HP Cluster Platform Server and Workstation Overview

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HP Cluster Platform

Server and Workstation Overview

HP Part Number: A-CPSOV-1H

Published: March 2009

Summary of content (248 pages)

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HP Cluster Platform Server and Workstation Overview HP Part Number: A-CPSOV-1H Published: March 2009
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© Copyright 2009 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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Table of Contents About This Manual..........................................................................................................14 Audience...............................................................................................................................................14 Organization.........................................................................................................................................15 HP Cluster Platform Documentation.............................
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2.3.1 PCI Slot Assignments..............................................................................................................63 2.4 HP ProLiant DL360 G3, G4, and G4p..............................................................................................63 2.4.1 PCI Slot Assignments..............................................................................................................68 2.4.2 Embedded Technologies.........................................................................
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3.4 HP ProLiant DL385 G1..................................................................................................................124 3.4.1 PCI Slot Assignments............................................................................................................125 3.4.2 Removing an HP ProLiant DL385 G1 from a Rack...............................................................126 3.4.3 Replacing an HP ProLiant DL385 PCI Card......................................................................
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4.10.3 HP ProLiant BL480c Internal View......................................................................................185 4.10.4 HP ProLiant BL480c System Board.....................................................................................186 4.10.5 Memory Options..................................................................................................................187 4.10.6 Mezzanine HCA Card............................................................................................
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5.3.5 Connecting PCI Graphics Cards to Displays........................................................................229 5.3.6 The NVIDIA FX G-Sync PCI Graphics Card (Optional).......................................................229 5.3.7 System Interconnect Cards....................................................................................................230 5.3.8 Memory Configurations........................................................................................................230 5.3.
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List of Figures 1-1 1-2 1-3 1-4 1-5 1-6 1-7 1-8 1-9 1-10 1-11 1-12 1-13 1-14 1-15 1-16 1-17 1-18 1-19 1-20 1-21 1-22 1-23 1-24 1-25 1-26 1-27 1-28 1-29 1-30 2-1 2-2 2-3 2-4 2-5 2-6 2-7 2-8 2-9 2-10 2-11 2-12 2-13 2-14 2-15 2-16 2-17 2-18 2-19 2-20 2-21 2-22 8 HP Integrity rx1620 Front Panel....................................................................................................25 HP Integrity rx1620 Rear Panel.......................................................................................
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2-23 2-24 2-25 2-26 2-27 2-28 2-29 2-30 2-31 2-32 2-33 2-34 2-35 2-36 2-37 2-38 2-39 2-40 2-41 2-42 2-43 3-1 3-2 3-3 3-4 3-5 3-6 3-7 3-8 3-9 3-10 3-11 3-12 3-13 3-14 3-15 3-16 3-17 3-18 3-19 3-20 3-21 3-22 3-23 3-24 3-25 3-26 3-27 3-28 3-29 3-30 3-31 3-32 3-33 3-34 ProLiant DL360 G5 Rear Panel LEDs............................................................................................77 System Insight Display (Actual)......................................................................................
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3-35 3-36 3-37 3-38 3-39 3-40 3-41 3-42 3-43 3-44 3-45 3-46 3-47 3-48 3-49 3-50 3-51 3-52 3-53 3-54 3-55 3-56 3-57 3-58 3-59 4-1 4-2 4-3 4-4 4-5 4-6 4-7 4-8 4-9 4-10 4-11 4-12 4-13 4-14 4-15 4-16 4-17 4-18 4-19 4-20 4-21 4-22 4-23 4-24 4-25 4-26 4-27 4-28 4-29 4-30 10 Removing the HP ProLiant DL385 PCI Riser Cage.....................................................................128 Unlocking the HP ProLiant DL385 PCI Retaining Clip..............................................................
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4-31 4-32 4-33 4-34 4-35 4-36 4-37 4-38 4-39 4-40 4-41 4-42 5-1 5-2 5-3 5-4 5-5 5-6 5-7 5-8 5-9 5-10 5-11 5-12 5-13 5-14 5-15 5-16 5-17 5-18 5-19 5-20 5-21 5-22 5-23 5-24 5-25 5-26 5-27 5-28 5-29 5-30 HP ProLiant BL465c Front Panel LEDs.......................................................................................192 HP ProLiant BL465c Internal View..............................................................................................193 HP ProLiant BL465c System Board Components............
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List of Tables 1 1-1 1-2 1-3 1-4 1-5 1-6 1-7 1-8 1-9 1-10 1-11 1-12 1-13 1-14 2-1 2-2 2-3 2-4 2-5 2-6 2-7 2-8 2-9 2-10 2-11 2-12 2-13 2-14 2-15 2-16 2-17 2-18 2-19 2-20 2-21 2-22 2-23 2-24 2-25 2-26 2-27 2-28 2-29 3-1 3-2 3-3 3-4 3-5 3-6 3-7 3-8 12 HP Cluster Platform Supported Servers.......................................................................................14 HP Integrity rx1620 Front Panel....................................................................................................
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3-9 3-10 3-11 3-12 3-13 3-14 4-1 4-2 4-3 4-4 4-5 4-6 4-7 4-8 4-9 4-10 5-1 5-2 5-3 5-4 5-5 5-6 5-7 5-8 5-9 5-10 5-11 5-12 5-13 5-14 HP ProLiant DL385 G2 Features.................................................................................................129 HP ProLiant DL385 G2 PCI Express Slot Assignments..............................................................132 HP ProLiant DL385 G2 PCI Express/PCI-X Slot Assignments....................................................
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About This Manual This manual presents an overview of the servers and workstations used in HP Cluster Platform solutions. This manual references the original component documentation for detailed information, except where information or procedures for the cluster differ from the standalone components. In these cases, this manual supersedes information supplied in existing component documentation. HP Cluster Platform products support the servers listed in Table 1.
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The information in this manual assumes that the reader has the following knowledge: • Is familiar with HP rack-mounted servers and associated rack hardware. • Is familiar with basic networking concepts, network switch technology, and network cables. • Is familiar with the theory and implementation of the high-speed system interconnect technology used to create clusters. • Has read the HP Cluster Platform Overview and is familiar with HP Cluster Platform architecture and concepts.
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Bracket Installation Guides Some HP Cluster Platform solutions use custom brackets for servers, switches, and cable management.
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Server Model Web Location ProLiant DL160 Generation 5 Server Maintenance and Service Guide http://bizsupport.austin.hp.com/bc/docs/support/SupportManual/c01325420/ c01325420.pdf ProLiant DL160 Generation 5 Server Installation Sheet http://bizsupport.austin.hp.com/bc/docs/support/SupportManual/c01403321/ c01403321.pdf HP ProLiant DL160 G5p ProLiant DL160 Generation 5p Server Maintenance and Service Guide http://bizsupport1.austin.hp.com/bc/docs/support/SupportManual/c01555951/ c01555951.
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Server Model Web Location ProLiant DL380 Generation 4 Server Reference and Troubleshooting Guide http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00300504/ c00300504.pdf ProLiant DL380 Generation 4 SCSI Cabling Matrix http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00218257/ c00218257.pdf HP ProLiant DL380 G5 ProLiant DL380 Generation 5 Server Maintenance and Service Guide http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00710359/ c00710359.
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Server Model Web Location HP ProLiant BL35p Server Blade Maintenance and Service Guide http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00293017/ c00293017.pdf HP ProLiant BL45p Server Blade Maintenance and Service Guide http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00366047/ c00366047.pdf HP BladeSystem p-Class Enclosure HP BladeSystem p-Class Maintenance and http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00065042/ Service Guides c00065042.
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Server Model Web Location HP Integrity BL860c Server Blade QuickSpecs http://h18004.www1.hp.com/products/quickspecs/12671_na/12671_na.pdf HP BladeSystem c-Class Enclosure HP BladeSystem c-Class Maintenance and http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00714237/ Service Guides c00714237.pdf HP BladeSystem c7000 Enclosure Setup and Installation Guide http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00698286/ c00698286.pdf HP BladeSystem c-Class Site Planning Guide http://h20000.
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Server Model Web Location Integrated Lights-Out Security Technology Brief, Fifth Edition http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00212796/ c00212796.pdf ROM-Based Setup Utility User Guide http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00191707/ c00191707.pdf HP BladeSystem Onboard Administrator http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00705292/ User Guide c00705292.
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Server Model Web Location HP Integrity rx4640 Operations Guide http://docs.hp.com/en/rx4640_ops/rx4640_ops.pdf HP Integrity rx4640 Server Upgrade Guide, Second http://docs.fc.hp.com/en/A6961-96018/A6961-96018.pdf Edition For more information about HP Workstations used in HP Cluster Platform configurations, see the following table. Also refer to the documentation that shipped with your cluster. Workstation Model Web Location All models Getting Started Guide HP Workstations http://h200002.www2.hp.
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Important Safety Information This manual provides only an overview of the procedures for removing servers from a cluster rack and for installing PCI cards. Before performing such procedures, read the safety information provided in the following documents: • HP Cluster Platform Site Preparation Guide – The servers are installed in HP 10000-series racks.
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zk-2071 ! CAUTION: To avoid the risk of damage to the system or expansion boards, remove all power cords before installing or removing expansion boards. When the Power On/Off switch is in the Off position, auxiliary power is still connected to the PCI expansion slot and can damage the card. ! CAUTION: Electrostatic discharge can damage electronic components. Be sure you are properly grounded before beginning any installation procedures.
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1 Itanium Processor Servers The following Itanium processor servers in the HP Integrity series are supported in HP Cluster Platform solutions. This chapter presents the following information: • An overview of the HP Integrity rx1620 (Section 1.1) • An overview of the HP Integrity rx2600 (Section 1.2) • An overview of the HP Integrity rx2620 (Section 1.3) • An overview of the HP Integrity rx2660 (Section 1.4) • An overview of the HP Integrity rx3600 (Section 1.
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Table 1-1 HP Integrity rx1620 Front Panel (continued) Name Function Diagnostic LEDs The four diagnostic LEDs operate in conjunction with the system LED to provide diagnostic information about the system. LAN LED The LAN LED provides status information about the LAN interface. When the LAN LED is flashing, there is activity on the LAN. System LED The System LED provides system status information. When operation is normal, the LED is green. When there is a system warning, the LED flashes yellow.
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Table 1-2 HP Integrity rx1620 Rear Panel Features (continued) Connector/Switch Function 10/100/1000 LAN B 10/100/1000 base-T ethernet LAN B connector. Wake-on-LAN and Alert-on-LAN capabilities. Serial 9-pin male serial connector. This the console connector if the optional management processor card is not installed. USB Two universal serial bus (USB 2.0) connectors. Locator Button and LED The locator button and LED are used to help locate a server within a rack of servers.
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that is, two DIMMs per memory cell, loaded in the same location in each memory cell and using the following upgrade rules: • Begin with four identical DIMMs, loading them into the slots labeled Load Order 1st and 2nd. • Add four identical DIMMs (identical to each other, but potentially different from the original quad), loading them into the slots labeled Load Order 3rd and 4th.
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1. 2. Remove the server cover. Release the PCI I/O riser by turning the jackscrew, as shown in Figure 1-3. This action frees the PCI I/O riser from the system board. Figure 1-3 Releasing the PCI I/O Riser 3. Remove the PCI I/O riser from the chassis (Figure 1-4). Figure 1-4 Removing the PCI I/O Riser Assembly HPTC-0227 4. Remove the PCI slot cover, as shown in Figure 1-5. 1.
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Figure 1-5 Removing the PCI Slot Cover HTPC-0213 5. Grasp the edges of the PCI card being installed and gently press the connector into the PCI I/O riser connector, as shown in Figure 1-6. Figure 1-6 Sliding the Card into the PCI Riser Connector HPTC-0210 6. 7. 8. 9. Insert the card mounting screw and secure it with a T-15 driver.
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Figure 1-7 HP Integrity rx2600 Front Panel 2 3 4 5 1 The following list describes the callouts shown in Figure 1-7: Item Description 1 SCSI drives 2 Locator LED 3 Diagnostic LEDs 4 Power switch 5 CD-ROM drive Table 1-3 describes the ports on the rear of the HP Integrity rx2600 that are used for connections to other cluster components. These ports are identified by the callouts in Figure 1-8. Refer to the cabling tables for explanations of the connection origins and destinations.
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Table 1-3 HP Integrity rx2600 Ports Used in Clusters Callout Port Label Node Role Cluster Cabling Name and Description 1 PWR 1 All Power input 1 is used for the single power connection. MP 10/100 MP Console, CES – The management processor Ethernet LAN connection. This 10/100 Base-T port is connected to the root console Control and utility switch (CES1) in the Utility Building Block (UBB). 3 LAN Gb NIC2 (Administrative, AES) – The Gigabit Ethernet Port .
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1. 2. 3. 4. 5. 6. 7. LAN 10/100 (management port) Management card VGA GSP reset (soft) GSP reset (hard) LAN 10/100 (NIC 1) LAN Gb (NIC 2) The ports, their labels, and the corresponding HP Cluster Platform cabling identifiers are shown in Figure 1-9. A single embedded gigabit Ethernet port is available on the HP Integrity rx2600 (NIC2). This Gigabit Ethernet port is dedicated to the cluster's administrative network.
