-UX When accessing the console, confirm that you are at the EFI Boot Manager menu (the main EFI menu). If you are at another EFI menu, choose the Exit option from the submenus until you return to the screen with the EFI Boot Manager heading. From the EFI Boot Manager menu, choose the EFI Shell menu option to access the EFI Shell environment. Step 2.
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Booting the Operating System Booting and Shutting Down HP-UX LVM Maintenance Mode HP-UX Booting Use the following procedure to boot HP-UX in Logical Volume Management (LVM) maintenance mode. Booting HP-UX in LVM-Maintenance Mode (EFI Shell) From the EFI Shell environment, boot in LVM-maintenance mode by stopping the boot process at the HPUX.EFI interface (the HP-UX Boot Loader prompt, HPUX>) and entering the boot -lm vmunix command. Step 1.
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Booting the Operating System Booting and Shutting Down HP OpenVMS The command-line options you specify dictate the way in which HP-UX shuts down, and whether the server is rebooted. Use the following list to choose an HP-UX shutdown option for your server: • To shut down HP-UX and halt (power off) the server, issue the shutdown -h command. To reboot a halted server you must power on the server using the PC command at the iLO MP Command menu.
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Booting the Operating System Booting and Shutting Down HP OpenVMS Step 2. Access the EFI System Partition (fsX: where X is the file system number) for the device from which you want to boot HP OpenVMS. For example, enter fs2: to access the EFI System Partition for the bootable file system number 2. The EFI Shell prompt changes to reflect the file system currently accessed. The full path for the HP OpenVMS loader is \efi\vms\vms_loader.efi and it should be on the device you are accessing. Step 3.
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Booting the Operating System Booting and Shutting Down HP OpenVMS Step 2. At the EFI Boot Manager menu, choose an item from the boot options list. Each item in the boot options list references a specific boot device and provides a specific set of boot options or arguments to use when booting the device. Step 3. Press Enter to initiate booting using the chosen boot option. Step 4. Exit the console and iLO MP interfaces when finished using them.
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Booting the Operating System Booting and Shutting Down HP OpenVMS Press Ctrl+B to exit the system console and return to the iLO MP Main Menu. To exit the iLO MP, enter X at the Main Menu. Shutting Down HP OpenVMS This section describes how to shut down the HP OpenVMS operating system on entry-class HP Integrity servers. Step 1. From the HP OpenVMS DCL prompt, issue the @SYS$SYSTEM:SHUTDOWN command to shut down the OpenVMS operating system. Step 2.
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Booting the Operating System Booting and Shutting Down Microsoft Windows Booting and Shutting Down Microsoft Windows This section describes how to boot and shut down Microsoft Windows on entry-class HP Integrity servers and how to add Windows entries to the system boot options list.
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Booting the Operating System Booting and Shutting Down Microsoft Windows Step 4. At the EFI Shell environment, issue the \MSUtil\nvrboot.efi command to launch the Microsoft Windows boot options utility. fs0:\> msutil\nvrboot NVRBOOT: OS Boot Options Maintenance Tool [Version 5.2.3683] 1. 2. * 3. 4. SUSE SLES 10 HP-UX Primary Boot: 0/0/1/0/0.2.
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Booting the Operating System Booting and Shutting Down Microsoft Windows Loading.: Windows Server 2003, Datacenter Starting: Windows Server 2003, Datacenter Starting Windows... ******************************************************************************** Computer is booting, SAC started and initialized. Use the "ch -?" command for information about using channels. Use the "?" command for general help. SAC> Step 6. Exit the console and management processor interfaces when finished using them.
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Booting the Operating System Booting and Shutting Down Microsoft Windows Windows Shutdown from the Command Line From the Windows command line, issue the shutdown command to shut down the operating system. Step 1. Log in to Windows running on the server that you want to shut down. For example, access the system console and use the Windows SAC interface to start a command prompt, from which you can issue Windows commands to shut down the server. Step 2. Check to see whether any users are logged in.
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Booting the Operating System Booting and Shutting Down Linux Booting and Shutting Down Linux This section covers booting and shutting down Linux on entry-class HP servers. Procedures for Red Hat Enterprise Linux and SuSE Linux Enterprise Server are given in this section. • To add a Linux entry to the boot options list, see “Adding Linux to the Boot Options List” on page 157. • To boot Linux on entry-class HP Integrity servers, use the following procedures.
