HP L1000 - 9000 - 0 MB RAM Installation Manual

Installation guide, third edition - hp rp5400 family of servers
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Installation Guide

rp5400 Family of Servers
Version 3.0
Manufacturing Part Number: A5191-96022
February 2004
U.S.A.
© Copyright 2002-2004 Hewlett-Packard Development Company, L.P..

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Table of Contents
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Summary of Contents for HP L1000 - 9000 - 0 MB RAM

  • Page 1: Installation Guide

    Installation Guide rp5400 Family of Servers Version 3.0 Manufacturing Part Number: A5191-96022 February 2004 U.S.A. © Copyright 2002-2004 Hewlett-Packard Development Company, L.P..
  • Page 2: Legal Notices

    Legal Notices Copyright Notices. © Copyright 2002-2004 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.
  • Page 3: Table Of Contents

    Contents 1. Installing Additional Components Additional Components ..............6 Installing Central Processing Units (CPUs).
  • Page 4 Contents Adding Users..............74 Removing Users .
  • Page 5: Installing Additional Components

    Installing Additional Components Chapter 1...
  • Page 6: Additional Components

    Some of the internal components that are packed separately are not user-installable. To maintain warranty validation, these items must be installed by a Hewlett-Packard Customer Engineer. If you received either (or both) of the components listed below, contact your Hewlett-Packard provider to arrange for installation.
  • Page 7: Installing Central Processing Units (Cpus)

    Installing Additional Components Installing Central Processing Units (CPUs) Installing Central Processing Units (CPUs) rp5400 and rp5430 Servers support a maximum of two CPUs. rp5450 and rp5470 Servers support a maximum of four CPUs. CAUTION Ensure that the following conditions are met before installing a 750 MHz CPU (A6805B): •...
  • Page 8 Installing Additional Components Installing Central Processing Units (CPUs) Step 3. Loosen the captive T-15 screws that hold the top cover in place, then grasp the strap handle, raise the cover slightly, and pull the cover toward the front of the server to free the cover tabs from the slots in the chassis.
  • Page 9 Installing Additional Components Installing Central Processing Units (CPUs) Step 5. The following outlines which CPUs and processor support modules are installed for which rp5400 and rp5450 CPU configurations. If installing on an rp5470 proceed to the next step. PSM 0 CPU 1 CPU 0 CPU 2...
  • Page 10 Installing Additional Components Installing Central Processing Units (CPUs) Step 6. The following outlines which CPUs and processor support modules are installed for which rp5470 CPU configurations. PSM 0 CPU 0 CPU 1 CPU 2 CPU 3 PSM 1 L3000 System Board CPU Numbers to be PSM Numbers Number of CPUs...
  • Page 11 Installing Additional Components Installing Central Processing Units (CPUs) Step 9. Replace the air baffle. Tighten the four captive screws to secure the air baffle in place. Step 10. Replace the top cover. Tighten the four captive screws to secure the top cover in place. Step 11.
  • Page 12: Installing Memory

    Installing Additional Components Installing Memory Installing Memory Memory Configuration Rules rp54xx Servers have 16 slots (8 DIMM pairs) for memory DIMMs. These slots are numbered 0a/b, 1a/b,... 7a/b. 8 of these slots (4a/b - 7a/b) are disabled on rp5400 Servers. rp5450 Servers can access all slots. rp5400 and rp5450 Servers have DIMM slots located on the System Board.
  • Page 13 Installing Additional Components Installing Memory Step 6. Refer to the following graphic for memory slot locations. Locate the correct DIMM pair slots. Insert the DIMM connectors into the guides until the card snaps firmly in place. It may be necessary to apply downward force using the palm of your hand on the DIMM.
  • Page 14 Installing Additional Components Installing Memory Installing rp5470 DIMMs Step 1. Power down and unplug the rp54xx Server. DC voltages are present when the server is connected to AC power. Do not attempt to NOTE install or service: CPUs, memory, PSMs, the platform monitor or PCI I/O cards installed in non-turbo slots (1-6) while DC voltage is present.
  • Page 15 Installing Additional Components Installing Memory a. Locate the memory carrier and pull up on the extractor levers on each end of the memory carrier to unseat the memory carrier from its socket. b. When the memory carrier unseats from the socket, pull it away from the System Board. Loosen the captive screws that secure the DIMM Clip and remove the DIMM Clip from the memory carrier.
  • Page 16: Installing Peripheral Component Interconnect (Pci) Cards