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Table 1-4 Memory Slot Loading Order (continued) Load Order Memory Cell 0 Load Order Memory Cell 1 5th DIMM 4B 6th DIMM 5B 3rd DIMM 2B 4th DIMM 3B The HP Integrity rx2600 supports the chip spare feature, enabling the server's error handling to bypass an entire DDR SDRAM chip on a DIMM if a multi-bit error is detected. To use the chip spare feature, you must install only DIMMs built with DDR SDRAM.
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1.2.5 Installing or Removing a PCI Card The HP Integrity rx2600 has four 64-bit, 133 MHz PCI-X card slots in a removable PCI/AGP cage. To remove and replace a PCI card, remove the server’s cover and take out the PCI card cage. Removal instructions are provided on the card cage label. Detailed information is provided in HP Integrity rx2600 Server and HP Workstation zx6000 - Operations and Maintenance Guide.
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Figure 1-12 Removing the Blank 4. Retain the screw to secure the card and save the blank plate for later use if the card is removed. Insert (or remove) the card and secure it with a bulkhead screw as shown in Figure 1-13. Figure 1-13 Inserting the Card HPCT-0204 5. If you remove a card, ensure that you replace the blank plate to maintain the correct airflow for optimum cooling. 1.3 HP Integrity rx2620 The HP Integrity rx2620 is an updated version of the rx2600 described in Section 1.2.
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Table 1-5 HP Integrity rx2620 Features (continued) Component Specification Internal storage devices Internal hard disk drive bays: 3 Disk drive sizes: 36 GB, 73 GB, and 146 GB drives available Disk drive interface: Ultra320 SCSI Removable media: 1 open bay for DVD-ROM or DVD+RW Maximum internal storage 438 GB (3 x 146 GB) Expansion slots 4 full-length 64-bit/133MHz PCI-X Core I/O and management processor interconnect Two 10/100/1000 Base-T Ethernet One 10/100Base-T management LAN Dual channel Ultra
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Figure 1-15 HP Integrity rx2620 Rear Panel 1 11 9 5 WARNING Unplug all power cords from system before servicing PWR PWR 1 2 Management Card CONSOLE LAN 10/100 VGA CONSOLE / REMOTE / UPS MP RESET SERIAL A Automatic Internal SCSI Termination SCSI LVD/SE 2 LAN Gb B LAN Gb A 3 4 6 7 TOC SERIAL B USB 8 10 12 13 The following table describes the callouts in Figure 1-15.
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Table 1-7 HP Integrity rx2620 PCI Slot Assignments Slot Assignment 1 PCI interconnect (optional) 2 10/100/1000 BaseT NIC (optional) 3 Fibre Channel HBA (optional) 4 Fibre Channel HBA (optional) or 10/100/100 BaseT NIC (optional) or empty To install an interconnect host bus adapter (HBA) or host channel adapter (HCA) card in the HP Integrity rx2620, use the procedure described in Section 1.2.5. See the following documents for more information: • HP Integrity rx2620 Installation Guide: http://docs.
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Table 1-8 HP Integrity rx2660 Features (continued) Component Specification There are also a pair of internal slots dedicated to optional RAID 5/PCI-e for the SAS drives.
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Figure 1-17 HP Integrity rx2660 Rear Panel 1 2 4 3 5 6 7 8 9 10 11 12 18 23 22 21 17 20 19 14 13 16 15 The following table describes the callouts shown in Figure 1-17.
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Item Description Comments 22 System LAN port 2 Connect to Administrative Network Switch (AES1) 23 LAN link speed LED (LAN port 2) 1.4.1 PCI Slot Assignments The HP Integrity rx2660 has three PCI slots. Table 1-9 and Table 1-10 summarize the slot assignments and the PCI cards.
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3. Disconnect the AC power cord, first from the AC outlet and then from the server. Warning! Ensure that the system is powered off and all power sources have been disconnected from the server prior to performing this procedure. Voltages are present at various locations within the server whenever an AC power source is connected. This voltage is present even when the main power switch is in the off position. Failure to observe this warning may result in personal injury or damage to equipment. 4. 5. 6.
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Figure 1-19 Integrity rx2660 PCI-X I/O Backplane Assembly 3 3 2 1 4 9 8 7 6 The following list describes the callouts shown in Figure 1-19: 1. Gate latches 2. PCI-X backplane assembly 3. Guide tabs 4. Slotted T15 screws 5. PCI slot covers 6. PCI-X slot 3 7. PCI-X slot 2 8. PCI-X slot 1 9. PCI-X riser board Figure 1-20 Integrity rx2660 Mixed PCI-X/PCI–E I/O Backplane Assembly 4 3 2 1 The following list describes the callouts shown in Figure 1-20: 1. PCI-E slot 1 2.
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3. 4. PCI-X slot 3 Mixed PCI-X/PCI-E riser board 1.4.3 Installing PCI Cards in the Integrity rx2660 Ensure that you install the proper drivers for the PCI-X/PCI-E card before installing the card. To install a PCI-X/PCI-e card, follow these steps: 1. Remove the I/O backplane assembly as described in Section 1.4.2. 2. Remove the defective PCI card or install a new PCI-X or PCI-E card. 3. If not already removed, remove the appropriate slot cover (see callout 5 in Figure 1-19) for the PCI slot to be used. 4.
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Figure 1-22 HP Integrity rx3600 Rear View 1 2 3 4 5 6 Table 1-11 describes the ports on the rear of the HP Integrity rx3600 that are used for connections to other cluster components. These ports are identified by the callouts in Figure 1-22. Refer to the cabling tables for explanations of the connection origins and destinations.
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MB, 512 MB, 1 GB, and 2 GB providing you follow the upgrade rules for mixed DIMMs. For the HP Integrity rx3600 these rules are: • The HP Integrity rx3600 has a sixteen-DIMM memory extender board that is minimally configured with 1 GB of memory, four 256 MB DIMMs loaded in quad 0 (slots 0A, 0B, 0C, and 0D. • An optional 32 DIMM memory extender board is available to replace the 16-DIMM memory extender board. Configure the extender board with a minimum of 1 GB in quad 0.
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The HP Cluster Platform hardware does not impose any restrictions on supported options. However, the system software can restrict supported options to guarantee performance, or to reduce qualification test matrices. 1.5.4 Installing or Removing a PCI Card The HP Integrity rx3600 provides eight PCI slots across five PCI-X buses and supports hot-pluggable PCI-X devices. However, you should not install the interconnect PCI adapter while the server is running.
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Figure 1-24 Removing the Server's Top Panel 1 3. 4. If you are inserting a card, remove the bulkhead screw that attaches the blank plate to the server chassis. Retain both the screw and the plate. Insert the PCI adapter into slot 8, which is closest to the side of the server’s case and furthest from the power inlet. Ensure that the card is level, as shown in Figure 1-25. Figure 1-25 Installing the PCI Card Secure the card using the bulkhead screw. 5.
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1.5.5 Cable Management Each HP Integrity rx3600 that has a connection to the system interconnect requires one cable bracket installed on the rear rack column. This component is documented in the HP Cluster Platform Integrity rx3600 Cable Bracket Installation Guide. 1.6 HP Integrity rx4640 The HP Integrity rx4640 is a 4U, quad-processor server that typically functions as a control node, utility node, or I/O node. It is a 4-socket system rack-mount server based on the Itanium 2 processor family architecture.
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Table 1-13 HP Integrity rx4640 Ports Used in Clusters Callout Port Label Cluster Cabling Name and Description 1 PWR 0 and PWR 1 When used as a control node only, both power supplies are used to provide redundancy. Otherwise, utility nodes use only PWR 0. 2 Screen Icon VGA Video Port. When used as a control node, this port is optionally connected to the cluster's KVM console.
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1.6.3 PCI-X Slot Assignment and Supported Options PCI-X slots are numbered from 1 through 8, with the interconnect card in slot 8 on the far right of the enclosure, as shown in Figure 1-27. The configuration requirements for slots 1 through 8 are as follows: • PCI slots 1 and 2 are dedicated for use by the core I/O cards—SCSI HBA card in slot 1 and dual-port gigabit Ethernet LAN card in slot 2. Slots 1 and 2 are not hot-pluggable capable. Do not install additional PCI-X expansion cards in slots 1 or 2.
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Figure 1-28 Removing the Screws that Secure the Server in the Rack 1 2. Remove the server’s top rear cover to access the PCI slots by unscrewing the thumbscrews at the rear of the server (see callout 1 in Figure 1-29). Figure 1-29 Removing the Server's Top Panel 1 3. 4. If you are inserting a card, remove the bulkhead screw that attaches the blank plate to the server chassis. Retain both the screw and the plate.
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Figure 1-30 Installing the PCI Card Secure the card using the bulkhead screw. 5. If you remove a card, ensure that you replace the blank plate to maintain the correct airflow for optimum cooling. 1.6.5 Cable Management Each HP Integrity rx4640 that has a connection to the system interconnect requires one cable bracket installed on the rear rack column. This component is documented in the HP Cluster Platform Integrity rx4640 Cable Bracket Installation Guide.
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2 Xeon Processor Servers Several servers based on the Xeon processor are supported in HP Cluster Platform solutions. This chapter presents overviews of the following servers: • HP ProLiant DL140 G2 (Section 2.1). • HP ProLiant DL140 G3 (Section 2.2 ). • HP ProLiant DL160 G5 and G5p(Section 2.3) • HP ProLiant DL360 G3, G4, and G4p (Section 2.4). • HP ProLiant DL360 G5 (Section 2.5). • HP ProLiant DL380 G3 and G4 (Section 2.6) • HP ProLiant DL380 G5 (Section 2.7). 2.
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Figure 2-1 HP ProLiant DL140 G2 Front Panel 1 2 3 4 6 8 HP ProLiant DL 145 5 The following table describes the callouts in Figure 2-1. Table 2-2 HP ProLiant DL140 G2 Front Panel Features Item Description 1 Hard disk drive (HDD) bays 2 Optical media device bay 3 Unit identification (UID) button with LED indicator (blue) 4 System health LED indicator (amber) 5 Activity/link status LED indicators for NIC 1 and NIC 2 (green) 6 HDD activity LED indicator (green) 7 USB 2.
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Table 2-3 HP ProLiant DL140 G2 Rear Panel Features (continued) Item Description 9 Serial port (teal) 10 Standard height, full-length 64-bit/133 MHz PCI-X riser board slot cover. You can convert the PCI-X functionality of this slot to PCI Express using the PCI Express riser board option kit. 11 PS/2 keyboard port (purple) 12 PS/2 mouse port (green) 13 10/100 MB/s LAN port for IPMI management (RJ-45) 14 IEC power inlet 2.1.
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1. Remove the cover as follows: a. Loosen the captive thumbscrew on the rear panel. This screw is identified by item 2 in Table 2-3. b. Slide the cover approximately 1.25 cm (0.5 in) toward the rear of the unit, then lift the cover to detach it from the chassis. c. Place the top cover in a safe place for reinstallation later. 2. Loosen the two captive thumbscrews that secure the PCI card cage to the chassis, as shown in Figure 2-3. Figure 2-3 Removing the HP ProLiant DL140 G2 PCI Card Cage 2 1 1 3.
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Figure 2-5 Installing an Interconnect Adapter in the HP ProLiant DL140 G2 PCI Card Cage 6. Reinstall the PCI riser board assembly as follows: a. Align the assembly with the system board expansion slots, then press it down to ensure full connection to the system board. b. Tighten the two captive thumbscrews to secure the assembly to the chassis. 7. Replace the server lid by reversing the procedure described in Step 1.
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Table 2-7 HP ProLiant DL140 G3 Features (continued) Feature Specification Cache 5100 series: 4 MB (1x4 MB L2 cache) 5000 series: 4 MB (2x2 MB L2 cache) Memory type PC2-5300 Fully Buffered DIMMs (DDR2-667) with Advanced ECC Maximum memory 16 GB Storage (Maximum two 3.
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Table 2-8 HP ProLiant DL140 G3 Front Panel Features (continued) Item Description 8 Power button with LED indicator (bicolor: green and amber) 9 Thumbscrews for the front bezel 2.2.1 HP ProLiant DL140 G3 PCI Slot Assignments The ProLiant DL140 G3 has two PCI Express slots (optional PCI-X) on the rear of the chassis. All slots can accept universal keyed PCI cards. Table 2-9, Table 2-10, and Table 2-11 summarize the PCI slot assignments.
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Table 2-12 HP ProLiant DL140 G3 Memory Module Sequence (continued) Slot Capacity DIMMA3 and DIMMB3 Next largest capacity modules DIMMA4 and DIMMB4 Largest capacity modules, such as 2 GB 2.2.3 Installing a PCI Card in the DL140 G3 Installation of PCI cards in the DL140 G3 PCI riser board is the same as the DL140 G2 described previously in Section 2.1.3. The HP ProLiant DL140 Generation 3 Server supports up to two optional PCI-X riser boards.