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Booting the Operating System Booting and Shutting Down Linux • bcfg boot dump — Displays all items in the boot options list for the server. • bcfg boot rm # — Removes the item number specified by # from the boot options list. • bcfg boot mv #a #b — Moves the item number specified by #a to the position specified by #b in the boot options list. • bcfg boot add # file.efi "Description" — Adds a new boot option to the position in the boot options list specified by #. The new boot option references file.
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Booting the Operating System Booting and Shutting Down Linux From the system console, choose the EFI Shell entry from the EFI Boot Manager menu to access the shell. Step 2. Access the EFI System Partition for the Red Hat Enterprise Linux boot device. Use the map EFI Shell command to list the file systems (fs0, fs1, and so on) that are known and mapped. To choose a file system to use, enter its mapped name followed by a colon (:).
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Booting the Operating System Booting and Shutting Down Linux From the system console, choose the EFI Shell entry from the EFI Boot Manager menu to access the shell. Step 2. Access the EFI System Partition for the SuSE Linux Enterprise Server boot device. Use the map EFI Shell command to list the file systems (fs0, fs1, and so on) that are known and mapped. To choose a file system to use, enter its mapped name followed by a colon (:).
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C Utilities This appendix describes the utilities that are part of the HP Integrity rx4640 server. These include the EFI boot manager, and EFI-POSSE. This appendix addresses the following topics: • “Extensible Firmware Interface Boot Manager” on page 162. • “EFI/POSSE Commands” on page 166. • “Specifying SCSI Parameters” on page 180. • “Using the Boot Configuration Menu” on page 186.
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Utilities Extensible Firmware Interface Boot Manager Extensible Firmware Interface Boot Manager Extensible Firmware Interface (EFI) is an OS and platform-independent boot and pre-boot interface. EFI resides between the OS and platform firmware. This allows the OS to boot without having details about the underlying hardware and firmware. EFI supports boot devices; uses a flat memory model; and hides platform and firmware details from the OS. EFI and Pre-OS System Environment (POSSE) are similar.
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Utilities Extensible Firmware Interface Boot Manager The EFI boot manager loads EFI applications (including operating system [OS] first stage loader) and EFI drivers from an EFI-defined file system or image loading service. Non-volatile RAM (NVRAM) variables point to the file to be loaded. These variables contain application-specific data that is passed directly to the EFI application.
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Utilities Extensible Firmware Interface Boot Manager EFI Commands Table C-1 lists EFI commands for the HP Integrity rx4640 server. The equivalent BCH commands found in PA-RISC based servers are also listed.
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Utilities Extensible Firmware Interface Boot Manager Table C-1 EFI Shell Command EFI Commands (Continued) BCH Command Equivalent (PA-RISC) BCH Command Parameters (PA-RISC) Definition date Time [cn:yr:mo:dy:hr:mn[:ss]] Read or set the date time Time [cn:yr:mo:dy:hr:mn[:ss]] Read or set the real time clock INformation info all ALL Display all server information info boot BootINfo Display boot-releated information info cpu CAche Display cache information info chiprev ChipRevisions Displ
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Utilities EFI/POSSE Commands Table C-1 EFI Commands (Continued) EFI Shell Command errdump cmc errdump init BCH Command Equivalent (PA-RISC) processor internal memory (PIM) BCH Command Parameters (PA-RISC) Definition [] [HPMC|LPMC|TOC|ASIC]] Display PIM information EFI/POSSE Commands This section describes the EFI/POSSE commands developed for the server. NOTE EFI and Pre-OS System Environment (POSSE) are similar.
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Utilities EFI/POSSE Commands command that has taken the place of that BCH functionality, or will inform the user that the functionality no longer exists. As a shortcut, the user may enter help followed by bch and a BCH command name to go straight to that command.
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Utilities EFI/POSSE Commands 2. Specifying a cpu number without a state will display configuration status. Examples: * To deconfigure CPU 0 fs0:\> cpuconfig 0 off CPU will be deconfigured on the next boot * To display configuration status of cpus fs0:\> cpuconfig baud Sets the baud rate and communication settings for a UART. Syntax baud Parameters 0 through the total number of UARTS minus one baud rate.
