Page 1 HP Integrity cx2600 Operations and Maintenance Guide HP Part Number: AB216-90006 Published: December 2010 Edition: 2...
Page 2 © Copyright 2006, 2010 Hewlett-Packard Development Company, L.P Legal Notices 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.
Page 3: Table Of Contents
Table of Contents About This Document......................8 Typographic Conventions........................8 Related Documents..........................8 HP Encourages Your Comments......................8 1 Controls, Ports, and Indicators..................9 Introduction............................9 Front Panel............................9 Switch/Button and LED Definitions....................9 Additional Controls and Indicators....................10 Hot-Plug Disk Drive LEDs......................10 DVD/DVD-R/DVD-RW Drives....................11 Rear Panel............................11 10/100 System Management LAN LEDs..................12 Locator LEDs and Button......................12 MP Reset and TOC Buttons......................12 Power Supply Status LEDs......................13...
Page 4 Removing a PCI Card........................35 Installing a PCI Card........................36 Installing the PCI Card Cage Assembly..................36 Installing Processors..........................37 Removing a Processor........................38 Installing a Processor........................44 Installing Memory..........................49 Supported DIMM Sizes........................49 Removing DIMMs...........................49 Installing DIMMs..........................50 4 Troubleshooting......................53 Introduction............................53 Troubleshooting Methodology......................53 Troubleshooting Using the Front Panel Power Button.................53 Server Does Not Power On........................54 EFI Menu is Not Available........................54 Operating System Does Not Boot......................54...
Page 5 cpuconfig............................82 Syntax............................82 Parameters..........................82 Operation............................82 default..............................83 Syntax............................83 Parameters..........................83 Operation............................83 errdump............................83 Syntax............................83 Parameters..........................83 Operation............................83 info..............................83 Syntax............................83 Parameters..........................84 lanaddress............................90 Syntax:............................90 Parameters..........................90 monarch............................91 Syntax............................91 Parameters..........................91 Operation............................91 pdt..............................91 Syntax............................91 Parameters..........................91 Operation............................92 sysmode............................92 Syntax............................92 Parameters..........................92 Operation............................92 Specifying SCSI Parameters........................93 Using the SCSI Setup Utility......................93 Management Processor.........................98 Accessing the Management Processor....................98 Interacting with the Management Processor................98 Management Processor Command Interface..................98...
Page 6 Return to Main Menu........................103 Modem Reset..........................104 Modem Status..........................104 Power Control..........................104 Configure Paging...........................104 Power Status..........................104 Reset BMC............................104 Reset System..........................104 Set Access............................105 Create Local Session........................105 Display Logs..........................105 Security Options..........................106 Firmware Revision Status......................106 System Status..........................106 Transfer of Control.........................106 Tell..............................106 User Configuration........................106 Virtual Front Panel.........................107 Who..............................107 Exit from MP..........................107 Diagnostics.............................107...
Page 7 Installing the Processor Airflow Guide..................128 Removing the PCI Airflow Guide....................128 Installing the PCI Airflow Guide....................128 Removing and Replacing System Memory DIMMs................128 Supported DIMM Sizes.........................129 Removing DIMMs.........................129 Installing DIMMs...........................130 Removing and Replacing the PCI Card Cage ..................131 Removing the PCI Card Cage Assembly..................131 Installing the PCI Card Cage Assembly..................133 Removing and Replacing PCI Cards....................134 Removing a PCI Card........................134...
Page 8: About This Document
About This Document This document describes how to operate and maintain your hp Integrity cx2600 Server, Regulatory Model Number: RSVLA-0303-DC. TThe document printing date and part number indicate the document’s current edition. The printing date will change when a new edition is printed. Minor changes may be made at reprint without changing the printing date.
Page 9: Controls, Ports, And Indicators
This chapter describes the controls, ports, and indicators found on the front panel, rear panel, and internal locations of the hp Integrity cx2600 Server. Front Panel The front panel of the hp Integrity cx2600 Server provides the controls and indicators commonly used for operation. Figure 1-1 Front View of hp Integrity cx2600 Server...
Page 10: Additional Controls And Indicators
Table 1-1 Switch/Button and LED Definitions (continued) Switch or Button Description System LED Shows the server status as follows: Operating power is not available to the server. Flashing amber at 1 Hz rate Attention required. Check the diagnostic LEDs and the MP Status log for information. The LEDs turn off when you access the MP log.
Page 11: Dvd/Dvd-R/Dvd-Rw Drives
Figure 1-2 Hot-Swap Disk Drive LED Indicators Table 1-2 lists the disk drive LED definitions. Table 1-2 Hot-Swap Disk Drive LED Definitions Color Description Activity LED Flashing green Drive access under hard drive control. Status LED Green Drive or slot normal (drive present). Amber Drive fault.
Page 12: 10/100 System Management Lan Leds
Figure 1-4 HP Integrity cx2620 Server Rear Panel LVD/SE SCSI Port RS-232 MP Serial Console Keyboard USB Port Port (console, remote, Management Processor Mouse USB Port UPS) LAN (10/100 LAN) Port DC Power Supply Wire USB Port and LEDs DC Power Supply Wire Gigabit Ethernet LAN A Serial Port A (Console) DC Power Supply Wire...