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Figure 2-8 shows the rear view of the ProLiant DL160 G5 and G5p. Figure 2-8 HP ProLiant DL160 G5 and G5p Rear View 1 2 3 4 5 15 14 13 12 6 11 10 7 9 8 The following list describes the callouts shown in Figure 2-8: 1. Power supply cable socket 2. PS/2 mouse port (green) 3. GbE LAN port for NIC2 4. Captive thumbscrew for top cover 5. Serial port (teal) 6. Low profile/Half length expansion slot 7. Full-height/Full-length expansion slot 8. T10/T15 wrench 9. Thumbscrew for PCI cage 10.
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Table 2-13 ProLiant DL360 G3, G4 and G4p Model Comparison Feature HP ProLiant DL360 G3 HP ProLiant DL360 G4 and G4p Processor 2.4+GHz Xeon, 533MHz Front Side Bus (2P) Intel Xeon processor 3.4, 3.4, and 3.
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Figure 2-9 HP ProLiant DL360 G3 Front Panel 1 3 7 2 4 5 6 The following table describes the callouts in Figure 2-9. Item Description 1 Floppy drive 2 SCSI drive bay 1 3 CD-ROM drive 4 SCSI drive bay 2 5 Fan module 6 Power switch 7 Signal LEDs Figure 2-10 HP ProLiant DL360 G3 Rear Panel with Single Power Supply 2 1 3 11 7 4 5 6 12 9 8 10 The following table describes the callouts in Figure 2-10.
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Item Description 8 Keyboard connector (purple) 9 USB ports 10 UID 11 PCI Slot 2 12 Power supply Figure 2-11 and Figure 2-12 show the front and rear panels of the ProLiant DL360 G4 servers. The DL360 G4 front panel is the same as the DL360 G3 with the exception that the G4 has a USB port below the power switch.
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The following table describes the callouts in Figure 2-12. Item Description 1 PCI-X expansion slot 1 (64-bit/133-MHz 3.3V) 2 Serial connector (teal) 3 Video connector (blue) 4 Keyboard connector (purple) 5 Mouse connector (green) 6 iLO connector 7 10/100/1000 NIC 1 8 10/100/1000 NIC 2 9 PCI-X expansion slot 2 (64-bit/100 MHz 3.3V) 10 USB connector 11 Power supply bay 2 (optional) 12 Power supply bay 1 The ProLiant DL360 G4p is a variant of the ProLiant DL360 G4.
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Figure 2-14 HP ProLiant DL360 G4p Rear Panel 7 1 2 3 4 5 11 6 8 9 12 10 The following table describes the callouts in Figure 2-14: Item Description 1 PCI-X expansion slot 1, 64-bit 133-MHz 3.3V (optional PCI Express slot 1, x8) 2 Serial connector (teal) 3 Video connector (blue) 4 Keyboard connector (purple) 5 Mouse connector (green) 6 iLO connector 7 PCI-X expansion slot 2, 64-bit 133 MHz 3.
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console. By default, an iLO uses the Dynamic Host Configuration Protocol (DHCP) to obtain its IP address. The system software uses this feature when configuring the cluster. Standard features of iLO include remote power on/off, a text interface for remote viewing and management of the server's boot sequence, server logs, alert forwarding, diagnostics, group administration, and security features, including 128-bit Secure Socket Layer (SSL) encryption.
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2.4.4 Removing a Server from the Rack To access internal components in the HP ProLiant DL360 G3 and G4 servers, you must first power down the server and then remove it from the rack. All of the servers in the cluster are secured to the rack on a sliding rail. The front panel power button on the HP ProLiant DL360 G3 and G4, , as shown in Figure 2-15, toggles power between on and standby.
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Figure 2-17 Sliding the Server from the Rack 2 2 1 2 2 MC 1 MC 2 3 MC 1 MC 2 1 2.4.4.1 Accessing Internal Components To access internal components in the ProLiant DL360 servers, remove the access panel. When performing this task, heed the warnings and cautions listed in “Important Safety Information” (page 23). To remove the access panel, as shown in Figure 2-18, take the following steps: 1. Remove the server from the rack. 2. Lift up on the hood latch (callout 1).
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2.4.5 Replacing a PCI Card When replacing a PCI card, you need a grounding strap. The adapter card is sensitive to electrostatic discharge. Take care to avoid mishandling, which could damage the card. Before beginning installation, and without removing the adapter card from its antistatic bag, inspect the product for any signs of obvious damage, such as chipped or loose components. To replace a PCI card, follow these steps: 1.
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2.5 HP ProLiant DL360 G5 The HP ProLiant DL360 G5 allows up to two dual-core Intel Xeon 5100/5000 series processors and offers up to six hot-pluggable SATA/SAS drive bays (depending on the model). There are three different model classifications of the HP ProLiant DL360 G5, such as: Performance The HP ProLiant DL360 G5 performance models feature two dual-core Intel Xeon 5160/5150 processors and up to six active SATA/SAS drive bays.
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Table 2-15 HP ProLiant DL360 G5 Features (continued) Feature Model/Type Description Entry models Four Small Form Factor bays Network controller Embedded Dual NC373i Multifunction Gigabit Network Adapters with TCP/IP Offload Engine, including support for Accelerated iSCSI through an optional ProLiant Essentials Licensing Kit Expansion slots Two PCI Express expansion slots: one full-length, full-height slot; one low-profile slot Front or rear accessible video port USB 2.
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The following table describes the callouts in Figure 2-20: Item Description 1 Hard drive bay 5 (an optional controller is required when the server is configured with six hard drives) 2 Hard drive bay 6 (an optional controller is required when the server is configured with six hard drives) 3 Multi-bay drive bay 4 USB port 5 Slide-out System Insight Display 6 Video connector 7 Hard drive bay 4 8 Hard drive bay 3 9 Hard drive bay 2 10 Hard drive bay 1 11 Slide out asset tag 2.5.
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Item Description 12 Multifunction Gigabit Ethernet NIC 1 13 Multifunction Gigabit Ethernet NIC 2 2.5.3 HP ProLiant DL360 G5 Front Panel LEDs The HP ProLiant DL360 G5 front panel LEDs are shown in Figure 2-22. Figure 2-22 ProLiant DL360 G5 Front Panel LEDs 1 2 3 4 4 5 6 The following table describes the callouts in Figure 2-22. Table 2-16 ProLiant DL360 G5 Front Panel LEDs Item Description Status 1 Power On/Standby button and system power LED Green = System is on.
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Table 2-16 ProLiant DL360 G5 Front Panel LEDs (continued) Item Description Status If power is off, the front panel LED is not active. View the LEDs on the RJ-45 connector for status by referring to the rear panel LEDs. 6 NIC 2 link/activity LED Green = Network link exists. Flashing green = Network link and activity exist. Off = No link to network exists. If power is off, the front panel LED is not active. View the LEDs on the RJ-45 connector for status by referring to the rear panel LEDs. 2.5.
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Table 2-17 ProLiant DL360 G5 Rear Panel LEDs and Buttons (continued) Item Description Status Flashing blue = System is being managed remotely. Off = Identification is deactivated. 8 Power supply 2 LED Green = Normal. Off = System is off or power supply has failed. 9 Power supply 1 LED Green = Normal. Off = System is off or power supply has failed. 2.5.5 System Insight Display The HP ProLiant DL360 G5 has a slide-out System Insight Display.
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Note: The System Insight Display LEDs represent the board layout (see Figure 2-25). Figure 2-25 System Insight Display Map Table 2-18 describes the status of the System Insight Display LEDs.
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Table 2-19 System Insight Display LED and Internal Health LED Combinations HP Systems Insight Display LED and Color Internal Health LED Color Status Processor failure, socket X (amber) Red One or more of the following conditions may exist: – Processor in socket X has failed. – Processor X is required, but not yet installed in the socket. – Processor X is unsupported. Amber Processor in socket X is in a prefailure condition. Processor failure, both sockets (amber) Red Processor types are mismatched.
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2.5.7 HP ProLiant DL360 G5 Embedded Technologies and Fault Tolerance The HP ProLiant DL360 G5 is similar to prior generations in that it also has embedded technologies, including: • iLO2 features Integrated Remote Console with KVM over IP performance over shared network access which is used to connect to the console network.
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Figure 2-26 PCI Riser Board Assembly 1 2 7. Lift the front of the assembly slightly and unseat the riser boards from the PCI riser board connectors (see callout 2 in Figure 2-26). Note: Be sure that all of the DIMM slot latches are closed to provide adequate clearance before removing the PCI riser board assembly with a half-length expansion board. 8. 9. Remove the riser card from the PCI connector side of the card. Remove the new PCI adapter from its antistatic plastic bag.
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Important: A 64-bit riser card must be used in a 64-bit PCI slot; likewise, a 32-bit riser card must be used in a 32-bit PCI slot. Otherwise, the PCI interface might not be correctly detected and serious performance irregularities might result. 12. Insert the riser card into a PCI slot (callout 1 in Figure 2-27). Handle the interface card gently, preferably by the front panel or card edges. The front panel of the interface card is the metal plate or molding that contains two LEDs and the port connector.
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Figure 2-28 HP ProLiant DL380 G3 front panel 1 2 4 3 The following table describes the callouts in Figure 2-28. Item Description 1 Tape drive bay or hard drive and tape drive blank 2 Diskette drive 3 Hard drive bays 4 CD-ROM drive Figure 2-29 shows the front panel of the HP ProLiant DL380 G4. Figure 2-29 HP ProLiant DL380 G4 Front Panel 1 2 3 5 4 The following table describes the callouts in Figure 2-29.
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Figure 2-30 HP ProLiant DL380 G3 and G4 Rear Panel 1 2 4 5 3 7 6 9 8 10 11 13 12 The following table describes the callouts in Figure 2-30. Item Description Connector Color 1 Hot-pluggable PCI-X expansion slot 3 (bus 6) 64-bit/100 MHz 3.3V N/A 2 Hot-pluggable PCI-X expansion slot 2 (bus 6) 64-bit/100 MHz 3.3V N/A 3 VHDCI SCSI connector (port 1) N/A 4 Non-hot-pluggable PCI-X expansion slot 1 (bus 3) 64-bit/133 Teal MHz 3.
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Table 2-22 HP ProLiant DL380 PCI Slot Assignments (continued) PCI-X PCI Express Bus Bus B — Slot 3 Assignment Comment — PCI-X slot 64-bit 133 MHz PCI-X (1 Gb/s) B PCI Express X4 2.6.2 Removing the Server from the Rack To access internal components in the HP ProLiant DL380 G3 or G4 server, you must first power down the server and then remove it from the rack. All of the servers in the cluster are secured to the rack on a sliding rail.
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1. 2. 3. 4. 5. 6. Attach the grounding strap to your wrist or ankle and a metal part of the chassis. Power off the server. Remove the server from the rack. Remove the cover from the server, and locate the PCI riser cage. Disconnect any cables connected to any existing expansion boards. Open the PCI riser cage door, as shown in Figure 2-31. Figure 2-31 ProLiant DL380 PCI Riser Cage Door HPTC-0194 7. Remove the PCI riser cage door latch, as shown in Figure 2-32.
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Figure 2-33 Removing the HP ProLiant DL380 PCI Riser Cage 1 1 2 9. 2 3 Unlock the PCI retaining clip, as shown in Figure 2-34. Figure 2-34 Unlocking the HP ProLiant DL380 PCI Retaining Clip HPTC-0251 10. Remove the expansion board, as shown by callouts 1 and 2 in Figure 2-35.
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Figure 2-35 Removing the HP ProLiant DL380 Expansion Board 2 1 Caution: To prevent improper cooling and thermal damage, do not operate the server unless all PCI slots have either an expansion slot cover or an expansion board installed. 11. To reinsert the PCI card cage, reverse the removal procedure. 2.7 HP ProLiant DL380 G5 The HP ProLiant DL380 G5 is a 2U rack-mount server with up to two Intel Xeon 5000 series processors with Hyper Threading and Intel VT technology.
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Table 2-23 HP ProLiant DL380 G5 Features (continued) Feature HP ProLiant DL380 G5 Redundancy 12 fully redundant hot plug fans Hot-pluggable power supply with optional redundancy (Included in Performance models) Chassis 2U Power 800 Watt, CE Mark Compliant (Optional Hot-Pluggable AC Redundant Power Supply) 2.7.1 HP ProLiant DL380 G5 Front Panel Figure 2-36 shows the front panel of the HP ProLiant DL380 G5.
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Figure 2-37 HP ProLiant DL380 G5 Rear Panel 1 2 3 4 5 6 7 2 1 10 11 12 5 4 3 8 9 18 17 16 15 14 13 The following table describes the callouts in Figure 2-37: Item Description 1 T-10/T-15 Torx screwdriver 2 Expansion slot 3 (PCI Interconnect) 3 Expansion slot 4 4 Expansion slot 5 5 Expansion slot 2 6 External option blank 7 Expansion slot 1 8 NIC 2 connector 9 NIC 1 connector 10 Power supply bay 2 11 Power cord connector (2) – one for each power supply 12 Power supp
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Figure 2-38 HP ProLiant DL380 G5 Front LEDs W P PO P P P S FA 1 2 3 1 I OV 4 5 2 3 6 Table 2-24 describes the callouts in Figure 2-38. Table 2-24 HP ProLiant DL380 G5 Front Panel LEDs Item Description Status 1 UID LED button Blue = Activated Flashing = System being remotely managed Off = Deactivated 2 Internal health LED Green = Normal Amber = System degraded. To identify component in degraded state, see Section 2.7.5 Red = System critical.