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Utilities EFI/POSSE Commands Parameters [test] Each test can be set or cleared: booting_valid Enable/disable system firmware response to BOOTING bit. If OS Speedy Boot aware set to on. early_cpu Enable/disable early CPU selftests. late_cpu Enable/disable late CPU selftests. platform Enable/disable system board hardware tests. chipset Enable/disable CEC tests. io_hw Enable/disable EFI driver Core I/O tests. mem_init Enable/disable memory initialization. mem_test Enable/disable full destructive memory tests.
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Utilities EFI/POSSE Commands Operation Issuing cpuconfig with no parameters displays the config/deconfig status of all processors. A user can reconfigure CPUs by specifying a CPU number and a state (on or off). If a valid state is entered and is different from the current state of a CPU, its status changes on the next boot. The last remaining configured CPU in a server cannot be deconfigured.
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Utilities EFI/POSSE Commands Examples: * To display the current settings fs0:\> ioconfig Fast initialization: Enabled System Wake-On-LAN: Disabled * To display the current device connection policy setting fs0:\> ioconfig fast_init Fast initialization: Enabled * To disable fast initialization fs0:\> ioconfig fast_init off Fast initialization: Disabled * To enable the System Wake-On-LAN setting fs0:\> ioconfig wol on System Wake-On-LAN: Enabled default Allows the user to restore non-volatile memory (NVM) to
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Utilities EFI/POSSE Commands Operation If a user enters no parameters, the usage is displayed. Otherwise, the specified error log is displayed. Adding -n to the clear parameter disables the confirmation prompt. (The errdump command can also be accessed through the server Configuration menu.) info Allows the user to display most server information.
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Utilities EFI/POSSE Commands BOOTABLE DEVICES Order ----1 Seg # --00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Media Type ---------CDROM Bus # --00 00 00 00 20 20 20 20 40 60 60 80 80 C0 E0 E0 E0 Dev # --01 01 01 02 01 01 02 02 01 01 01 01 01 01 01 01 02 Fnc # --00 01 02 00 00 01 00 01 00 00 01 00 01 00 00 01 00 Path --------------------------------------Acpi(HWP0002,0)/Pci(2|0)/Ata(Primary,Master)/CDROM(Entry0) Vendor ID -----0x1033 0x1033 0x1033 0x1095 0x1000 0x1000 0x8086 0x8086 0x1000 0x10
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Utilities EFI/POSSE Commands LAN Address ----------------*Mac(000E7F7E07FA) Mac(000E7F7E07FB) Path ---------------------------------------Acpi(HWP0002,100)/Pci(2|0)/Mac(000E7F7E07FA)) Acpi(HWP0002,100)/Pci(2|1)/Mac(000E7F7E07FB)) FIRMWARE INFORMATION Firmware Revision: 86.10 [4432] PAL_A: 7.31/5.37 PAL_B: 5.69 EFI Spec: 1.10 EFI Intel Drop: 14.62 EFI Build: 86.10 SAL Spec: 3.01 SAL_A: 2.00 SAL_B: 86.10 POSSE: 0.10 ACPI: 7.00 SMBIOS: 2.3.2a: BMC Revision: 3.42 IPMI: 1.00 Management Processor Revision: E.
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Utilities EFI/POSSE Commands Boottest: BOOTTEST Settings Default Variable OS is not speedy boot aware.
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Utilities EFI/POSSE Commands Other Bridge Other Bridge Baseboard MC Example C-10 0 0 0 0 0 0 0002 0009 0342 info cpu Command Shell> info cpu PROCESSOR MODULE INFORMATION # of Logical CPUs ------4 4 CPU Module -----0 1 Speed -------1.4 GHz 1.4 GHz L3 Cache Size -----6 MB 6 MB L4 Cache Size -----None None Family/ Model (hex.) ------20/00 20/00 Rev --B0 B0 Processor State -----------Active Active CPU threads are turned on.