    Installing Additional Components Installing Peripheral Component Interconnect (PCI) Cards Installing Peripheral Component Interconnect (PCI) Cards rp54xx Servers have a total of 12 PCI I/O slots. Slots 1 and 2 are reserved for the LAN/SCSI and GSP Core I/O cards, leaving 10 PCI I/O slots available for twin use. rp5400/rp5450 PCI Card Slots For rp5400 and rp5450 models, 10 PCI I/O slots consist of turbo and non-turbo slots.
  • Page 17: Rp5470 Pci Card Slots

    Installing Additional Components Installing Peripheral Component Interconnect (PCI) Cards rp5470 PCI Card Slots For rp5470 models, the 10 PCI I/O slots consist of twin turbo, turbo, and non-turbo slots. The following illustration shows the PCI card slot layout. • Slots 1 and 2 are reserved for the rp54xx LAN/SCSI and GSP (Guardian Service Processor) Core I/O cards, respectively.
  • Page 18: Pci I/O Card Installation Restrictions

    Installing Additional Components Installing Peripheral Component Interconnect (PCI) Cards PCI I/O Card Installation Restrictions Restrictions apply regarding the installation of PCI I/O cards which contain a PCI-to-PCI bridge: • HP-UX boot is currently not supported for cards which contain a PCI-to-PCI bridge. •...
  • Page 19 Installing Additional Components Installing Peripheral Component Interconnect (PCI) Cards Load Product Part Description (all are PCI cards) Boot Order Notes Number Number J3525A Dual Port Synchronous Adapter J3525-60001 J3593A 64 port Serial MUX system card J3593-60001 J3592A 8 Port PCI Serial MUX card J3592-60101 A6150A Graphics, USB Card...
  • Page 20: Installing A Pci Card

    Installing Additional Components Installing Peripheral Component Interconnect (PCI) Cards Installing a PCI Card Follow these procedures to install a PCI card. Step 1. Power down and unplug the rp54xx Server. DC voltages are present when the server is connected to AC power. Do not attempt to NOTE install or service: CPUs, memory, PSMs, the platform monitor or PCI I/O cards installed in non-turbo slots (1-6) while DC voltage is present.
  • Page 21 Installing Additional Components Installing Peripheral Component Interconnect (PCI) Cards Step 4. Remove the PCI slot cover from the slot that will receive the PCI card. To remove the PCI slot cover, slide the PCI slot cover away from the server. Step 5.
  • Page 22: Online Addition/Replacement (Ola/R) Of Pci I/O Cards

    Installing Additional Components Installing Peripheral Component Interconnect (PCI) Cards Step 9. For deskside enclosure configurations, replace the deskside enclosure cover. Step 10. Power the server on. Step 11. Use the server firmware in io command to verify the PCI cards are recognized by the server. If AUTOBOOT is ON, it will be necessary to interrupt the boot process to get to the server firmware Main Menu: Enter command or menu >...
  • Page 23: Installing Graphics

    Installing Additional Components Installing Graphics Installing Graphics This section explains how to install rp54xx 2D graphics hardware. For a complete graphics solution, three products are required. The products listed below are the only products supported on rp54xx Servers. • A6150A rp54xx Graphics Package —...
  • Page 24 Installing Additional Components Installing Graphics rp54xx Servers have a total of 12 PCI I/O slots. Slots 1 and 2 are reserved for the LAN/SCSI and GSP Core I/O cards, leaving 10 PCI I/O slots available for twin use. These 10 PCI I/O slots consist of turbo and non-turbo slots.
  • Page 25 Installing Additional Components Installing Graphics DC voltages are present when the server is connected to AC power. Do not attempt to NOTE install or service: CPUs, memory, PSMs, the platform monitor or PCI I/O cards installed in non-turbo slots (1-6) while DC voltage is present. Failure to observe this warning may result in damage to the server.
  • Page 26 Installing Additional Components Installing Graphics Step 4. Using a torx 15 screwdriver, loosen the captive screws on the right side panel. This panel has a label which shows which PCI I/O slots are available and the corresponding paths. The label shown below is for an rp5400.
  • Page 27 Installing Additional Components Installing Graphics Step 6. Remove the PCI slot cover from the slot that will receive the PCI card. To remove the PCI slot cover, slide the PCI slot cover away from the server. Step 7. Center the graphics card within the space created by removing the PCI I/O slot cover. Slide the card toward the edge connectors.
  • Page 28 Installing Additional Components Installing Graphics The graphics card must be installed in any turbo slot while the USB will work in any NOTE slot. To reserve turbo slots for high performance I/O cards, install the USB card in a non-turbo slot Step 8.
  • Page 29 Installing Additional Components Installing Graphics Step 9. Connect one end of the 15-pin video cable connector on the graphics card. This connector is labeled “Graphics Display” and “Video Out”. Connect the other end of this cable to the graphics monitor. Step 10.
  • Page 30: Graphics Troubleshooting