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Figure 2-39 HP ProLiant DL380 G5 Rear LEDs 1 2 2 1 3 4 5 6 The following table describes the callouts in Figure 2-39.
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Figure 2-40 HP ProLiant DL380 G5 Systems Insight Display ONLINE SPARE MIRROR POWER POWER SUPPLY SUPPLY PPM PPM DIMMS PCI RISER CAGE PROC PROC FANS INTER LOCK OVER TEMP Table 2-26 Systems Insight Display LEDs Status LED Description Status Online spare Off = No protection Green = Protection enabled Amber = Memory failure occurred Flashing amber = Memory configuration error Mirror Off = No protection Green = Protection enabled Amber = Memory failure occurred Flashing amber = Memory configuration
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Table 2-27 HP ProLiant DL380 G5 PCI Express Slot Assignments Slot Default PCI Express Bus Assignment Comment 1 A PCI Express (used with SAS controller) x4 2 B PCI Express x4 3 C PCI Express x4 4 D PCI Express x8 5 E PCI Express (InfiniBand interconnect) x8 Table 2-28 HP ProLiant DL380 G5 Mixed PCI Express/PCI-X Slot Assignments Slot Mixed PCI Express/PCI–X Bus 1 Assignment Comment A PCI Express Slot (used with SAS controller) x4 2 B PCI Slot x4 3 C PCI Express (Interco
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When a PCI Express HCA is used in slot 3 of the ProLiant DL380 G5, mount the appropriate cable management bracket in the top hole (callout 5 in Figure 2-41) of the lower U location (callout 2 in Figure 2-41). When a PCI Express HCA is used in slot 4 of the ProLiant DL380 G5, mount the appropriate cable management bracket in the bottom hole (callout 4 in Figure 2-41) of the upper U location (callout 1 in Figure 2-41).
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1. 2. 3. 4. 5. 6. Power down the server following the steps previously outlined. Disconnect all remaining cables on the server rear panel, including cables extending from external connectors on expansion boards. Make note of which Ethernet and interconnect cables are connected to which ports. Loosen the thumbscrews securing the server to the rack. Slide the server out of the rack until the rail locks engage. Press and hold the rail lock and extend the server until it clears the rack.
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Figure 2-42 Removing the ProLiant DL380 G5 PCI Riser Cage 1 2 3 9. Remove the expansion board, as shown in Figure 2-43. Figure 2-43 Removing the ProLiant DL380 G5 PCI Riser Cage 2 1 Caution: To prevent improper cooling and thermal damage, do not operate the server unless all PCI slots have either an expansion slot cover or an expansion board installed. 10. To reinsert the PCI riser card cage, reverse the removal procedure.
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3 Opteron Processor Servers Several servers based on the AMD Opteron processor are supported in HP Cluster Platform solutions. This chapter presents the following information: • HP ProLiant DL145 G1 and G2 (Section 3.1) • HP ProLiant DL145 G3 (Section 3.2) • HP ProLiant DL165 G5 (Section 3.3) • HP ProLiant DL385 (Section 3.4) • HP ProLiant DL385 G2 (Section 3.5) • HP ProLiant DL385 G5 and G5p (Section 3.6) • HP ProLiant DL585 (Section 3.7) • HP ProLiant DL585 G2 (Section 3.
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Table 3-1 ProLiant DL145 G1 and G2 Comparison (continued) Features HP ProLiant DL145 G1 HP ProLiant DL145 G2 Memory technology PC2700 ECC DDR SDRAM @ 333MHz PC3200 ECC DDR1 SDRAM @ 400MHz Drive controller Integrated dual-channel ATA Integrated dual-channel ATA RAID controller Optional PCI card Optional PCI card NIC Integrated dual Broadcom 5704 10/100/1000 Integrated dual Broadcom 5721 10/100/1000 Hard drive bays Two non hot-pluggable ATA or SCSI Two non hot-pluggable SATA or SCSI Slots 1
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The following table describes the callouts in Figure 3-2. Item Description 1 Mouse 2 Keyboard 3 Video 4 USB 5 Dedicated Management NIC 6 NIC 1 7 NIC 2 8 COM1/management processor Figure 3-3 shows the front panel of the HP ProLiant DL145 G2, and Figure 3-4 shows the rear panel of the HP ProLiant DL145 G2. Among other features, the G2 model has a new bezel design with unit ID (UID) light diagnostics for easy system identification in large rack-mount environments.
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Figure 3-4 HP ProLiant DL145 G2 Rear Panel 1 2 3 4 6 5 10 7 8 3 14 9 11 12 13 The following table describes the callouts in Figure 3-4. Item Description 1 Ventilation holes 2 Thumbscrew for the access panel 3 Thumbscrews for the PCI riser board assembly 4 GbE LAN ports for NIC1 (RJ-45) 5 GbE LAN ports for NIC2 (RJ-45) 6 Low profile 64-bit/133 MHz PCI-X riser board slot cover 7 USB 2.
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on a sliding rail. This section describes how you shut down power, remove a server from the rack, and access internal components. When performing these tasks, heed the warnings and cautions listed in “Important Safety Information” (page 23). The front panel power button on the HP ProLiant DL145 toggles between On and Off. If you press the Power button on an HP ProLiant DL145 to power down the server, the LED turns off.
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Figure 3-6 Sliding the HP ProLiant DL145 G1 from the Rack 1 2 6. Remove the server from the rack and position it securely on a workbench or other solid surface for stability and safety. To remove the access panel on the HP ProLiant DL145, as shown in Figure 3-7, follow these steps: 1. Remove the server from the rack, as described in Section 3.1.2. 2.
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Figure 3-8 Removing the HP ProLiant DL145 G2 Access Panel 2 1 3. 4. Item Description 1 Access panel screw 2 Access panel latch Slide the cover approximately 1.25 cm (0.5 in) toward the rear of the unit. Pull up the latch to remove the access panel from the chassis. To replace the access panel and return the server to the rack, reverse the previous steps. 3.1.3 Replacing a PCI card in the HP ProLiant DL145 G1 The HP ProLiant DL145 G1 has one PCI-X expansion slot.
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Figure 3-9 HP ProLiant DL145 G1 Riser Cage HPTC-0222 8. Remove the screw located on the left side of the riser cage before removing the PCI card from the slot, as shown in Figure 3-10. Figure 3-10 Removing an HP ProLiant DL145 G1 PCI Card from the Riser Cage 1 2 9. 10. 11. 12. 13. 14. 15. 16. 17. 106 Remove the new PCI card from its antistatic plastic bag. Handle the adapter gently, preferably by the front panel or card edges. Do not touch the connectors.
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3.1.4 Installing or Replacing a PCI Card in the HP ProLiant DL145 G2 The HP ProLiant DL145 G2 has three PCI expansion slots on the system board. The system supports up to two expansion boards at a time. Figure 3-11 shows the PCI slots on the HP ProLiant DL145 G2 system board. Figure 3-11 HP ProLiant DL145 G2 PCI Expansion Slots 3 2 1 The following table describes the callouts in Figure 3-11.
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a. Loosen the two captive thumbscrews that secure the assembly to the chassis, as shown by callout 1 in Figure 3-12. Figure 3-12 Removing the HP ProLiant DL145 G2 PCI Card Cage 2 1 1 b. c. d. Lift the assembly away from the chassis, as shown by callout 2 in Figure 3-12. Identify the slot that is compatible with the expansion board you intend to install. If you are adding an expansion board, pull out the slot cover from the selected slot. Store it for reassembly later.
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Figure 3-14 Removing the Cover of the Full-Length Expansion Slot HPTC-0163 8. 9. 10. 11. 12. 13. 14. Remove the PCI expansion board from its protective packaging, handling it by the edges. Some expansion boards can only be installed in one slot but other boards can be configured to fit in either slot by replacing the default bracket (attached to the board) with a different sized bracket. The different sized bracket and instructions on how to attach it to the board is included in the option kit.
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17. 18. 19. 20. Reinstall the access panel, reversing the steps in Section 3.1.2. Replace the server in the rack, reversing the steps in Section 3.1.2. Attach the cable between the card and the switch, and reconnect the AC power cord. Press the Power button on the server. Check that the card is detected. Refer to your software documentation for further installation instructions.
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Table 3-4 HP ProLiant DL145 G3 Specifications (continued) Feature Specification USB Ports Four USB ports (two front, two rear) Optical Drive Support for one (optional): CD-ROM, DVD-ROM, DVD RW, DVD/CD RW Power Supply 650 W Power supply (non hot-pluggable, auto-switching) Figure 3-16 shows the front panel of the HP ProLiant DL145 G3. Figure 3-16 HP ProLiant DL145 G3 Front Panel 1 2 3 12 4 11 5 6 7 8 9 10 The following table describes the callouts in Figure 3-16.
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Figure 3-17 HP ProLiant DL145 G3 Rear Panel 4 1 2 21 5 3 20 6 19 18 17 7 16 8 15 9 14 10 13 12 11 The following list corresponds to the callouts shown in Figure 3-17.
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Item Description Off — No network data activity was detected within the preceding one second (same for NIC 1) 15 USB 2.0 ports (black) 16 PS/2 keyboard port (purple) 17 PS/2 mouse port (green) 18 Serial port 19 Video port (blue) 20 Non-Maskable Interrupt (NMI) button (recessed) 21 UID button and separate LED indicator (blue) 3.2.
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5. Press and hold the rail locks (see callout 1 in Figure 3-19), and extend the server until it clears the rack (see callout 2 in Figure 3-6). Figure 3-19 Sliding the HP ProLiant DL145 G3 from the Rack 1 2 6. Remove the server from the rack and position it securely on a workbench or other solid surface for stability and safety. To replace the access panel and return the server to the rack, reverse the previous steps. 3.2.
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1. 2. Remove the server from the rack, as described in Section 3.2.1. To detach the access panel from the chassis, follow these steps: • Loosen the captive screw on the back of the ProLiant DL145 G3 server, as shown by callout 1 in Figure 3-20. To loosen the screw, HP recommends using the L-shaped wrench that ships with the server. Figure 3-20 Removing the HP ProLiant DL145 G3 Access Panel 2 1 3. 4. Item Description 1 Access panel screws 2 Access panel latch Slide the cover approximately 1.
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Figure 3-21 DL145 G3 System Board Expansion Slots 1 3 2 4 The following list describes the callouts shown in Figure 3-21.
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Table 3-6 HP ProLiant DL145 G3 PCI Slot Assignments PCI Slot PCI Express Assignment PCI Mixed Assignment 1 (Full-Sized) X16 PCI-X Interconnect X16 PCI Express 2 (Low-Profile) X4 PCI Express Interconnect PCI -X 3.2.5 ProLiant DL145 G3 Riser Board Assemblies The DL145 G3 server supports up to two expansion boards installed on riser boards.
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7. Lift and remove the appropriate PCI riser board assembly from the chassis as follows: Figure 3-22 Removing the HP ProLiant DL145 G3 Full-Sized PCI Riser Board Assembly 2 1 1 Figure 3-23 Removing the HP ProLiant DL145 G3 Low-Profile PCI Riser Assembly 2 1 1 a. b. c. Loosen the two captive thumbscrews that secure the assembly to the chassis, as shown by callout 1 in Figure 3-22 and Figure 3-23. Lift the assembly away from the chassis as shown by callout 2 in Figure 3-22 and Figure 3-23.
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3.2.5.2 Removing or Installing a Riser Board To remove or install a riser board in either the full-sized or low-profile riser board assemblies, follow these steps: 1. Perform the procedure described in Section 3.2.5 to remove the appropriate riser board assembly. 2. If an expansion board is installed in the assembly, perform the procedure described in Section 3.2.6 to remove the expansion board. 3.
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3. Remove the installed riser board from the riser board assembly as shown in Figure 3-24 and Figure 3-25. Figure 3-24 Remove the Full-Sized Riser Board 1 1 2 Figure 3-25 Remove the Low–Profile Riser Board 1 2 1 Note: Keep the two screws you remove in this step for installing the new riser board later. a. b. Remove the two screws securing the riser board to the assembly. Remove the riser board from the assembly. To install a new riser board, reverse the removal procedure. 3.2.
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1. 2. 3. Attach a grounding strap to your wrist or ankle and a metal part of the chassis. Press the Power button to power down the server. When the server powers down, the system power LED turns off. Disconnect the AC power cord from the AC outlet. Note: The front panel Power button does not completely shut off system power. Portions of the power supply and some internal circuitry remain active until AC power is removed. 4. 5. 6. 7. Remove the server from the rack, as described in Section 3.2.1.