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Utilities EFI/POSSE Commands 00 00 00 00 00 00 00 00 00 00 20 40 60 60 80 80 C0 E0 E0 E0 02 01 01 01 01 01 01 01 01 02 01 00 00 01 00 01 00 00 01 00 0x8086 0x1000 0x1077 0x1077 0x1000 0x1000 0x1000 0x103C 0x103C 0x1002 0x1079 0x0021 0x2312 0x2312 0x000F 0x000F 0x0021 0x1290 0x1048 0x5159 XX 03 02 02 01 01 04 XX XX XX Acpi(HWP0002,100)/Pci(2|1) Acpi(HWP0002,200)/Pci(1|0) Acpi(HWP0002,300)/Pci(1|0) Acpi(HWP0002,300)/Pci(1|1) Acpi(HWP0002,400)/Pci(1|0) Acpi(HWP0002,400)/Pci(1|1) Acpi(HWP0002,600)/Pci(1|
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Utilities EFI/POSSE Commands Parameters none Example C-14 lanaddress Command LAN Address Information: LAN Address Path ----------------- ---------------------------------------Mac(00306E4C4F1A) Acpi(HWP0002,0)/Pci(3|0)/Mac(00306E4C4F1A)) *Mac(00306E4C0FF2) Acpi(HWP0002,100)/Pci(2|0)/Mac(00306E4C0FF2)) monarch Displays or modifies the ID of the bootstrap processor. The preferred monarch number is stored in NVM.
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Utilities EFI/POSSE Commands Syntax pdt (clear) Parameters clears the pdt Operation With no options specified, the command displays the PDT information for the server. The PDT is cleared and a reboot is required for memory reallocation and safe booting.
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Utilities Specifying SCSI Parameters Operation If specified alone, sysmode displays the system mode. If a mode is specified as a parameter, then the system mode is changed. This new mode takes effect immediately. The system mode is retained on successive boots. Interaction with sysmode in a variety of scenarios is outlined below. Example C-18 sysmode Command Shell> sysmode System Mode: NORMAL Shell> sysmode admin You are now in admin mode. Shell> sysmode service You are now in service mode.
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Utilities Specifying SCSI Parameters I/O INFORMATION BOOTABLE DEVICES Order ----1 Seg # --00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Media Type ---------CDROM Bus # --00 00 00 00 20 20 20 20 40 60 60 80 80 C0 E0 E0 E0 Dev # --01 01 01 02 01 01 02 02 01 01 01 01 01 01 01 01 02 Fnc # --00 01 02 00 00 01 00 01 00 00 01 00 01 00 00 01 00 Path --------------------------------------Acpi(HWP0002,0)/Pci(2|0)/Ata(Primary,Master)/CDROM(Entry0) Vendor ID -----0x1033 0x1033 0x1033 0x1095 0x1000 0x1000 0x808
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Utilities Specifying SCSI Parameters Using the SCSI interface information from the example above, the pieces of information that, combined, tell you this is a SCSI interface are the following (shown in bold, for highlighting purposes): 00 00 20 20 01 01 00 01 0x1000 0x1000 0x0030 0x0030 xx xx Acpi(HWP0002,200)/Pci(1|0) Acpi(HWP0002,200)/Pci(1|1) Looking at all of the above information together, the vendor (0x1000) and device (0x0030) are the IDs for a SCSI interface.
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Utilities Specifying SCSI Parameters In the preceding example, the SCSI interface information is shown highlighted bold. You can tell the information is for the SCSI interface because the path on the first line—Acpi(HWP0002,100)— is the path from the information displayed by the info io command. The next two lines are for the SCSI interface two channels, one line for each channel (they contain the SCSI interface description [LSI Logic Ultra320 SCSI Controller]).
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Utilities Specifying SCSI Parameters Continuing the example for Channel A of this SCSI interface, you would enter: drvcfg -s 45 18 Step 5. The EFI SCSI Setup Utility starts and its main menu displays, showing a list of all the EFI capable SCSI interfaces in the server. Move the cursor to highlight the channel of the SCSI interface; press Enter.
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Utilities Specifying SCSI Parameters • Disconnect • SCSI Timeout • Queue Tags • Format • Verify Changing any of these fields can cause unpredictable results. Step 7. You may display (and optionally change) any SCSI parameters listed below for the channel of the SCSI interface, or restore its SCSI parameters to their default values.
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Utilities Using the Boot Configuration Menu Using the Boot Configuration Menu The Boot Configuration Menu menu allows you to select console output and input devices as well as various boot options. It contains the following items: • Boot From File • Add Boot Entry • Edit Boot Entry • Remove Boot Entry • Edit OS Boot Order • AutoBoot Configuration • BootNext Configuration • Driver Configuration • Console Configuration • System Reset These items are described in the following sections.