Page 13: Power Supply Status Leds
Power Supply Status LEDs A power supply unit has three status LEDs located on the back of the power supply. Consolidated status of two power supplies is reported by the front control panel by the power status LED. The LEDs are described in Table 1-5.
Page 14: Management Processor Lan Leds
Table 1-6 Gigabit 10/100/1000 base-T Ethernet LAN A Status LEDs Location Color State Status 1. Gbit Green No 1000 Mbps link has been detected. Port is linked at 1000 Mbps. 2. 100 Mbit 2nd from top Green No 100 Mbps link has been detected. Port is linked at 100 Mbps.
Page 15: Management Processor Board Leds
Figure 1-7 System Board LEDs Table 1-8 lists the system board LEDs. Table 1-8 System Board LEDs Description Standby (STBY) The standby LED displays the power status of the server. It is lit when power is applied (DC In LED on either power supply is lit). If power is applied and this indicator is off, you may have to replace the system board.
Page 16 Figure 1-8 LEDs on Management Processor Board Table 1-9 lists the MP card LEDs. Table 1-9 Management Processor Board LEDs Description This fault indicator flashes when an MP fault is detected. The MP heartbeat indicator flashes when the MP is active. Controls, Ports, and Indicators...
Page 17: External Connectors
2 External Connectors Connector Pinouts The following ports and connectors are found on the rear panel of the hp Integrity cx2600 Server. Figure 2-1 Server Ports and Connectors LVD/SE SCSI Port Console/Remote/UPS Keyboard USB Port MP LAN Port USB Port...
Page 18: Serial Ports
Table 2-1 USB Port Connector Pinouts Pin Number Signal Description +5VDC Ground Serial Ports Figure 2-3 Serial Port Connector Table 2-2 RS-232 Serial Console Port Pinouts Pin Number Signal Description Data carrier detect Receive data Transmit data Data Term ready Ground Ring indicator Clear to send...
Page 19: Management Processor Vga Port
Table 2-3 System Management LAN Port Pinouts (continued) Pin Number Signal Description Not used Not used Not used Not used Management Processor VGA Port Figure 2-5 MP VGA Port Table 2-4 MP VGA Port Pinouts Pin Number Signal Description Pin Number Signal Description +5 VDC Green...
Page 20: Scsi Port, Ultra 3, 68-Pin
Table 2-5 Gigabit LAN Port Pinouts (continued) Pin Number Signal Description Not used Not used Table 2-6 MP LAN Port Pinouts Pin Number Signal Description Not used Not used Not used Not used SCSI Port, Ultra 3, 68-Pin Two Ultra 3, 68-pin SCSI connectors are located on the host bus adapter (HBA) located in PCI slot 1.
Page 21 Table 2-7 SCSI Port Pinouts (continued) Pin Number Signal Description Pin Number Signal Description S14 (+DB P) S48 (–DB P) S15 (GND) S49 (GND) S16 (DIFFSENS) S50 (GND) S17 (TERMPWR) S51 (TERMPWR) S18 (TERMPWR) S52 (TERMPWR) S19 (RESERVED) S53 (RESERVED) S20 (GND) S54 (GND) S21 (+ATN)
Page 22: Installing Additional Components
IPF CPU install tool (P/N 5069-4551—supplied with processors shipped separately) Accessing a Rack-Mounted Server The HP Integrity cx2600 server is designed to be rack-mounted. The following procedure explains how to gain access to a server that is mounted in an approved rack.
Page 23: Removing The Server From A Rack
in place. If the server is tray-mounted, it is not held in the rack and can fall from its mounting. Do not extend the server from the rack, remove it from the rack for internal access. Remove the top cover. See “Removing the Top Cover”...
Page 24: Install The Server Into A Rack
Figure 3-2 Front View of hp Integrity cx2600 Server Removing Hot-Plug Disk Drives Slots are provided for up to three hot-plug disk drives in your hp Integrity cx2600 Server. When disk drives are not installed, filler assemblies are installed to prevent air leakage and ensure adequate cooling.
Page 25: Installing Hot-Plug Disk Drives
Lever Installing Hot-Plug Disk Drives Up to three hot-plug disk drives can be installed in your hp Integrity cx2600 Server. Always use low profile disk drives (1.0" height) in your server. To install a hot-plug disk drive, follow these steps: If required, (OS does not support hot-plugging) stop the operating system.
Page 26: Installing Hot-Swap Power Supply Units
73), for information about connecting a console and using the EFI shell. Installing Hot-Swap Power Supply Units The supported configuration of the hp Integrity cx2600 Server requires that two power supplies be installed. During normal operations, the two power supplies share the load. Each provides power through a separate power rail.
Page 27 If rack-mounted, you may need to extend a slide-mounted server out from the rack for better access. If necessary, slide the server out to the fully extended position. Remove power from the power supply being replaced. Disconnect power at the DC source end of the power cable, using the disconnect device that is part of the rack or facility power system.