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Figure 3-27 Removing a Low-Profile PCI Card in the HP ProLiant DL145 G3 To install a PCI expansion board, reverse the removal procedure. Insert the new PCI card into the riser cage, applying even pressure to seat the board securely. Be sure the adapter is fully seated. For more information, refer to the following documents: • HP ProLiant 100 Series Servers User Guide • HP ProLiant DL145 Generation 3 Server Maintenance and Service Guide 3.
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4. 5. 6. 7. 8. 9. 10. 11. Two front USB 2.0 ports Unit identification (UID) LED button System health LED NIC1 LED NIC2 LED Power button with LED indicator (bicolor: green and amber) Hard disk drive (HDD) LED HDD bays 1, 2, 3, and 4 Figure 3-29 shows the rear view of the HP ProLiant DL165 G5. Figure 3-29 HP ProLiant DL165 G5 Rear View 1 2 3 4 5 15 14 13 12 6 11 10 7 9 8 The following list describes the callouts shown in Figure 3-29: 1. Power supply 2. PS/2 mouse port (green) 3.
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3.4 HP ProLiant DL385 G1 The dual-processor, 2U HP ProLiant DL385 G1 server can be used as a control node, directing the management and administrative functions, or as a utility node for any specific task, including running applications. It supports up to two 2.6 GHz 1 MB L2 cache 1 GHz HyperTransport AMD Opteron processors, 16 GB of PC3200 DDR SDRAM memory running at 400MHz, and three full-length PCI-X slots, two at 100MHz and one at 133 MHz PCI-X.
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Figure 3-30 HP ProLiant DL385 G1 Front Panel HPTC-0115 Figure 3-31 HP ProLiant DL385 G1 Rear Panel 1 2 3 5 7 10 12 1 100 MHz 2 100 MHz 3 133 MHz 4 6 8 9 11 The following ports are available on the rear panel of the HP ProLiant DL385 G1 Table 3-7 HP ProLiant DL385 G1 Rear Panel Ports Item Label or Icon Description 1 1 100 MHz PCI–X Slot 1 @ 100 MHz 2 2 100 MHz PCI–X Slot 2 @ 100 MHz 3 3 133 MHz PCI–X Slot 3 @ 133 MHz 4 Screen icon VGA out 5 101010 DB9 Serial (COM) port and ma
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Table 3-8 HP ProLiant DL385 PCI Slot Assignments Slot Bus Assignment Comment 1 A PCI-X interconnect 64-bit 100 MHz PCI-X (1 Gb/s) 2 A Optional 2Gb/sec Fibre Channel HBA 64-bit 100 MHz PCI-X (1 Gb/s) 3 B PCI interconnect 64-bit 133 MHz PCI-X (1 Gb/s) 3.4.2 Removing an HP ProLiant DL385 G1 from a Rack To access internal components in the HP ProLiant DL385 G1 server, you must first power down the server and then remove it from the rack.
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5. 6. Remove the server from the rack and position it securely on a workbench or other solid surface for stability and safety. To access internal components in the HP ProLiant DL385 G1, lift up on the hood latch handle and remove the access panel. 3.4.3 Replacing an HP ProLiant DL385 PCI Card When replacing a PCI adapter card, you need a grounding strap. The adapter card is sensitive to electrostatic discharge. Take care to avoid mishandling, which could damage the card.
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Figure 3-35 Removing the HP ProLiant DL385 PCI Riser Cage 1 1 2 9. 2 3 Unlock the PCI retaining clip, as shown in Figure 3-36. Figure 3-36 Unlocking the HP ProLiant DL385 PCI Retaining Clip HPTC-0251 10. Remove the expansion board, as shown in Figure 3-37.
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Figure 3-37 Removing the HP ProLiant DL385 Expansion Board 2 1 Caution: To prevent improper cooling and thermal damage, do not operate the server unless all PCI slots have either an expansion slot cover or an expansion board installed. 11. To replace the component, reverse the removal procedure. 3.5 HP ProLiant DL385 G2 The dual processor, 2U HP ProLiant DL385 G2 is used as a control node and utility node in HP Cluster Platform. The features of the ProLiant DL385 G2 are described in Table 3-9.
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Table 3-9 HP ProLiant DL385 G2 Features (continued) Feature Model/Type Description Storage Controller Performance HP Smart Array P400/512MB BBWC Controller (RAID 0/1/5/6) Base HP Smart Array P400/256MB Controller (RAID 0/1/5) Entry HP Smart Array E200/64MB Controller (RAID 0/1) Hard Drive None ship standard Internal Storage 1.
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9. 10. 11. 12. NIC 1 link/activity LED External health LED (power supply) Internal health LED UID LED button Figure 3-39 shows the rear panel of the ProLiant DL385 G2. Figure 3-39 HP ProLiant DL385 G2 Rear Panel 6 1 7 8 13 16 18 20 21 22 2 3 4 5 9 10 11 12 14 15 17 19 The following list corresponds to the callouts shown in Figure 3-39: 1. T-10/T-15 Torx screwdriver 2. Expansion slot 5 3. Expansion slot 4 4. Expansion slot 3 5. Expansion slot 2 6. External option blank 7. NIC 2 connector 8.
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Table 3-10 HP ProLiant DL385 G2 PCI Express Slot Assignments Slot Assignment Comment 1 PCI Express x8 2 PCI Express x8 3 PCI Express x4 4 PCI Express x8 5 PCI Express Interconnect x8 Table 3-11 summarizes a PCI Express/PCI-X mixed configuration. Table 3-11 HP ProLiant DL385 G2 PCI Express/PCI-X Slot Assignments Slot Assignment Comment 1 PCI Express x8 2 PCI Express x8 3 PCI Express Interconnect x8 4 PCI 64-Bit 133 MHz 5 PCI Express Interconnect 64-Bit 133 MHz 3.5.
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Note: If the operating system automatically places the server in Standby mode, omit the next step. 3. Press the Power On/Standby button to place the server in Standby mode. When the server activates Standby power mode, the system power LED changes to amber. Important: Pressing the UID button illuminates the blue UID LEDs on the front and rear panels. In a rack environment, this feature facilitates locating a server when moving between the front and rear of the rack. 4. 5. 6. Disconnect the power cords.
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11. To put the server back into the rack, press the server rail-release latches and slide the server fully into the rack. Warning! To reduce the risk of personal injury, be careful when pressing the server rail-release latches and sliding the server into the rack. The sliding rails could pinch your fingers. 3.5.5 Replacing a ProLiant DL385 G2 PCI Card When replacing a PCI adapter card, you need a grounding strap. The adapter card is sensitive to electrostatic discharge.
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Figure 3-42 Removing a PCI Slot Cover in the PCI Riser Cage 2 1 Caution: To prevent improper cooling and thermal damage, do not operate the server unless all of the PCI slots have either an expansion slot cover or an expansion board installed. 8. Remove the expansion board, as shown in Figure 3-43. Figure 3-43 Removing a DL385 G2 PCI Card 2 1 9. To replace the component, reverse the removal procedure. 3.
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Note: See the HP ProLiant DL385 Generation 2 Server User Guide and the HP ProLiant DL385 Generation 2 Server Maintenance and Service Guide for information on the ProLiant DL385 G2 PCI slots 1 and 2. 3.5.6 ProLiant DL385 G2 Systems Insight Display The HP Systems Insight Display LEDs represent the system board layout.
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SCSI controller must be installed. The server ships in duplex configuration, but the SCSI backplane can be configured for either simplex or duplex mode. Note: Simplex configuration means all four drives in the server are connected to one SCSI channel. Duplex configuration means there are two drives, each connected to one of two SCSI channels.
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administrative network, and the NIC 2 port is used for the Gigabit Ethernet system interconnect. See Figure 3-45 to locate the ports. Figure 3-44 displays the front panel of the HP ProLiant DL585, and Figure 3-45 displays its rear panel.
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The following table describes the callouts in Figure 3-45: Item Description 1 Integrated Lights Out manager connector 2 USB connector 1 3 USB connector 2 4 Rear Unit Identification (UID) button and LED 5 Keyboard connector 6 Mouse connector 7 Video connector 8 Serial connector 9 NIC 2 connector 10 NIC 1 connector 11 AC inlet 1 (primary) 12 AC inlet 2 (optional) Integrated Lights Out Integrated Lights Out (iLO) technology provides server health and remote server manageability.
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The front panel power button on the HP ProLiant DL585, as shown in Figure 3-44, toggles between On and Standby. If you press the Power button on an HP ProLiant DL585 to power down the server, the LED changes from green to amber, indicating Standby mode. In Standby mode, the server removes power from most electronics and drives. Portions of the power supply and some internal circuitry remain active.
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1. 2. 3. Remove the server from the rack, as described in Section 3.7.2. Locate and remove the Torx T-15 tool that is stored on the back of the server chassis, between the fans and the PCI slots. Unlock the access panel latch using the Torx T-15 tool, as shown in Figure 3-48, that you removed from the back of the server. Figure 3-48 Unlocking the HP ProLiant DL585 Access Panel Latch 1 3 hp 2 4.
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3.7.3 Replacing a PCI Card The HP ProLiant DL585 supports the installation of both PCI (33 MHz and 66 MHz) and PCI-X (66 MHz, 100 MHz, and 133 MHz) expansion boards. All PCI-X slots are 64-bit, 3.3-V keyed. Figure 3-50 shows the HP ProLiant DL585 PCI-X expansion slots and buses. The system BIOS detects the PCI-X devices in the slots in the following order: 8-7-6-5-4-3-2-1.
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6. 7. Disconnect any cables connected to the expansion board. Using the callouts shown in Figure 3-51 as a guide, press the PCI-X retaining clip toward the front of the server to lock it in the open position (callout 1). Figure 3-51 Removing a PCI Card from an HP ProLiant DL585 Server 2 4 3 1 8. 9. 10. 11. Press down on the expansion slot latch to release it (callout 2). Open the latch (callout 3). Remove the board from the slot (callout 4). Remove the new PCI card from its antistatic plastic bag.
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18. Attach any cables between the card and the switch, and reconnect the AC power cord. 19. Press the Power button on the server. Check that the card is detected. Refer to your software documentation for further installation instructions. 3.8 HP ProLiant DL585 G2 The HP ProLiant DL585 G2 typically functions as a control node, utility node, or I/O node. When using the ProLiant DL585 G2 as the control node, a redundant power supply is mandatory. Otherwise, a redundant power supply is optional.
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Feature Type Specification Note: Safely transport your write cache data to another HP ProLiant DL585 G2 in the data center by removing the BBWC Enabler and Smart Array P400 Controller Memory Module simultaneously (connected by short cable). Storage Diskette Drive 1.
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8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. Hard drive bay 8 Video connector USB connectors (two) Media drive blank or optional media drive DVD drive UID switch and LED Internal system health LED External system health LED NIC 1 link/activity LED NIC 2 link/activity LED Power on/Standby button and LED Processor memory module Figure 3-54 shows the rear panel of the HP ProLiant DL585 G2 server.
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16. Video connector 17. Rear UID button and LED 3.8.1 Removing an HP ProLiant DL585 G2 from the Rack To access internal components in the HP ProLiant DL585 G2 server, you must first shut down power to the server and remove it from the rack. All of the servers in the cluster are secured to the rack on a sliding rail. This section describes how you shut down power, remove the server from the rack, and access internal components.
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Figure 3-56 ProLiant DL585 G2 from the Rack 1 2 3 3 5. 6. Press and hold the rail locks (see callout 1 in Figure 3-56) and extend the server until it clears the rack. Remove the server from the rack and position it securely on a workbench or other solid surface for stability and safety. To remove the access panel on the HP ProLiant DL585 G2, as shown in Figure 3-57, follow these steps: 1. Remove the server from the rack, as described in Section 3.8.1. 2.
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Figure 3-57 Unlock the ProLiant DL585 G2 Access Panel Latch 2 1 3. 3 Lift up on the latch and remove the access panel. To replace the access panel, place the panel on top of the server with the latch open. Allow the panel to extend past the rear of the server approximately 1.25 cm (0.5 in). Push down on the latch. The access panel slides to a closed position.
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Figure 3-58 HP ProLiant DL585 G2 PCI Slots 1 2 3 4 5 6 7 8 9 The following table describes the callouts in Figure 3-58.
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Note: When the server powers down, the Power button LED changes from green to amber, indicating Standby mode. In Standby mode, the server removes power from most electronics and drives, but portions of the power supply and some internal circuitry remain active until AC power is removed. 3. 4. 5. 6. 7. Disconnect the AC power cord, first from the AC outlet and then from the server. Remove the server from the rack, as shown in Section 3.8.1.
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18. Attach any cables between the card and the switch, and reconnect the AC power cord. 19. Press the Power button on the server. Check that the card is detected. Refer to your software documentation for further installation instructions. 3.9 HP ProLiant DL585 G5 The HP ProLiant DL585 G5 server typically functions as a control node, utility node, or compute (application) node in HP Cluster Platform. When using the ProLiant DL585 G5 as the control node, a redundant power supply is mandatory.