    Installing Additional Components Installing Graphics Step 14. Use the server firmware in io command to verify the graphics cards are recognized by the server. If AUTOBOOT is ON, it will be necessary to interrupt the boot process to get to the server firmware Main Menu: Enter command or menu >...
  • Page 31: Installing Disk Drives

    Installing Additional Components Installing Disk Drives Installing Disk Drives rp54xx Servers support up to four optional internal hard drives. These drives must be installed in the following sequence: It is not necessary to shutdown the HP-UX operating system or power off the server to install a new disk. Follow this procedure to add internal hard disk drives to your rp54xx Server.
  • Page 32 Installing Additional Components Installing Disk Drives Step 3. Insert the new disk drive into the slot until the rear connectors snap into place in the card guide. As shown in the following graphic, the notches at the top of the disk drives must snap over the small brackets in the disk bay to ensure a firm connection.
  • Page 33: Server Unpacking And Installation

    Server Unpacking and Installation Chapter 2...
  • Page 34: Factory Integrated Rp54Xx Cabinet Installation

    A factory integrated server is one in which the rp54xx Server and associated components are pre-assembled and shipped from the factory already installed in a Hewlett-Packard E-Series cabinet. Factory integrated systems reduce the amount of time required to set-up and begin server operation.
  • Page 35 Server Unpacking and Installation Factory Integrated rp54xx Cabinet Installation 3. At the rear of the cabinet: a. Open the door. b. Remove the anti-tip foot by removing and retaining the two (2) 1/2-inch bolts. For Shipping: L-brackets are mounted behind anti-tip foot.
  • Page 36 Server Unpacking and Installation Factory Integrated rp54xx Cabinet Installation 5. Straighten the rollers on the cabinet base, if needed, and carefully roll it down the ramps. WARNING After removing the server from the pallet, Do not move the cabinet unless the anti-tip feet are installed! The cabinet can tip if care is not used.
  • Page 37: Receive And Unpack A Non-Integrated Server

    Server Unpacking and Installation Receive and Unpack A Non-Integrated Server Receive and Unpack A Non-Integrated Server WARNING The typical rp54xx system can weigh up to 68kg (150lbs). HP recommends using an an approved lifting device. Lift and move the server in accordance with all local safety regulations.
  • Page 38 Server Unpacking and Installation Receive and Unpack A Non-Integrated Server Step 2. If you are moving the server manually, use three people to lift the server from the packing material and pallet. Carefully move the server to the selected location. Step 3.
  • Page 39 Server Unpacking and Installation Receive and Unpack A Non-Integrated Server Step 5. Raise the lifting device platform enough for the server to clear the pallet and packing materials, as show below. Chapter 2...
  • Page 40: Install Deskside Server

    Server Unpacking and Installation Install Deskside Server Install Deskside Server The following section describes the installation of a server into a Deskside enclosure for installation in an office environment. WARNING The typical rp54xx system can weigh up to 68kg (150lbs). HP recommends using an approved lifting device.
  • Page 41 Server Unpacking and Installation Install Deskside Server Ensure that the positioning spring pins in the enclosure base align with the NOTE alignment holes in the bottom of the server. Captive Fastener Alignment Spring Pins Step 3. Position the server on the wheeled enclosure base. Step 4.
  • Page 42 Server Unpacking and Installation Install Deskside Server Step 7. Locate the two pull-tabs. One pull-tab is longer than the other. The shorter pull-tab is blank on both sides. The back of the shorter pull-tab provides a writable surface for twin use. Step 8.
  • Page 43: Install Stand-Alone Server In A Cabinet