Page 28: Installing The Front Grill And Top Cover
13. Install the terminal barrier strip cover (removed in step 11). Hang the cover on the upper tabs and snap the cover into place. 14. Route the power cable through the power supply cable clamp and tighten the two knurled knobs to secure the cable in place.
Page 29: Removing The Top Cover
Removing the Top Cover To remove the top cover, follow these steps: WARNING! Hazardous voltages are present within the server when power is applied. Do not remove the server top cover without first turning off and disconnecting power. Always replace the top cover before turning the system on.
Page 30: Installing The Top Cover
Slide the cover toward the rear of the server chassis and lift it straight up. Installing the Top Cover To install the top cover, follow these steps: Align each pair of tabs on the left and right sides of the cover with the corresponding slots in the chassis.
Page 31: Removing And Installing A Front Panel Hot-Swap Fan
less than 30 seconds eliminates the requirement for a system reboot. Hot-swapping a fan in less than two minutes enables continued operation and prevents automatic shutdown. CAUTION: Operating the server with the front grill removed risks EMI. Operate the server with the front grill removed only when hot-swapping a fan.
Page 32 To remove and install a hot-swappable fan from the front of the server chassis, follow these steps: CAUTION: Hot-swapping a fan can interrupt system operation. If you are hot-swapping a fan assembly in response to an error message, and the system is operating normally, hot-swapping the fan in less than 30 seconds eliminates the requirement for a system reboot.
Page 33: Removing And Installing A Rear Panel Hot-Swappable Fan
Removing and Installing a Rear Panel Hot-Swappable Fan Figure 3-8 Removing a Rear Panel Hot-Swap Fan To remove and install the hot-swap fan from the rear of the server chassis, follow these steps: NOTE: The server does not need to be removed from the rack for fan replacement. Use the ACX-15 Torx screwdriver to loosen the two captive mounting screws that secure the fan unit to the server chassis (Figure...
Page 34: Pci Card Installation
Tighten the two captive screws that secure the fan unit to the server chassis. PCI Card Installation The hp Integrity cx2600 Server has four 64-bit, 133 MHz PCI-X accessory card sockets located in a removable card cage. You must remove the PCI card cage before you can remove or install PCI cards.
Page 35: Removing A Pci Card
Place the card cage on an ESD-protected work surface. Orient the card cage such that PCI card connectors (within the card cage) are at the bottom, when viewed through the open side of the card cage, and cards can be removed by lifting them from the sockets.
Page 36: Installing A Pci Card
If there are any empty sockets in the card cage, install a blank panel in the bulkhead opening at the end of the card cage. The blank panel is necessary to ensure correct airflow when the card cage is installed in a working server. Installing a PCI Card NOTE: You must remove the PCI card cage from the server chassis to enable installation of...
Page 37: Installing Processors
Figure 3-12.) Your hp Integrity cx2600 Server may be delivered with one or two processors installed. You may wish to install the second processor, or replace the processors with newer, compatible processors. Additional or larger DIMMs may be available for installation. The following sections provide detailed procedures for removal and installation of processors and memory.
Page 38: Removing A Processor
Figure 3-12 Processors in Server Chassis (Top Cover Removed) Removing a Processor To remove a processor, proceed as follows: If rack-mounted, extend the server out from the rack until it stops. See “Accessing a Rack-Mounted Server” (page 22). WARNING! Ensure the system is powered down and all power sources have been disconnected from the server prior to removing or replacing components.
Page 39 Figure 3-13 Disconnect Power Module Cable Unscrew the power module non-captive mounting screws and disconnect the module from its processor by sliding it toward the back of the chassis. Figure 3-14 Unscrew Power Module Mounting Screws Slide the power module toward the rear of the system board disconnecting the power module from the processor module.
Page 40 Figure 3-15 Disconnect Power Module from Processor Module Life the power module up and out of the chassis. Place the power module into an anti-static container. Figure 3-16 Remove Power Module 10. Disconnect the processor module turbo fan power cable. Installing Additional Components...
Page 41 Figure 3-17 Disconnecting the Turbo Fan Cable 11. Release the four heatsink captive screws using the special processor tool. Figure 3-18 Releasing Heatsink Captive Screws 12. Slide the sequencing retainer plate toward the back of the chassis to open the hole in the edge of the turbo fan heatsink for insertion of the special processor tool into the processor locking mechanism.
Page 42 Figure 3-19 Sliding the Sequencing Retainer Plate 13. Unlock the processor-locking mechanism using the Allen side of the IFP-CPU tool. Insert the Allen side (hex) of the IPF-CPU tool into the lock access hole that runs down through the edge of the turbo fan heatsink. Unlock the processor locking mechanism by rotating the Installing Additional Components...
Page 43 IPF-CPU tool counterclockwise 180 degrees. Verify that the processor-locking mechanism is rotated into the unlocked position. CAUTION: The zero insertion force (ZIF) socket for the processor is locked and unlocked by half of a full turn of the IPF-CPU tool. The counterclockwise 180 degree rotation (half turn) unlocks the socket.