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4 Server Blades An HP Cluster Platform solution can be configured with p-Class or c-Class enclosures. This chapter describes the BladeSystem enclosures and ProLiant BL servers and devices used in HP Cluster Platform solutions. All server blades feature high-performance memory, iLO/iLO 2 advanced functionality, multiple general purpose Gigabit Ethernet network controllers, and optional FC SAN connectivity. This chapter presents overviews of the following: • HP BladeSystem p-Class (Section 4.
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The HP ProLiant BL35p server blade has the following features: Feature Specification Available processors AMD Opteron™ Model 250 - 2.
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The following table describes the callouts in Figure 4-1.
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The following table describes the callouts in Figure 4-2.
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4.2.2 Supported Storage The HP ProLiant BL35p supports up to up to two 60 GB parallel ATA hard disk drives. The drive cage assembly lower drive bay is designated as the primary hard drive. The physical aspect of inserting and removing a disk drive is discussed in the document that ships with the drive and in the HP ProLiant BL35p Server Blade User Guide. In addition to the hard drives, the HP ProLiant BL35p has SAN storage capability.
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Figure 4-3 Removing the HP ProLiant BL35p from the Enclosure Sleeve 1 3 2 To install and power up a server blade, reverse the removal procedure. Server blades are set to power up automatically upon insertion. If you changed the setting, use the power button or iLO Virtual Power Button feature to power up the server blade. For more information about iLO, see the HP Integrated Lights-Out User Guide. 4.
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Table 4-1 ProLiant BL45p Characteristics (continued) Feature Specification Maximum hard drive bays 2 – 3.
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Figure 4-5 HP ProLiant BL45p Rear Panel Components 1 2 Item Description 1 Power connectors 2 Signal connector The HP ProLiant BL45p has two system boards. The primary system board relates to the first and second processor, and the second system board relates to the third and fourth processors. Figure 4-6 displays the primary system board, and Figure 4-7 displays the secondary system board.
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The following table describes the callouts in Figure 4-6.
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Figure 4-7 HP ProLiant BL45p Secondary System Board 7 1 2 8 3 9 4 10 5 11 6 The following table describes the callouts in Figure 4-7. Item Description 1 DC filter module 2 Processor 3 memory bank 2 3 Processor 3 memory bank 1 (shown populated) 4 DIMMs 9-12 5 Processor socket 3 (shown populated) 6 Fan connectors 7 Power converter modules 8 Processor 4 memory bank 2 9 Processor 4 memory bank 1 (shown populated) 10 DIMMs 13-16 11 Processor socket 4 (shown populated) 4.3.
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DIMM banks are active only when the corresponding processor socket is populated. The following guidelines apply to the BL45p DIMMS: • All DIMMs must be PC3200 DDR 400-MHz SDRAM DIMMs. • Both DIMM slots in a bank must be populated. • Both DIMMs in a bank must be identical. • Processor 1 memory bank 1 must always be populated. • If mixing dual- and single-rank DIMMs, the dual-rank DIMMs must be installed in memory bank 1.
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command, be sure that the server blade goes into Standby mode by observing that the power LED is amber. Important: When the server blade is in Standby mode, auxiliary power is still being provided. To remove all power from the server blade, remove the server blade from the server blade enclosure. Removing the sleeve from the server blade enclosure is not necessary. Important: Remote power procedures require the most recent firmware for the power enclosure and server blade enclosure management modules.
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includes Onboard Administrator enclosure management, iLO 2 server management, and HP Insight Control so you can manage servers and enclosures locally and remotely with complete control regardless of the state of the server operating system.
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Note: This guide only addresses the HP BladeSystem c7000 enclosure. For information about the HP BladeSystem c3000 enclosure, see either of the following documents depending on how the HP BladeSystem c3000 enclosure is provided: • If the c3000 enclosure is rack-mounted, see the Workgroup System and Cluster Platform Express Overview and Hardware Installation Guide. • If the c3000 enclosure is the pedestal version, see the HP Cluster Platform Workgroup System Tower Hardware Installation Guide.
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Figure 4-10 HP BladeSystem c–Class Enclosure Rear View 1 2 2 4 5 1 3 The following list corresponds to the callouts in Figure 4-10: 1. Active cool fan bays (up to 10 fans) 2. Interconnect bays 3. Power connections – single phase shown (three phase power is hard-wired to chassis) 4. Onboard Administrator 5. Redundant Onboard Administrator Note: See the HP BladeSystem c7000 Enclosure Setup and Installation Guide for more information on LEDs and buttons for the Onboard Administrator. 4.4.
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Figure 4-11 HP BladeSystem c–Class Enclosure Device Bay Numbering (Full-Height Device Bays) 1 2 3 4 5 6 7 8 Figure 4-12 HP c–Class BladeSystem Enclosure Device Bay Numbering (Half-Height Device Bays) 1 9 2 3 4 10 11 12 5 6 7 8 13 14 15 16 Figure 4-13 shows a sample configuration with half-height and full-height server blades.
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Figure 4-13 HP c–Class BladeSystem Enclosure Example 1 3 2 4 8 7 6 5 The following list corresponds to the callouts in Figure 4-13. 1. Two full-height ProLiant BL480c server blades 2. Six half-height ProLiant BL460c server blades 3. Six blanks (must be installed if not using server bays for proper airflow and cooling) 4. Front rail mounting screw (four) 5. Hot-swap power supply bays (occupied) 6. Onboard Administrator Insight Display 7. ProLiant BL480c server blade hard drive 8.
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Figure 4-14 HP c–Class BladeSystem Module Bay Numbering Figure 4-15 HP c–Class BladeSystem Module Bay Numbering Descriptions 170 Server Blades
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Note: For information on the location of LEDs and ports on individual interconnect modules, see the documentation that ships with the interconnect module. 4.4.
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4.5 Server Blade Type vs Gigabit Ethernet Blade Switch with Bandwidth Ratios The following table provides the server blade type to gigabit Ethernet blade switch bandwidth (BW) ratios. For more information on the gigabit Ethernet switch modules listed in the table below, see the HP Cluster Platform Gigabit Ethernet Hardware Guide.
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Table 4-4 HP Cluster Platform Server Blade Configurations to InfiniBand Interconnect Module Types (Bandwidth Ratios) One 24-Port InfiniBand Module per HP BladeSystem c-7000 Enclosure (i.e. Server Blade Type 410398-B21) Two 24-Port InfiniBand Modules per HP BladeSystem c-7000 Enclosure (i.e. 410398-B21) One 32-Port InfiniBand Module per HP BladeSystem c-7000 Enclosure (i.e. TBD) Two 32-Port InfiniBand Modules per HP BladeSystem c-7000 Enclosure (i.e.
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2. Install the 4x DDR IB switch module into the appropriate double-wide bay and close the release lever as shown by callouts 1 and 2 in Figure 4-17. Figure 4-17 Install the 4x DDR IB Switch Module 1 2 4.7 HP ProLiant BL2x220c G5 Server Blade The HP ProLiant BL2x220c G5 server blade can be used as a control node, a utility node, and a compute node in HP Cluster Platform configurations.
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1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13.
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9. Power On/Standby button and system power LED 10. Server blade handle For an internal view of the HP ProLiant BL260c G5 and additional information, such as the system board layout and installing mezzanine HCA cards, see the HP ProLiant BL260c Generation 5 Server Maintenance and Service Guide: http://bizsupport.austin.hp.com/bc/docs/support/SupportManual/c01416733/c01416733.pdf 4.
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For the features and specifications of the HP ProLiant BL460c G5, go to: http://h18004.www1.hp.com/products/quickspecs/12796_div/12796_div.pdf 4.9.1 HP ProLiant BL460c Front View Figure 4-20 shows the front view of a ProLiant BL460c server. Figure 4-20 HP ProLiant BL460c Front View 1 2 4 3 7 6 5 The following list describes the callouts shown in Figure 4-20: 1. Hard drive bay 1 2. Power On/Stand-by button 3. Local I/O connector 4. Hard drive bay 2 5. Server blade handle 6. Release button 7.
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Item Description Status Off = No active remote management 2 Health LED Green = Normal Flashing = Booting Amber = Degraded condition Red = Critical condition NIC 1 LED1 3 Green = Network linked Green flashing = Network activity Off = No link or activity NIC 2 LED1 4 Green = Network linked Green flashing = Network activity Off = No link or activity 5 System power LED Green = On Amber = Standby (auxiliary power available) Off = Off 1 Actual NIC numbers depend on several factors, including the o
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Figure 4-23 HP ProLiant BL460c System Board Components 1 2 3 4 5 6 7 8 9 10 11 12 The following list describes the callouts in Figure 4-23: 1. System board thumbscrew 2. Processor socket 2 3. Processor socket 1 (populated) 4. Hard drive backplane connector 5. FBDIMMs (8) 6. Embedded NICs (2) 7. Mezzanine connector 1 [Type I mezzanine only (shown)] 8. Battery 9. Mezzanine connector 2 [Type I (shown) or Type II mezzanine] 10. System maintenance switch (SW2) 11. System board thumbscrew 12.
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Maximum memory capacities for all AMP modes will increase with the availability of 4-GB FBDIMMs, including a maximum of 32 GB in Advanced ECC mode. For the latest memory configuration information, see the QuickSpecs at: http://h18004.www1.hp.com/products/servers/proliant-bl/c-class/460c/specifications.html. The Advanced Memory Protection option is configured in RBSU. By default, the server is set to Advanced ECC mode.
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For more detailed SAN configuration information for the server blade, see the following documents: • The model-specific QuickSpecs document located on the HP ProLiant c-Class server blade products web page: http://h18000.www1.hp.com/products/quickspecs/Division/12534.html • The HP StorageWorks SAN documentation: http://h18006.www1.hp.com/storage/index.html Search for the SAN product required, and navigate to technical documentation. • The HP BladeSystem c-Class storage web page: http://www.hp.
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Figure 4-24 Removing a ProLiant BL460c from the c–Class Enclosure 1 3 2 4. Place the server blade on a flat, level work surface. Warning! To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them. Caution: To prevent damage to electrical components, properly ground the server blade before beginning any installation procedure. Improper grounding can cause electrostatic discharge.
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4.10 HP ProLiant BL480c Server Blade Overview The HP BladeSystem c–Class enclosure supports up to eight HP ProLiant BL480c server blades. The HP ProLiant BL480c provides dual-processor, dual-core Intel Xeon processors, DDR2 fully buffered DIMMs, serial attached SAS or SATA hard drives, support of multifunction NICS, and multiple I/O cards.
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Figure 4-25 HP ProLiant BL480c Front View 1 2 9 3 8 4 7 6 5 The following list describes the callouts in Figure 4-25: 1. Hard drive bay 1 2. Hard drive bay 2 3. Hard drive bay 3 4. Hard drive bay 4 5. Server blade handle 6. Server blade handle release button 7. Serial label pull tab 8. Local I/O cable connector (the local I/O cable connector is used with the local I/O cable to perform some server blade configuration and diagnostic procedures) 9. Power On/Standby button 4.10.
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Table 4-7 HP ProLiant BL480c Front Panel LEDs (continued) Item Description Status Amber = Degraded condition Red = Critical condition 3 NIC 1 LED1 Green = Network linked Green flashing = Network activity Off = No link or activity 4 NIC 2 LED1 Green = Network linked Green flashing = Network activity Off = No link or activity 5 NIC 3 LED1 Green = Network linked Green flashing = Network activity Off = No link or activity 6 1 NIC 4 LED Green = Network linked Green flashing = Network activity Off
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Figure 4-27 HP ProLiant BL480c Internal View 2 3 1 4 The following list describes the callouts in Figure 4-27: 1. Four hot-pluggable SAS/SATA drive bays 2. Embedded smart array controller integrated on drive backplane 3. Three mezzanine slots: one x4, two x8 4. Twelve fully buffered DIMM slots DDR II 667 Mhz 4.10.4 HP ProLiant BL480c System Board Figure 4-28 shows the system board components.
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Figure 4-28 HP ProLiant BL480c System Board Components 16 15 1 14 2 13 3 12 11 10 9 4 8 7 6 5 The following list describes the callouts in Figure 4-28: 1. Processor socket 1 (populated) 2. System board thumbscrew 3. Processor socket 2 4. Bezel LED connector 5. Hard drive backplane connector 6. System battery 7. System maintenance switch (SW3) 8. Embedded NICs 9. Mezzanine connector 2 (Type I or Type II mezzanine) 10. Enclosure connector 1 11. Mezzanine connector 1 (Type I mezzanine only) 12.
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Caution: Use only HP FBDIMMs. FBDIMMs from other sources may adversely affect data integrity. The ProLiant BL480c supports the following Advanced Memory Protection (AMP) options to optimize server availability. • Advanced ECC supporting up to 48 GB of active memory using 4 GB FBDIMMs. • Online Spare Memory supporting up to 40 GB of active memory and 8 GB of online spare memory using 4 GB FBDIMMs. Online Spare Memory provides additional protection against degrading memory.
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4.10.8 Removing the HP ProLiant BL480c from the c-Class Enclosure To remove the HP ProLiant BL480c server blade from the c–Class enclosure, follow these steps: 1. Identify the proper server blade and back up the data. 2. Depending on the Onboard Administrator configuration, use one of the following methods to power down the server blade: • Use a virtual power button selection through iLO 2.