    Server Unpacking and Installation Install Stand-Alone Server in a Cabinet Install Stand-Alone Server in a Cabinet The following describes how to install the A5556A slide-tray assembly into an approved HP cabinet in preparation for installing an rp54xx Server. This slide-tray assembly can be installed in an HP E-Series cabinet or other HP cabinets approved for rp54xx system installation.
  • Page 44 Server Unpacking and Installation Install Stand-Alone Server in a Cabinet Step 3. On the front vertical mounting posts only, slide M5 sheet metal nuts onto the posts over the holes immediately adjacent to the vertical slots determined in the previous step. Also place M5 sheet metal nuts on the holes directly above these.
  • Page 45 Server Unpacking and Installation Install Stand-Alone Server in a Cabinet Step 7. Take the left hand slide/bracket assembly (marked 337079-1L) and install it into the left hand vertical mounting posts. This is done by inserting the pin at the rear of the slide's mounting bracket into the 23rd hole in the rear vertical mounting post and inserting the hook at the front of the bracket into the vertical, rectangular slot in the aluminum spacer.
  • Page 46 Server Unpacking and Installation Install Stand-Alone Server in a Cabinet Step 10. Use an M5 x 30 screw with a cress cup washer to attach the front of the slide to the vertical mounting post. Insert the screw through the slide, through the center hole of the aluminum spacer, through the vertical mounting post, and tighten into the sheet metal nut located at that position.
  • Page 47 Server Unpacking and Installation Install Stand-Alone Server in a Cabinet Step 13. Use six, M5 x 12 screws (without washers) to attach the tray to the slides. Three screws are used to attach each slide. Insert the screws through the slides, through the tray and tighten into the threaded nuts located on the inside of the sides of the tray.
  • Page 48: Stationary L-Bracket Rail Assembly

    Servers may be installed into E-Series and approved Non- E-Series cabinets using stationary L-bracket rail assembly kits listed below. NOTE rp54xx Servers are supported in Hewlett-Packard E-series and approved Non- E-series Hewlett-Packard cabinets, and approved rail kits. For information on additional qualified 3rd party cabinets and rail kits, contact the nearest Hewlett-Packard Response Center.
  • Page 49: Identifying E-Series Hp Cabinets

    E-Series cabinets include the following product numbers: A5134A, A5136A, A5136A, A4900A, A4901A, A4902A, J1500A, J1502A, and J1502A. Identifying Static Rail Kit Hewlett-Packard has currently approved two static rail kits for use in cabinet mounting the rp54xx Server. They are illustrated below. A5562A Kit Rail...
  • Page 50 Server Unpacking and Installation Stationary L-Bracket Rail Assembly • Ensure that the rails extend out from the cabinet posts sufficiently to properly and safely support the equipment being installed. To install an rp54xx Server on stationary rails in an approved cabinet proceed as follows: Step 1.
  • Page 51: Cabling And Power-Up

    Cabling and Power-Up Chapter 3...
  • Page 52: Core I/O Connections

    Cabling and Power-Up Core I/O Connections Core I/O Connections The following paragraphs describe the indicators and connections of the rp54xx Core I/O. Core I/O consists of a LAN/SCSI card in slot 1 (lower slot in graphic) and a Guardian Service Processor (GSP) in slot 2 (upper slot in graphic).
  • Page 53 Cabling and Power-Up Core I/O Connections Requires an A5191-63001 “W” adapter cable 5. 10/100 Base-T = Primary LAN (RJ-45) Connection Path 0/0/0/0 6. Green/Yellow (Upper LED) Green = 100 Base-T Mode Green Blinking = 100 Base-T Receiving Amber = 10 Base-T Mode Amber Blinking = 10 Base-T Receiving 7.
  • Page 54: Revision B Gsp

    Cabling and Power-Up Core I/O Connections Revision B GSP The following graphic shows the indicators and connectors for the revision B GSP and LAN/SCSI Core I/O boards. 2 & 3 9 & 10 6 & 7 1. 10/100-Base-T LAN (RJ-45) Connector. GSP LAN.
  • Page 55 Cabling and Power-Up Core I/O Connections Green Blinking = 100 Base-T Receiving. Amber = 10 Base-T Mode. Amber Blinking = 10 Base-T Receiving. 7. Green (Lower LED). Green = Link OK (10/100 Base-T Mode indicated by LED #6). Green Blinking = Transmitting. 8.
  • Page 56: Guardian Service Processor (Gsp) Overview