Page 44: Installing A Processor
Figure 3-21 Lift Processor Module and Turbo Fan Straight Up 15. Place the turbo fan heatsink upside down to ensure the pins do not get bent. Installing a Processor The following procedure is applicable to installation of processor 0 or processor 1. You must install processor 0 before installing processor 1.
Page 45 Remove the chassis top cover. See “Removing the Top Cover” (page 29). CAUTION: Observe all ESD safety precautions while performing processor installation. Failure to follow ESD safety precautions can result in damage to the server. Remove the processor airflow guide by lifting it up and out of the server. Ensure that the processor locking mechanism is rotated to the unlocked position (Figure 3-22).
Page 46 CAUTION: Do not press the processor module into the socket. When properly aligned, the processor pins seat into the socket by themselves. No additional pressure is required. You can damage the pins if you apply pressure. Figure 3-23 Aligning the Processor Power Module 11.
Page 47 Figure 3-24 Securing Heatsink Captive Screws 14. Connect the power cable for the processor turbo fan to its connector on the system board. 15. Slide the CPU power module on the system board metal mounting bracket so that the power module connector aligns with the connector on the processor.
Page 48 16. Align the two mounting screw holes on the power module with their screw holes on the system board metal mounting bracket. Screw in the power module mounting screws (M3 x 23mm long pan T15 crest cup stainless steel, two per CPU). Figure 3-26 Installing the Power Module Mounting Screws 17.
Page 49: Installing Memory
Figure 3-28 Connect the Power Module Cable 19. Place the processor airflow guide in position. 20. Install the chassis top cover. See “Installing the Top Cover” (page 30). 21. If necessary, reinstall the chassis in the rack. See “Install the Server into a Rack” (page 24).
Page 50: Installing Dimms
If rack-mounted, extend the server out from the rack until it stops. See “Installing Components When the Server Is in a Rack” (page 114). Power off the server. Disconnect all external cables. Remove the server from the rack and place it on an ESD-protected work surface. See “Removing the Server From a Rack”...
Page 51 Remove the top cover from the chassis. See “Installing the Front Grill and Top Cover” (page 28). CAUTION: Observe all ESD safety precautions while performing DIMM installation. Failure to follow ESD safety precautions can result in damage to the server. Remove the memory airflow guide.
Page 52 Figure 3-30 Inserting a DIMM into a DIMM Socket 10. Snap the socket retainer clips into place, ensuring that the DIMM is locked into the socket. 11. Repeat steps 7 through 10 for each DIMM to be installed. 12. Set the memory airflow guide in position and reinstall the top cover. Installing Additional Components...
Page 53: Troubleshooting
4 Troubleshooting Introduction This chapter presents troubleshooting information. Basic tips for startup problems are presented, audio cues and LED indicators are described and interpreted, are error messages (and how to retrieve them) are described. In addition, problems that are associated with I/O paths and functions are discussed here.
Page 54: Server Does Not Power On
If the server is off, and power is connected to server power supplies, the front panel power LED blinks at a 1 Hz rate. In this state, standby power is available to server circuits, but main power is off. Pressing and holding the Power button accomplishes the following: •...
Page 55: Operating System Boots With Problems
Operating System Boots with Problems If the operating system is running, you are experiencing problems, use the following tools to help solve the problem: • Beep Codes • LEDs • Error Messages and event logs Intermittent Server Problems You can usually trace intermittent problems that occur during installation to power source problems, a loose connector, or some other hardware problem.
Page 56: Troubleshooting Using Led Indicators
Defective system board. Contact HP Support for assistance. Troubleshooting Using LED Indicators Your hp Integrity cx2600 Server has LED indicators located on the front and rear of the server which you can use to determine what repair action is required. Descriptions of front and rear panel LEDs are provided in the following sections.
Page 57 NOTE: If input power is not maintained to both power supplies on HP Integrity cx2600 and cx2620 servers, front panel LEDs might not display accurate system information. Input power must be maintained to both power supplies (even those that have failed) for LEDs to display accurate system faults.
Page 58 Table 4-2 Front Panel LED Definitions (continued) LED/Button System State Flash Rate Color Description Diagnostic LEDs None Yellow or Displays system error condition (when system (1 thru 4) LED is flashing yellow) or fault condition (when system LED is flashing red). For error code information, see Table 4-3 LAN LED...
Page 59 Table 4-3 Diagnostic LED Displays and Descriptions (continued) Diag 1 Diag 2 LED Diag 3 LED Diag 4 System LED Description Green Green Flashing Fan 4 warning. BMC is reporting that one fan rotor is Yellow turning more slowly than expected or is stopped. Investigate problem at the first opportunity.
Page 60: Rear Panel Leds
Table 4-3 Diagnostic LED Displays and Descriptions (continued) Diag 1 Diag 2 LED Diag 3 LED Diag 4 System LED Description Green Flashing Power supply 1 fault. Replace power supply 1, the power supply interface assembly, or the system board. Green Green Flashing...