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4. Place the server blade on a flat, level work surface. Warning! To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them. Caution: To prevent damage to electrical components, properly ground the server blade before beginning any installation procedure. Improper grounding can cause electrostatic discharge. To install and power up a server blade, reverse the removal procedure.
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Table 4-8 HP ProLiant BL465c Server Blade Features (continued) Item Description Memory Up to 32 GB of memory, supported by eight slots of PC2-5300 Registered DIMMs at 667 MHz Supporting memory interleaving (2:1) Storage Controller Integrated smart array E200i RAID controller with 64 MB cache (with optional battery-backed write-cache with an upgrade to 128MB cache (BBWC)). Supports RAID 0,1.
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Figure 4-30 HP ProLiant BL465c Front View 1 2 5 3 6 4 7 The following list describes the callouts in Figure 4-30: 1. Hard drive bay 1 2. Power On/Stand by button 3. Local I/O connector 4. Hard drive bay 2 5. Serial label pull tab 6. Release button 7. Server blade handle 4.11.2 HP ProLiant BL465c Front Panel LEDs Figure 4-31 shows the front panel LEDs of the ProLiant BL465c.
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The following table describes the callouts in Figure 4-31: Item Description Status 1 UID LED Blue = Identified Blue flashing = Active remote management Off = No active remote management 2 Health LED Green = Normal Flashing = Booting Amber = Degraded condition Red = Critical condition NIC 1 LED1 3 Green = Network linked Green flashing = Network activity Off = No link or activity NIC 2 LED1 4 Green = Network linked Green flashing = Network activity Off = No link or activity 5 System power LED
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1. 2. 3. 4. Two hot-pluggable SAS/SATA drive bays Embedded smart array controller integrated on drive backplane Two mezzanine slots: one x4, one x8 Eight fully buffered DIMM Slots DDR II 667Mhz 4.11.4 HP ProLiant BL465c System Board Figure 4-33 shows the system board components of an HP ProLiant BL465c. Figure 4-33 HP ProLiant BL465c System Board Components 1 15 2 3 14 13 4 5 6 12 11 The following list corresponds to the callouts in Figure 4-33: 1. Bezel LED connector 2.
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4.11.5 Memory Options You can expand server memory by installing PC2-5300 registered DDR2 SDRAM DIMMs. The server supports up to 32 GB of memory using eight 4-GB DIMMs (four DIMMs per processor). Observe the following guidelines when installing additional memory: • Install only ECC PC2-5300 registered DDR2 SDRAM DIMMs that meet the following specifications: — Supply voltage: 1.
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4.11.8 Removing the HP ProLiant BL465c from the c–Class Enclosure The procedure to remove an HP ProLiant BL465c server blade from the c-Class enclosure is the same as previously described in Section 4.9.8. 4.12 HP ProLiant BL465c G5 Server Blade The HP ProLiant BL465c G5 server blade can be used as a control node, a utility node and a compute node in HP Cluster Platform configurations. For the features and specifications of the HP ProLiant BL465c G5, see the QuickSpecs on the HP website: http://h18004.
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Table 4-9 HP Proliant BL685c Server Blade Features Item Description Processor Up to four AMD Opteron 8000 Series processors Memory Up to 64 GB of memory.
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1. 2. 3. 4. 5. 6. Hard drive bay 2 Server blade handle Server blade handle release button Serial label pull tab Hard drive bay 1 Local I/O cable connector (the local I/O cable connector is used with the local I/O cable to perform some server blade configuration and diagnostic procedures) Power On/Standby button 7. 4.13.2 HP ProLiant BL685c Front Panel LEDs Figure 4-36 shows the front panel LEDs of the HP ProLiant BL685c.
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Item Description Status 6 Health LED Green = Normal Flashing = Booting Amber = Degraded condition Red = Critical condition 7 UID LED Blue = Identified Blue flashing = Active remote management Off = No active remote management 1 Actual NIC numbers depend on several factors, including the operating system installed on the server blade. 4.13.3 HP ProLiant BL685c Internal View Figure 4-37 shows the internals of the HP ProLiant BL685c.
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Figure 4-38 HP ProLiant BL685c System Board Components 1 2 3 4 5 6 7 8 9 10 11 26 25 12 13 14 15 24 23 22 21 20 19 18 The following list describes the callouts in Figure 4-38: 1. Bezel LED connector 2. Processor socket 4 3. DIMM slots (Processor 4 memory banks G and H) 4. Processor socket 2 (populated) 5. DIMM slots (Processor 2 memory banks C and D) 6. Internal USB connector 7. Embedded dual-port NIC 8. Mezzanine connector 2 (Type I or Type II mezzanine) 9.
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24. System board thumbscrew 25. System maintenance switch (SW2) 26. Hard drive backplane connector 4.13.5 Memory Options The HP ProLiant BL685c server blade contains 16 memory expansion slots. Observe the following guidelines when installing additional memory: • Install only ECC PC2-5300 registered DDR2 SDRAM DIMMs that meet the following specifications: — Supply voltage: 1.8 V — Bus width: 72 bits • • • • • • • • Install DIMMs in pairs (banks) beginning with banks farthest from each populated processor.
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Search for the SAN product required, and navigate to technical documentation. • The HP BladeSystem c-Class storage web page: http://www.hp.com/go/bladesystem/storage 4.13.8 Removing the HP ProLiant BL685c from the c-Class Enclosure The procedure to remove the HP ProLiant BL685c server blade from the c–Class enclosure is the same as described previously in Section 4.10.8. 4.
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DIMM slots). The BL860c features four Gigabit Ethernet ports standard, support for three standard c-Class I/O mezzanine cards and up to two internal SFF SAS hot-pluggable disk drives.Table 4-10 lists the features of the HP ProLiant BL860c server. Table 4-10 HP Proliant BL860c Server Blade Features Item Description Processor Up to two Intel Itanium 2 9000 Series processors: • Intel Itanium 2 Processor (9040) 1.6GHz/18MB L3 cache dual-core • Intel Itanium 2 Processor (9015) 1.
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Figure 4-40 HP ProLiant BL860c Front View 1 2 3 4 5 The following list describes the callouts in Figure 4-40: 1. Hard drive bays 2. Status indicator 3. Power button 4. Server blade handle 5. Local I/O cable connector (the local I/O cable connector is used with the local I/O cable to perform some server blade configuration and diagnostic procedures) 4.15.2 HP Integrity BL860c LEDs Figure 4-41 shows the HP Integrity BL860c LEDs.
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Figure 4-41 HP Integrity BL860c LEDs The following list describes the callouts in Figure 4-41: 1. Unit identification (UID) LED 2. System health LED 3. Internal health LED 4. NIC 1 LED 5. NIC 2 LED 6. NIC 3 LED 7. NIC 4 LED 4.15.3 HP Integrity BL860c Internal View Figure 4-42 shows the internals of the HP Integrity BL860c. 4.
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Figure 4-42 HP Integrity BL860c Internal View The following list describes the callouts in Figure 4-42: 1. SAS backplane 2. Memory DIMMs 3. Mezzanine card 1 4. Mezzanine card 2 5. Mezzanine card 3 6. Processors 7. System board 8. Trusted platform module 9. Front panel 10. SAS disk drives 4.15.4 Configuring or Replacing Memory When installing additional memory in the HP Integrity BL860c server blade, observe the following guidelines: 1. All DIMMs must be PC2-4200 DIMMs (DDR2 533 MHz). 2.
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5. 6. Double Chip Spare requires that DIMMs are loaded in like quads. DIMMs must be installed in decreasing capacity with the largest DIMMs installed in the smallest numbered DIMM slot. For the latest memory configuration information or for replacing memory information, see the HP Integrity BL860c Server Blade QuickSpecs at: http://h18004.www1.hp.com/products/servers/integrity-bl/c-class/860c/index.html. 4.15.
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5 Workstations Some HP Cluster Platform solutions support HP workstations. This chapter presents an overview of the following HP workstations: • HP xw8200 Workstation (see Section 5.1) • HP xw8400 Workstation (see Section 5.2) • HP xw9300 Workstation (see Section 5.3) • HP xw9400 Workstation (see Section 5.4) 5.1 HP xw8200 Workstation Overview The HP xw8200 is an Intel-based dual processing workstation with Hyper-Threading technology.
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Table 5-1 HP Workstation xw8200 features (continued) Feature Specification Power supply 600 W Input devices USB or PS/2 keyboard; choice of 2-button scroll mouse (optical or mechanical); 3-button mouse (optical or mechanical) Figure 5-1 displays the front panel of the HP xw8200 Workstation, and Figure 5-2 displays its rear panel.
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Figure 5-2 HP xw8200 Workstation Rear Panel 8 9 1 10 11 2 3 12 13 4 14 5 15 6 16 7 The following table describes the callouts shown in Figure 5-2: Item Description 1 Power cord connector 2 Keyboard connector 3 Serial connector (teal) 4 USB ports (six) 5 IEEE 1394 connector 6 Microphone connector (pink) 7 Audio line out connector (lime) 8 Universal chassis clamp openings 9 Access panel key 10 Padlock loop 11 Cable lock slot 12 Mouse connector (green) 13 Parallel connecto
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Table 5-2 HP xw8200 Workstation PCI Slots Slot Assignment Maximum Slot Power Comment 1 PCI 10W 2 PCI Express X16 150W 3 PCI 25W 4 PCI Express X4 25W PCI Express interconnect 5 PCI-X 133 25W PCI interconnect 6 PCI-X 100 25W 7 PCI-X 100 25W Graphics adapter External Gigabit Ethernet 5.1.2 Replacing or Installing a PCI Card Use the following procedures to install and replace PCI cards.
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Figure 5-4 PCI Levers HPTC-0211 Figure 5-5 PCI Express Levers HPTC-0215 8. Lift the PCI card out of the chassis and store it in an antistatic bag. Installing a New PCI Card To install a new PCI or PCI Express card from an HP xw8200 workstation, follow these steps: 1. Disconnect the power cord from the AC outlet, then from the workstation. 2. Disconnect all peripheral device cables from the workstation. 3. Remove the access panel as follows: a. If necessary, unlock the access panel. b.
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Figure 5-6 Installing a PCI Card in the HP xw8200 Workstation 1 4 2 3 7. 8. Remove the PCI slot cover, as shown by callout 2 in Figure 5-6. Lower the PCI 3 or PCI Express 3 card into the chassis. Verify that the keyed components of the card align with the socket, as shown by callout 3 in Figure 5-6. 9. Close the PCI levers. If the PCI levers do not close, be sure all cards are properly seated and then try again, as shown by callout 4 in Figure 5-6. 10.
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3. 4. 5. 6. Remove the two screws on each mounting flange. Slide the server out of the rack until the rail locks engage. Press and hold the rail locks, extend the server until it clears the rack. Remove the server from the rack and position it securely on a workbench or other solid surface for stability and safety. 5.2 HP xw8400 Workstation Overview The HP xw8400 is an Intel-based dual processing, dual-core, high-end graphics workstation.
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Table 5-3 HP Workstation xw8400 Features (continued) Feature Specification Entry 3D: NVIDIA Quadro FX 560 (128 MB), ATI FireGL V3300 (128 MB) Midrange 3D: NVIDIA Quadro FX 1500 (256 MB), ATI FireGL V7200 (256 MB) High-end 3D: NVIDIA Quadro FX 3500 (256 MB), NVIDIA Quadro FX 4500 (512 MB) with opt.
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The following table describes the callouts shown in Figure 5-8: Item Description 1 Optical drive 2 Optical drive activity lights 3 5.
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Item Description 6 Microphone connector (pink) 7 Audio line out connector (lime) 8 Universal chassis clamp openings 9 Access panel key 10 Padlock loop 11 Cable lock slot 12 Mouse connector (green) 13 Parallel connector (burgundy) 14 RJ-45 network connector 15 Audio line-in connector (light blue) 16 Graphics adapter (blue) 17 MiniSAS 4–port connector (optional) – not shown, but item is in lower right corner 18 Built In Self Test (BIST) LED – not shown, but item is in upper left cor
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Table 5-4 HP xw8400 Workstation PCI Slots (continued) Slot Assignment Maximum Slot Power Comment 4 PCI Express x16 mechanical 25W (x4 electrical) SI – gigabit Ethernet or InfiniBand 5 PCI-X 133 25W SI – Myrinet or Quadrics 6 PCI-X 100 25W Available 7 PCI-X 100 25W NIC 5.2.2 xw8400 PCI Slot Rules The slot rules for the xw8400 are shown in Table 5-5.
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Figure 5-11 NVIDIA Quadro FX 4500 Graphics Card 5.2.4 NVIDIA Quadro G-Sync Option Card The NVIDIA Quadro G-Sync Option Card enables the synchronization of multiple displays/sources to drive HP workstation based solutions such as: • Cluster visualization • Power walls • Caves/Immersive environments • On-Air Broadcast Graphics and Post Production Station The NVIDIA Quadro G-Sync option card is supported as an option to the NVIDIA Quadro FX 4500.
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Figure 5-12 NVIDIA Quadro G-Sync Card 5.2.