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Utilities Using the Boot Configuration Menu Load File [Acpi(HWP0002,0)/Pci(3|0)/Mac(00306E4C4F1A)] Exit In this example: • NO VOLUME LABEL is a hard drive. When you format a hard drive, the EFI tools provide an option to LABEL the disk. In this example, the volume was not labelled. • CD_FORMAT is the label created for the disk currently inside the DVD drive. • Removable Media Boot allows you to boot from a removable media drive (CD/DVD drive).
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Utilities Using the Boot Configuration Menu NOTE This does not delete any files, applications or drivers from your server. This option displays a list of boot options that are configured on your server. The names will match the options on the main Boot Manager menu (above). If you remove a drive from your server, you must manually delete it from the boot options list. • To delete an item from the list, use the arrow keys to highlight the item and press Enter.
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Utilities Using the Boot Configuration Menu For example: Manage BootNext setting. Select an Operation EFI Shell [Built-in] Current OS Reset BootNext Setting Save Settings to NVRAM Help Exit VenHw(D65A6B8C-71E5-4DF0-A909-F0D2992B5AA9) Boot0000 AutoBoot Configuration Use this option to set the amount of time the server pauses before attempting to launch the first item in the Boot Options list. For example: Set Auto Boot Timeout.
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Utilities Using the Boot Configuration Menu Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(PcAnsi) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100) * Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(VtUtf8) * Acpi(HWP0002,700)/Pci(2|0) * indicates a currently selected device. This menu is identical to Console Error Devices. The HP Integrity rx4640 server does not support different configurations for Output and Error console.
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Utilities Using the Boot Configuration Menu * Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(VtUtf8) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(PcAnsi) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100) * Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(VtUtf8) * Acpi(HWP0002,700)/Pci(2|0) * indicates a currently selected device. This menu is identical to Console Error Devices.
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Utilities Using the Boot Configuration Menu Select the Console Output Device(s) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(PcAnsi) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100) * Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(VtUtf8) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(PcAnsi) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100) * Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(VtUtf8) * Acpi(HWP0002,700
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Utilities Using the Boot Configuration Menu For example: Select the Console Output Device(s) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(PcAnsi) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100) * Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(VtUtf8) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(PcAnsi) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100) * Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(VtUtf8) * Acp
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Utilities Using the Boot Configuration Menu Advanced System Information The Advanced System Information Menu displays information about server and component configuration. Set System Time Set System Time lets you modify the system time. Set System Date Set System Date lets you modify the system date. Set User Interface Set User Interface lets the user change the legacy boot manager user interface. Set System Wake-On LAN Set System Wake-On LAN lets the user enable/disable the system Wake-On_LAN settings.
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Index A acetone, 131 adapter slot number, determining with info command, 181 ammonia, 131 antistatic wrist strap, 38 autoboot, 143 B battery, server removing and replacing, 89 benzene, 131 boot EFI boot manager, 162 boot configuration menu, 186 boot options list, 142 adding HP-UX, 144 adding Linux, 157 adding OpenVMS, 149 adding Windows, 153 booting HP-UX, 143 LVM maintenance mode, 148 single-user mode, 146 Linux, 157 OpenVMS, 149 Red Hat Linux, 158 SuSE Linux, 159 from EFI shell, 159 Windows, 153 C changin
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Index memory, 22 motherboard manageability, 23 PCI riser, 22 power supply unit, 23 processor, 22 field replaceable unit, FRU list of, 136 front bezel removing and replacing, 41 front cover, removing and replacing, 42 G Gigabit ethernet card LAN LEDs location, 30 H handle controller, determining, 183 hard disk drive slot filler, installing, 92 hard disk drives features, 23 LEDs location, 27 troubleshooting, 118 removing and replacing, 90 hot-plug OL-A, 71 OL-D, 71 OL-R, 71 PCI-X, 71 hot-swap power supplies r
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Index processor installing, 56, 58 removing and replacing, 55 supported sizes, 22 processor extender board removing and replacing, 52 processor module description, 22 features, 22 Q quads 16 DIMM memory extender board, 49 32 DIMM memory extender board, 51 QuickFind diagnostic board removing and replacing, 109 QuickFind diagnostic panel LEDs location, 31 troubleshooting, 119 S SCSI backplane board removing and replacing, 93 setup utility, 180 specifying parameters, 180 SCSI adapter path determining with info