    Cabling and Power-Up Guardian Service Processor (GSP) Overview Guardian Service Processor (GSP) Overview This section provides an overview of the Guardian Service Processor (GSP). The GSP is an always on, dedicated service processor that monitors system power, cooling and configuration, and provides console communications.
  • Page 57: Revision A Gsp

    Cabling and Power-Up Guardian Service Processor (GSP) Overview • 10/100 Base-T LAN connector for revision B GSP • On-board processor dedicated to GSP functions • Error logging and notification • Display of system alerts and selftest chassis codes • Powered by 15 VDC housekeeping power that is present when the front panel switch is off •...
  • Page 58: Configure System Consoles

    Cabling and Power-Up Configure System Consoles Configure System Consoles rp54xx Servers provide RS-232, REMOTE, LAN and WEB console access. All console access involves the Guardian Service Processor (GSP). rp54xx Servers use either a revision A or revision B GSP. Below is an illustration of the console access provided by the revision A GSP.
  • Page 59: Gsp Cables

    Cabling and Power-Up Configure System Consoles The revision B GSP has embedded web access, eliminating the need for an external Secure Web Console (SWC). Below is an illustration of the console access provided by the revision A GSP. GSP Cables Both the revision A and B GSPs provide a DB-25 connector for RS-232 communications.
  • Page 60 Cabling and Power-Up Configure System Consoles Step 1. The GSP is located in slot 2 of the rp54xx’ rear card cage. Connect the 25-pin end of: • the A5191-63001 W-cable to the 25-pin connector on the revision A GSP card (A5191-60012) OR •...
  • Page 61 Cabling and Power-Up Configure System Consoles HP 700 Series System Console Configuration The following describes the steps required to configure the HP 700 series terminal for VT-100 mode for operation with an rp54xx Server. Although any terminal capable of operating in VT-100 mode can be used, the HP700 series terminal is used here as an example because it is fairly common and it’s configuration is typical of many terminals currently in use.
  • Page 62 Cabling and Power-Up Configure System Consoles Local Console Serial Port bit rate: 9600 bits/s Local Console Serial Port Flow Control: Software Local Console Serial Port Terminal Type: vt100 Remote Console Serial Port Modem Protocol: CCITT Remote Console Serial Port Modem bit rate: 19200 bits/s Remote Console Serial Port Modem Flow Control: Software Remote Console Serial Port Modem Transmit Configuration Strings: Enabled...
  • Page 63: Configure Remote Console

    Cabling and Power-Up Configure System Consoles Configure Remote Console The remote console allows console access via modem connections. Below is an illustration of the REMOTE console. The GSP>ca command is used to configure asynchronous settings for the REMOTE console. Baud rates and emulations should match between the modems, remote ASCII terminal and the GSP.
  • Page 64: Configure The Lan Console

    Cabling and Power-Up Configure System Consoles Configure the LAN Console The LAN console allows you to access the console from the LAN using TelNet or http (revision B GSP only) protocols. Below is an illustration of the LAN console. The configuration of the LAN console of both the revision A and B GSPs may be done from either an ASCII console or the external Secure Web Console.
  • Page 65 Cabling and Power-Up Configure System Consoles The lc command will start a series of prompts. Respond to each prompt with the appropriate information. Example 3-2 LC command Leaving Console Mode - you may lose write access. When Console Mode returns, type ^E cf to get console write access.
  • Page 66: Configure The Web Console

    Cabling and Power-Up Configure System Consoles The GSP must be on the same subnet as the system being used to remotely configure the LAN NOTE port. If it is not, the remote configuration will be unsuccessful. Step 1. Determine the MAC address of the revision B GSP by examining the GSP MAC address label on the rear of the server.
  • Page 67 Cabling and Power-Up Configure System Consoles Refer to, “Install a Secure Web Console” for more information on Secure Web Console installation and configuration. For the revision B GSP, the web console is an embedded feature. The steps to configure a web console are the same as configuring a LAN console.
  • Page 68 Cabling and Power-Up Configure System Consoles Two browser windows will appear: a window with a white background and the HP invent logo and a separate GSP window with a black background. Example 3-4 GSP Browser Window Use the SETTINGS menu bar to configure web browser emulation. The GSP window also has its own HELP facility.
  • Page 69 Cabling and Power-Up Configure System Consoles Example 3-5 GSP Web Browser Help Screen When the separate GSP window is closed, it appears in the HP invent window with Zoom In/Out above it. Click on the Zoom In/Out bar to generate a separate GSP window. Chapter 3...
  • Page 70 Cabling and Power-Up Configure System Consoles Example 3-6 Combined GSP Browser Window There is not a separate administration “layer” when using the embedded web access of the revision B GSP. Web console access via the external Secure Web Console required that you first logon to the SWC, then click on ACCESS CONSOLE.
  • Page 71: Secure Web Console Installation