Page 61: Gigabit Lan Leds
Figure 4-2 Rear Panel LEDs MP LAN LEDs Power Supply Fault LED Power Supply Fault LED Gigabit LAN LEDs Power Supply DC Out Power Supply DC Out System Management Power Supply DC In LED Power Supply DC In LED LAN (10/100) LEDs Locator Button LEDs Table 4-4 Rear Panel LED Definitions LED/Button...
Page 62: Error Messages
Table 4-4 Rear Panel LED Definitions (continued) LED/Button Color Description Power Supply Fault Amber Lit when a power supply failure is detected. Indicates that power supply has been cycled down or is not fully functional. Power Supply DC Out Green Lit when a power supply is operating normally.
Page 63 Table 4-5 EFI Error and Warning Messages (continued) Error Number Message Description/Solution Error writing BMC token on download Communication with the BMC failed. Replace the system board. Non-volatile Memory (NVM) token access error Communication with the BMC failed. Replace the system board.
Page 64: Event Logs For Troubleshooting Diagnostics
Table 4-5 EFI Error and Warning Messages (continued) Error Number Message Description/Solution At least one (1) CPU is overclocked Check processor installation and match CPU part numbers. CPUs must be identical. Monarch changed to lowest stepping CPU Check processor installation and match CPU part numbers.
Page 65: Sel And Fpl Log Entries
• Previous boot • Live events • Clear SEL/FPL logs Select the desired log for viewing. (For additional information about the management processor and all commands refer to “Utilities” (page 73)) SEL and FPL Log Entries This section is a quick reference for the IPMI events recorded in the SEL and FPL files. These logs are available via the MP card interface or the BMC CLI.
Page 66: Accessing The Logs With Mp Commands
Accessing the Logs with MP Commands The SEL and FPL data can also be accessed from the MP logs using the MP card SL command. The SDM (set display mode) command determines the format of the display: • raw hex mode. •...
Page 67: Troubleshooting Using Offline Support Tools
Table 4-7 I/O Card Slot Paths I/O Slot Path Rope Slot 1 Acpi(HWP0002,400)/Pci(1|0) 4, 5 Slot 2 Acpi(HWP0002,300)/Pci(1|0) Slot 3 Acpi(HWP0002,200)/Pci(1|0) Slot 4 Acpi(HWP0002,600)/Pci(1|0) Note: Rope 7 is used to access optional ECI at 33 MHz. Troubleshooting Using Offline Support Tools You can use offline support tools to troubleshoot the server.
Page 68: Other Event Logs And General Diagnostic Tools
Figure 4-3 Offline Diagnostic Main Menu *************************************************************************** ****** ****** ****** Offline Diagnostic Environment ****** ****** ****** ****** (C) Copyright Hewlett-Packard Co 1993-2003 ****** ****** All Rights Reserved ****** ****** ****** ****** HP shall not be liable for any damages resulting from the ****** ****** use of this program.
Page 69 NOTE: Remove the server top cover during this procedure, so you can observe the system board LEDs and install assemblies. With the top cover removed, the system powers off after two minutes of operation. After installing an assembly, apply power and immediately check for status and symptoms.
Page 70 Table 4-8 Interpret Diagnostic and System LEDs Diag 1 LED Diag 2 LED Diag 3 LED Diag 4 LED System LED Description Flashing Red The BMC is reporting a level 7 error due to the missing server component. Continue with the build up procedure.
Page 71 Table 4-10 Interpret Diagnostic and System LEDs (continued) Diag 1 LED Diag 2 LED Diag 3 LED Diag 4 LED System LED Description Green Flashing Red The BMC is reporting a fatal error due to missing DIMMs. Continue with the build up procedure.
Page 72 When the system powers on, it pauses at the Boot Option screen. Select one of the following options: • EFI Shell (built in). A command line interface that enables you to operate EFI commands or create and run automounted scripts. •...
Page 73: Utilities
5 Utilities This appendix describes the utilities that are part of the server. These include the EFI Boot Manager, and EFI-POSSE. Extensible Firmware Interface Boot Manager Extensible Firmware Interface (EFI) is an OS and platform-independent boot and pre-boot interface. EFI resides between the OS and platform firmware. This enables the OS to boot without having details about the underlying hardware and firmware.
Page 74: Efi Commands
different ways to bring up the system. For example, you can boot to the EFI Shell, to an operating system located on the network or residing on media in the server, or the EFI Boot Maintenance menu. The following options are available in the EFI Boot Manager menu Boot from a File Automatically adds EFI applications as boot options or enables you to boot from a specific file.
Page 75 Table 5-1 EFI Commands (continued) EFI Shell Command BCH Command BCH Command Parameters (PA-RISC) Definition Equivalent (PA-RISC) help <command> HElp [<menu>|<command>] Display help for specified command or menu reset RESET Reset the server (to enable reconfiguration of complex) exit (at EFI Shell) MAin Return to the main menu MAin...