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5.2.6 Replacing or Installing a PCI Card Use the following procedures to install and replace PCI cards. Replacing a PCI Card To replace a PCI or PCI Express card from an HP xw8400 workstation, follow these steps: 1. Disconnect the power cord from the AC outlet and then from the workstation. 2. Disconnect all peripheral device cables from the workstation. 3. Remove the access panel by pulling up on the handle and lifting it off the chassis. 4. Lay the workstation on its side with the system board facing up.
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Figure 5-15 PCI Retention Clamp 1 1 3 2 7. Lift the PCI card out of the chassis (callout 2 in Figure 5-15). If you are removing a PCI Express high-end graphics card, remove the auxiliary power supply cable (not illustrated) if required, and move the lever to release the card and lift it out of the chassis (callout 3 in Figure 5-15). Store the card in an anti-static bag. Installing a New PCI Card To install a new PCI or PCI Express card in an HP xw8400 workstation, follow these steps: 1.
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7. 8. Remove the PCI slot cover (callout 2 in Figure 5-16). Lower the PCI or PCI Express card into the chassis (callout 3 in Figure 5-16). Verify that the keyed components of the card align with the socket. 9. If installing a card with an auxiliary power connector, plug in the power supply cable or adapter cable supplied with the card (callout 4 in Figure 5-16). This type of card includes, but is not limited to, a PCI Express graphics card greater than 75 W, and a 1394a I/O card. 10.
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Table 5-6 HP Workstation xw9300 Specifications (continued) Feature Specification Opt. Ultra 320 SCSI controller – basic; Opt. Ultra 320 SCSI controller – advanced with RAID 0, 1, 10, 5, 50, JBOD capability, opt.
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Figure 5-17 HP xw9300 Workstation Rear Panel 8 1 9 2 10 11 3 12 4 13 5 6 14 7 15 16 The following tables describes the callouts in Figure 5-17: Item Description 1 Power cord connector 2 Power supply built-in self test (BIST) LED 3 Serial connector (teal) 4 PS/2 keyboard connector (purple) 5 USB (x4) 6 IEEE 1394 connector 7 Microphone connector (pink) 8 Universal chassis clamp opening 9 Access panel keys 10 Padlock loop 11 Cable lock slot 12 PS/2 mouse connector (green) 1
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Note: Although the xw9300 has six PCI slots on the mother board, there are seven apertures in the chassis. Ensure that you remove the correct blank when installing a card. See Figure 5-18. Figure 5-18 HP xw9300 Slot Numbering 0 1 2 3 4 5 6 Table 5-7 HP xw9300 Workstation PCI Slots Slot Assignment 0 Blank 1 PCI Express x 16 graphics 2 PCI 3 PCI Express x 16 graphics 4 PCI-X 100 5 PCI-X 100 6 PCI-X 133 5.3.
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Table 5-8 and Table 5-9 list the slot assignments for narrow (1–slot), or wide (2–slot) graphics cards.
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Figure 5-19 Typical xw9300 Slot Configuration Figure 5-19 shows the slot usages for a typical xw9300 configuration: • Slot 0 is a blank chassis aperture; there is no PCI slot on the motherboard. • Slot 1 contains a narrow graphics card • Slot 2 is empty. • Slot 3 contains a narrow graphics card. • Slot 4 is empty, and available for an optional G-sync card. • Slot 5 contains a NIC card • Slot 6 contains a high-speed interconnect card.
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• • 3-pin Mini DIN stereo output (used for shutter glasses) Connects to system power supply 5.3.4.2 NVIDIA FX4500 Graphics Card The FX4500 graphics card has the following features: • PCI-E 16x, Dual slot • Two DVI-I outputs, each can provide: — digital output for flat-panel — analog output via a dongle for CRT • • Three-pin mini DIN stereo output (used for shutter glasses) Connects to system power supply 5.3.
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Important: These steps must be performed when the system is off. 1. 2. 3. 4. On the Quadro FX G-Sync board, locate the fourteen-pin connector labeled "primary". Connect the ribbon cable to this card. Install the Quadro FX G-Sync board in any available slot. Note that the slot itself is only used for support. The slot must be close enough to the graphics card that the ribbon cable can reach. Connect the other end of the ribbon cable to the fourteen-pin connector on the graphics card.
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Table 5-11 Supported Memory Configurations (continued) Memory Size 1 CPU 2 CPU 16 GB (4x4GB) DDR-333 EK738AV 32 GB (8x4GB) DDR-333 EK737AV 5.3.9 PCI Card Installation and Removal Instructions This section describes PCI card installation, and removal procedures for the xw9300 workstation. Note: The HP xw9300 Workstation contains two PCI Express x16 slots. PCI Express slot three is only active in the dual-processor configuration. This slot cannot be used in a single-processor configuration. 5.3.9.
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5.3.9.2 Removing and Installing PCI Express Cards Figure 5-21 Installing PCI Card Holders 1 2 To remove a PCI Express Card, refer to the callouts in Figure 5-22, and follow these steps: 1. Disconnect power from the system and remove the access panel. Remove the PCI card support, if installed. 2. Lift the PCI levers (callout 1) by first pressing down and then up. 3.
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5. 6. If required, plug in the power supply cable (callout 4). Close the PCI levers (callout 5). If the PCI levers do not close, be sure all of the cards are properly seated. Figure 5-23 Installing PCI Express Cards 1 5 1 5 3 2 4 5.3.9.3 Removing and Installing PCI or PCI-X Cards Note: The following illustration shows a PCI card being removed from a PCI slot. A PCI-X card is removed from a PCI-X slot. To remove a PCI or PCI-X card, refer to the callouts in Figure 5-24 and follow these steps: 1.
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Note: Figure 5-25 shows a PCI card being installed in a PCI slot. A PCI-X card must be installed in a PCI-X slot. To install a PCI or PCI-X card, refer to the callouts in Figure 5-25 and follow these steps: 1. Disconnect power from the system, remove the access panel, and remove the PCI card support. 2. Lift the PCI levers (callout 1) by first pressing down and then up. 3. Remove the PCI slot cover (callout 2). 4. Lower the PCI (callout 3) card into the chassis.
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Table 5-12 HP Workstation xw9400 Features Feature Specification Operating systems Genuine Windows XP 32-bit Edition SP2 (WHQL certified) Genuine Windows XP Professional x64 Edition (WHQL certified) Microsoft Vista capable Red Hat Enterprise Linux 4 (Optional 32-bit or 64-bit: Red Hat Enterprise Linux WS 3 or WS 4 and HP Linux Installer Kit) Processor Single or Dual Core AMD Opteron 2000 series processors 2210 (1.80 GHz), 2212 (2.00 GHz), 2214 (2.20 GHz), 2216 (2.40 GHz), 2218 (2.60 GHz), 2220E (2.
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Figure 5-26 HP xw9400 Workstation Rear View 18 17 16 15 14 13 12 11 1 2 3 4 5 6 7 8 10 9 The following table describes the callouts in Figure 5-26: 236 Item Description 1 Power cord connector 2 Power supply built-in self test (BIST) LED 3 Serial connector (teal) 4 SPDIF OUT (single RCA jack to support SPDIF digital audio output via coax cable) 5 Keyboard connector 6 USB 2.
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5.4.1 PCI Slot Indentification The HP xw9400 workstation has seven PCI expansion slots. Figure 5-27 shows the PCI slots available in the xw9400 workstation, and Table 5-13 identifies the slots. Figure 5-27 HP xw9400 Slot Numbering 1 2 3 4 5 6 7 Table 5-13 HP xw9400 Workstation PCI Slots Slot Assignment 1 PCI Express x16 (x8) 1 2 PCI Express x16 graphics 3 PCI 32 bit, 33 MHz 4 PCI Express x16 (x8) 5 PCI Express x16 graphics 6 PCI–X 100 7 PCI–X 100/133 1 Slot 1 is for short cards only 5.4.
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Table 5-14 Graphics Cards (continued) Slot Slot Type 1 CPU 2 CPU, 1 Graphics Card 2 CPU, 2 Graphics Cards 5 PCI Express, x16 NIC NIC G-Sync or NIC 6 PCI-X 100 SI – All SI – Myrinet or Quadrics SI – All 7 PCI-X 100/133 5.4.3 xw9400 Graphics Options The following graphics options are used in xw9400 workstations: • NVIDIA Quadro FX 3500 (see Figure 5-28) • NVIDIA Quadro FX 4500 (see Figure 5-29) • NVIDIA Quadro G-Sync (see Figure 5-30) 5.4.3.
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Figure 5-28 NVIDIA Quadro FX 3500 Graphics Card 5.4.3.
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Figure 5-29 NVIDIA Quadro FX 4500 Graphics Card 5.4.3.3 NVIDIA Quadro G-Sync The NVIDIA Quadro G-Sync enables the synchronization of multiple displays/sources to drive HP workstation based solutions such as: • Cluster Visualization • Power Walls • Caves / Immersive Environments • On Air Broadcast Graphics and Post Production Station The NVIDIA Quadro G-Sync Option Card is supported as an option to the NVIDIA Quadro FX 4500.
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Figure 5-30 NVIDIA Quadro G-Sync Card 5.4.4 Memory Configurations Use only PC2-5300 ECC DIMMs. Match DIMM pairs by size and type. Refer to the HP xw9400 Workstation Service and Technical Reference Guide for more information on upgrading memory in the HP xw9400 workstation. 5.4.5 PCI Card Installation and Removal Instructions PCI and PCI Express card installation, and removal procedures for the xw9400 workstation are the same as described previously in the xw9300 overview (see Section 5.3.9 (page 231)).
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A USB Drive Key Support on ProLiant G4 Models All fourth generation HP ProLiant servers include support for a USB drive key. This device can be formatted as a floppy drive or as a hard disk drive and made bootable using the HP Drive Key Boot Utility software. When formatted as a floppy, the drive key looks like a bootable 1.44 MB USB floppy. When formatted as a hard drive, the drive key is bootable with the full device capacity and can be used to flash system ROMs or boot existing floppy images.
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Index A D access panel ProLiant DL145, 104 ProLiant DL145 G3, 114 ProLiant DL585, 140 ProLiant DL585 G2, 148 advanced ECC memory, 69 application node characteristics, 99 characteristics of, 30, 45, 50 application nodes removing from a rack, 102, 113, 139, 147 Automatic Server Recovery-2, 69 device bays full-height, 167 half-height, 167 DL360 G5 LEDs system insight display, 78 documentation cluster, 15 reporting errors, 22 Drive Key Boot Utility software, 242 B BL260c G5 server blade, 175 BL2x220c G5 ser
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I iLO, 68, 124, 139, 153, 156, 164 installing HBA, 48, 52 integrated lights-out, 68 (see also iLO) Integrity 2620, 14 Integrity rx1620 cable management, 28 Integrity rx2600, 14 Integrity rx3600, 45 cable management, 50 Integrity rx4640, 14, 50 cable management, 54 Interconnect Cards xw9300, 230 IP address, 68 Itanium processors, 25 L legal notices and trademarks, 2 low-profile expansion slot, 108 M Management Processor, 30, 45, 50 management processor, 99 memory configurations xw9300, 230 xw9400, 241 MP,
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front panel features, 60 installing PCI card, 62 memory configurations, 61 memory module sequence, 61 PCI slot assignments, 61 ProLiant DL145 accessing internal components, 104 characteristics, 99 memory, 99 power buttons, 103 replacing a PCI card, 105 shutting down, 103 ProLiant DL145 G1, 14 ProLiant DL145 G2, 14 replacing a PCI card, 107 ProLiant DL145 G3, 14 accessing internal components, 114 power buttons, 113 shutting down, 113 ProLiant DL160 G5, 14 ProLiant DL165 G5, 14 ProLiant DL360 accessing intern
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ProLiant DL360, 72 ProLiant DL360 G5, 82 ROM flash, 242 rx2600 Installing PCI card, 35 rx3600, 45 Installing PCI card, 48 upgrade, 47 rx4640, 50 Installing PCI card, 52 upgrade, 51 S SAN, 157, 163, 180, 188, 195, 201 SCSI controller, 136 SCSI drive supported, 28, 34 server, 30, 45, 50 blades, 153 Integrity rx1620, 25 Integrity rx2600, 14, 30 Integrity rx2620, 14, 36 Integrity rx2660, 14, 39 Integrity rx3600, 14, 45 Integrity rx4640, 14, 50 ProLiant BL260c G5, 14 ProLiant BL2x220c G5, 14 ProLiant BL35p, 14,
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xw8400, 14 characteristics, 214 PCI slot rules, 218 removing from a rack, 223 replacing a PCI card, 221 xw9300, 14 characteristics, 223 memory configurations, 230 PCI slot numbering, 226 PCI slots, 225 rear panel, 224 removing from a rack, 234 replacing a PCI card, 231 slot assignment rules, 226 specifications, 223 typical slot configuration, 227 xw9400 characteristics, 234 memory configurations, 241 PCI slot numbering, 237 PCI slots, 237 rear view, 235 removing from a rack, 241 replacing a PCI card, 241 sl
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*A-CPSOV-1H* Printed in the US