    Cabling and Power-Up Secure Web Console Installation Secure Web Console Installation The following section describes installation of the HP Secure Web Console on inside of the rear door of a rack-mounted rp54xx Server. For technical, installation, and configuration instructions for the Secure Web Console, refer to the following URLs on the Internet: General information: http://www.hp.com/...
  • Page 72 Cabling and Power-Up Secure Web Console Installation Place the Secure Web Console power supply into the bottom portion of the wire mounting bracket as shown. Step 2. Connect one end of the power cable to the power supply where indicated. Step 3.
  • Page 73 Cabling and Power-Up Secure Web Console Installation Step 7. Connect the 9-pin end of the RS-232 cable (Supplied) to the connector labeled CONSOLE on the A5591-63002 “W-type” adapter cable. CAUTION To prevent unauthorized access to your rp54xx system, do not connect the other end of the serial cable to the Secure Web Console until both the server and the Web Console have both been fully configured.
  • Page 74: Gsp Configurable Parameters

    Cabling and Power-Up GSP Configurable Parameters GSP Configurable Parameters Once a system console is configured, additional GSP parameters may be set. For a complete list use the GSP>he command to access the on-line help facility. Examples of three configurable parameters follow. Adding Users The GSP provides a maximum of 20 users (one administrator and 19 operators).
  • Page 75: Removing Users

    Cabling and Power-Up GSP Configurable Parameters Be sure to read each prompt carefully and enter the correct response. A missed or incorrect CAUTION entry could deny entry to that user. The following is an example of an added user’s information: .
  • Page 76: Return The Gsp To Default Configurations

    Cabling and Power-Up GSP Configurable Parameters Return the GSP to Default Configurations The Default Configuration (dc) command is used to reset all or some of the GSP values to the default values. To return GSP values to default configurations, perform the following steps: 1.
  • Page 77: Rp54Xx Server Boot Process

    Cabling and Power-Up rp54xx Server Boot Process rp54xx Server Boot Process The length of time an rp54xx Server will require to complete the boot process depends on the number of processors and the amount of RAM installed. Average configurations can take more than 20 minutes. The boot process consists of the following main steps: Chapter 3...
  • Page 78 Cabling and Power-Up rp54xx Server Boot Process During the Boot process a variety of errors or problems can occur as shown below: Chapter 3...
  • Page 79: Initial Power-Up

    Cabling and Power-Up rp54xx Server Boot Process Initial Power-up The following section describes the process of applying power to the rp54xx Server and booting the system to the UNIX Login prompt. The amount of time it takes to go through self-test then boot the system will vary widely depending on hardware configuration.
  • Page 80 Cabling and Power-Up rp54xx Server Boot Process Step 3. Several self-test boot progress screens will be displayed and will scroll rapidly up the screen. Some tests may pause for up to one minute while the test completes. The following examples of the forward progress screens are typical of the screens displayed. Brief Verbose Chapter 3...
  • Page 81 Cabling and Power-Up rp54xx Server Boot Process Step 4. When the initial power-up boot process completes in approximately one to five minutes, the BCH main menu will be displayed: Step 5. To start the boot process using the primary boot path, enter BO PRI, at Boot Console Handler BCH main menu prompt and press ENTER NOTE...
  • Page 82 Cabling and Power-Up rp54xx Server Boot Process Chapter 3...
  • Page 83: Index

    Index rp54xx Server Boot Process Adding Users Additional Components Secure Web Console Installation Stationary L-Bracket Rail Assembly Configure Remote Console Configure RS-232 Console Configure System Consoles Unpacking the SPU Configure the LAN Console Configure the Web Console Configuring the GSP LAN Port via an ASCII console Core I/O Connections Graphics Troubleshooting GSP Cables...
  • Page 84 Index...

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