Page 76: Efi/Posse Commands
Table 5-1 EFI Commands (continued) EFI Shell Command BCH Command BCH Command Parameters (PA-RISC) Definition Equivalent (PA-RISC) info io Display firmware version for PDC, ICM, and complex lanaddress LanAddress Display core LAN station address info mem Memory Display memory information info cpu PRocessor Display processor information...
Page 77 by a menu name for more information on that menu. If you issue help within the bch option and a menu name, it displays a list of commands that appear under that BCH menu. You can then issue help followed by bch, the menu name, and a BCH command name to display information about that command.
Page 78 Example 5-1 help Command Shell> help List of classes of commands: boot -- Booting options and disk-related commands configuration -- Changing and retrieving system information devices -- Getting device, driver and handle information memory -- Memory related commands shell -- Basic shell navigation and customization scripts -- EFI shell-script commandsType "help"...
Page 79 Example 5-4 help cpuconfig Command Shell> help cpuconfig Deconfigure or reconfigure cpus CPUCONFIG [module] | [threads] [on|off] module : Specifies which cpu module to configure threads : Use to display info or configure threads on|off : Specifies to configure or deconfigure a cpu module or threads Note: 1.
Page 80: Baud
Example 5-5 help ioconfigCommand Shell> help ioconfig Deconfigure or reconfigure IO components or settings IOCONFIG [fast_init|wol [on|off]] fast_init Specifies device connection policy setting Specifies System Wake-On-LAN setting on|off Specifies to configure or deconfigure a feature or component Note: 1. If fast_init is enabled, firmware will connect only the minimum set of devices during boot.
Page 81: Boottest
Table 5-2 Communications Parameters Parameter Value RECEIVE_FIFO_DEPTH TIMEOUT 1000000 PARITY No parity DATA_BITS STOP_BITS CONTROL_MASK boottest Interacts with the speedy boot variable enabling it to be set appropriately. Syntax boottest Displays status of all speedy boot bits boottest on Run all tests (for a normal boot time) boottest off Skip all tests (for a faster boot time) boottest [test]...
Page 82: Cpuconfig
Example 5-6 boottest Command Shell> boottest BOOTTEST Settings Default Variable Selftest Setting ------------- ------------------------- booting_valid On (OS speedy boot aware) early_cpu Run this test late_cpu Run this test platform Run this test chipset Run this test io_hw Run this test mem_init Run this test mem_test...
Page 83: Default
NOTE: The last remaining configured CPU in a server cannot be deconfigured. Example 5-8 cpuconfig Command Shell> cpuconfig PROCESSOR INFORMATION Proc Arch Processor Speed Model Family State ------- --------- ------- ----- ------ ----- 1.6Ghz Sched Deconf 1.6Ghz Active default Enables you to restore non-volatile memory (NVM) to default values and clear NVM storage values.
Page 84: Parameters
Parameters target: valid targets are: display everything display information on cpus cache display information on cache display information on memory display information on io boot display boot-related information chiprev display information on chip revisions display firmware version information display system information warning display warning and stop boot information Utilities...
Page 85 Example 5-9 info all Command Shell> info all SYSTEM INFORMATION Date/Time: Sep 24, 2004 17:27:17 (20:04:09:24:17:27:17) Manufacturer: Product Name: server cx2620 Product Number: AB333A Serial Number: USR0418201 UUID: 336B81EE-A9AF-11D8-9653-3F6E1533CC31 System Bus Frequency: 200 MHz PROCESSOR MODULE INFORMATION # of Family/ Logical Cache Cache...
Page 86 Logical Logical Warnings ------- --------- -------- AutoBoot: ON - Timeout is : 10 sec Boottest: BOOTTEST Settings Default Variable OS is not speedy boot aware. Selftest Setting --------- -------------- early_cpu Run this test late_cpu Run this test platform Run this test chipset Run this test io_hw...
Page 87 System Wake-On-LAN: Enabled BOOT INFORMATION Monarch CPU: Current Preferred Monarch Monarch Module/ Module/ Logical Logical Warnings ------- --------- -------- AutoBoot: ON - Timeout is : 10 sec Boottest: BOOTTEST Settings Default Variable OS is not speedy boot aware. Selftest Setting --------- -------------- early_cpu...
Page 88 Root Bridge 1229 0023 Host Bridge 0000 122e 0032 Host Bridge 0001 122e 0032 Host Bridge 0002 122e 0032 Host Bridge 0003 122e 0032 Host Bridge 0004 122e 0032 Host Bridge 0006 122e 0032 Host Bridge 0007 122e 0032 Other Bridge 0002 Other Bridge 0009...
Page 89 Example 5-1 1 info mem Command Shell> info mem MEMORY INFORMATION ---- DIMM A ----- ---- DIMM B ----- DIMM Current DIMM Current ------ ---------- ------ ---------- 256MB Active 256MB Active 256MB Active 256MB Active ---- ---- ---- ---- ---- ---- ---- ----...
Page 90: Lanaddress
Example 5-13 info boot Command Shell> info boot BOOT INFORMATION Monarch CPU: Current Preferred Monarch Monarch Module/ Module/ Logical Logical Warnings ------- --------- -------- AutoBoot: ON - Timeout is : 10 sec Boottest: BOOTTEST Settings Default Variable OS is not speedy boot aware. Selftest Setting ---------...
Page 91: Monarch
Example 5-14 lanaddress Command LAN Address Information: LAN Address Path ----------------- ---------------------------------------- Mac(00306E4C4F1A) Acpi(HWP0002,0)/Pci(3|0)/Mac(00306E4C4F1A)) *Mac(00306E4C0FF2) Acpi(HWP0002,100)/Pci(2|0)/Mac(00306E4C0FF2)) monarch Displays or modifies the ID of the bootstrap processor. The preferred monarch number is stored in NVM. Syntax monarch <cpu> Parameters <cpu> specifies a cpu Operation If specified with no parameters, monarch displays the Monarch processor for the server.
Page 92: Operation
Operation With no options specified, the command displays the PDT information for the server. The PDT is cleared and a reboot is required for memory reallocation and safe booting. Example 5-16 pdt Command Shell> pdt PDT Information for PD Last Clear time for PD: PDT has not been cleared Number of total entries in PD PDT: Number of used entries in PD PDT:...
Page 93: Specifying Scsi Parameters
Example 5-18 sysmode Command Shell> sysmode System Mode: NORMAL Shell> sysmode admin You are now in admin mode. Shell> sysmode service You are now in service mode. Shell> sysmode normal You are now in normal mode Specifying SCSI Parameters The following SCSI parameters may be configured for the SCSI board: •...
Page 94 At the EFI Shell prompt, enter the info io command to map the parameters for all PCI cards installed in the server. A list of all the devices that are installed in the server and managed by EFI drivers displays. For example: I/O INFORMATION BOOTABLE DEVICES...
Page 95 The vendor (0x1000) and device (0x0030) are the IDs for a SCSI interface. Of the devices with those IDs, this device has two channels (Fnc # of 00 immediately followed by Fnc # of 01). Also, this SCSI interface has a non-numeric (XX) slot # indicating that it is on the system board.
Page 96 Drv[3F] Ctrl[19] Lang[eng] Drv[45] Ctrl[1C] Lang[eng] Drv[45] Ctrl[1D] Lang[eng] This listing shows which driver controls which device (controller). This information describes a SCSI interface because the values shown for Ctrl—17 and 18—are the controller’s handles for the SCSI interface two channels (from the information displayed by the devtree command).
Page 97 PCI-X Bus, PCI-X Device, and PCI-X Function to the Bus #, Dev #, and Fnc # values from the info io command. CAUTION: Do not change the value for any of the following fields on the Adapter Properties screen: • Auto Termination •...
Page 98: Management Processor
15. At the EFI Shell prompt, enter the Shell> reset command. The system starts to reboot. This is required to cause the new SCSI setting. Management Processor The management processor is an independent support system for the server. It provides a way for you to connect to a server and perform administration or monitoring tasks for the server hardware.
Page 99: Mp Welcome Screen
MP Welcome Screen MP Welcome screen commands: MP Login: Admin MP password: ***** Hewlett-Packard Management Processor (C) Copyright Hewlett-Packard Company 1999-2003. All rights reserved System Name: xxxxxxxxx MP MAIN MENU: CO: Console VFP:Virtual Front Panel CM: Command Menu CL: Console Log...
Page 100: Reset Bmc Passwords
Table 5-3 (continued) Command Description Paging parameter setup Power management module status Reset BMC Reset system through RST signal Set access Enter OS session Show event logs Security options System processor status SYSREV Current system firmware revisions Reset via transfer of control (TOC) Tell- send a message to other users User configuration Virtual front panel...
Page 101: Certificate Generate
• TRANSMIT CONFIGURATION STRINGS: Disable this setting whenever the modem being used is not compatible with the supported modem (MT5634ZBA). • MODEM PRESENCE: When the modem may not always be connected, set this parameter to “not always connected.” For example: A modem attached through a switch. In mode “not always connected,” no dial-out functions are allowed: DIAL-BACK is disabled, and PAGING is not possible.
Page 102: Date
This command allows the local or remote port user to connect over the MP LAN to another MP on the network. The user that launches the command is given a private connection to the other MP over the LAN. To return to the original MP, type CTRL+] to disconnect the CSP session. Date DATE: Displays the current date, as generated in the MP real-time clock.
Page 103: Display System Id
mode, this command displays a list of command interface commands available to the user. It also displays detailed help information in response to a topic or command at the help prompt. Display System ID ID: Display/modify system information This command allows the user to display and modify the following: •...
Page 104: Modem Reset
Modem Reset MR: Modem Reset This command makes the MP send an AT Z command to the modem, which resets it. Any modem connections are lost. The initialization results can be viewed via the MS command. Modem Status MS: Modem Status—display modem status The MS command displays the state of the modem lines connected to the remote/modem serial port.
Page 105: Set Access
Set Access SA: Set access options—configures access for LAN and remote/modem ports This command will disconnect modem, LAN, and web users if access is disabled. Create Local Session SE: Log into the system on local or remote port Only valid from the local or remote/modem port, SE allows the user to leave the MP command interface and enter a system session.
Page 106: Security Options
Table 5-4 Alert Levels Severity Definition Minor forward progress Major forward progress Informational Warning Critical Fatal Security Options SO: Configure security options and access control (users, passwords, and so on) This command modifies the security parameters of the MP, which include login timeouts and allowed password faults.
Page 107: Virtual Front Panel
Virtual Front Panel VFP: Display Virtual Front Panel This command is executed from the Main Menu. The VFP display is a summary of the current state of the system, including current LED states. When invoked, the VFP command presents a summary of system status, using direct console addressing.
Page 108: Booting The Server
Booting the Server To boot the server, press the power switch located on the front panel. If the autoboot function is enabled, the system will boot to the installed operating system. If autoboot is not enabled, the system will enter the EFI boot manager. The EFI boot manager allows you to control the server’s booting environment.
Page 109 Configurable Components Drv[23] Ctrl[29] Lang[eng]Shell> drvcfg -c 2a Configurable Components Drv[2A] Ctrl[2C] Lang[eng] Set the enumeration option for the driver 23 and controller 29. Enter the following command and select 1 from the enumeration policy menu: Shell> drvcfg s 23 29 Current policy: Enumerate all Fibre Channel devices Please select the desired enumeration policy: 0 : Enumerate all Fibre Channel boot devices in the boot option list...
Page 110 gF7D00000) blkD : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375A5E5B,Lun0) blkE : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375A5E5B,Lun0)/HD(Part1,Si g7D930000) blkF : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375A5E5B,Lun0)/HD(Part2,Si g7D930000) blk10 : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN210000203760083D,Lun0) blk11 : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020370FC9C0,Lun0) blk12 : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN2100002037600863,Lun0) blk13 : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375A61C4,Lun0) blk14 : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375AE6C1,Lun0) blk15 : Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375A6215,Lun0) blk16 : Acpi(HWP0002,600)/Pci(1|0)/Scsi(Pun4,Lun0) blk17 : Acpi(HWP0002,600)/Pci(1|0)/Scsi(Pun4,Lun0)/HD(Part1,Sig70BEA120-E7EA-0 1C2-507B-9E5F8078F531) blk18 : Acpi(HWP0002,600)/Pci(1|0)/Scsi(Pun4,Lun0)/HD(Part2,Sig70EC67E0-E7EA-0 1C2-F1B3-12714F758821) blk19 : Acpi(HWP0002,600)/Pci(1|0)/Scsi(Pun4,Lun0)/HD(Part3,Sig7612C3E0-E7EA-0 1C2-D931-F8428177D974)
Page 111 IA64_EFI [Acpi(HWP0002,100)/Pci(1|1)/Scsi(Pun0,Lun0)/HD(Part1,Si IA64_EFI [Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375AE714,L IA64_EFI [Acpi(HWP0002,500)/Pci(2|0)/Fibre(WWN21000020375A5E5B,L NO VOLUME LABEL [Acpi(HWP0002,600)/Pci(1|0)/Scsi(Pun4,Lun0)/HD(P Removable Media Boot [Acpi(HWP0002,0)/Pci(3|0)/Ata(Primary,Maste Load File [EFI Shell [Built-in]] Load File [Acpi(HWP0002,100)/Pci(2|0)/Mac(00306E39115D)] Load File [Acpi(HWP0002,200)/Pci(1|0)/Mac(001018042056)] Load File [Acpi(HWP0002,500)/Pci(1|0)/Mac(00101804205A)] Exit 11. Select the appropriate files to describe the address of the new FC boot option: Select file or change to new directory: 04/15/03 11:25p <DIR>...
Page 112: Parts Information
A6834-69001 A6835-67001 2 GB DIMM (AB228A or A6835A: includes 4 DIMMs) A6970AX A6835-69001 Server Subassemblies AB216-04001 HP Integrity cx2600 chassis AB216-04001 AB216-60002 HP Integrity cx2600 system board AB216-60002 AB216-69002 A7231-66520 SCSI backplane A7231-66520 A7231-66530 PCI riser assembly A7231-66530 A7231-66580 Remote Management board...
Page 113 Table 6-1 Parts List (continued) Manufacturing Part Description Replacement Part Exchange Part Number Number Number AB216-60001 Fan control board AB216-60004 AB216-60004 0957-2089 DC power supply (AB217A) 0957-2089 Fan Assemblies AB216-04008 Front fan assembly AB216-04008 AB216-04002 Rear fan assembly AB216-04002 Miscellaneous Parts A7231-04006 APC / PCI Cage A7231-04006...
Page 114: Removing And Replacing Components
7 Removing and Replacing Components This chapter provides procedures for removing and replacing components in the server. Safety Information Use care to prevent injury and equipment damage when performing removal and replacement procedures. Voltages can be present within the server. Many assemblies are sensitive to damage by electrostatic discharge.
Page 115: Removing The Server From A Rack
To install components when the server is in a rack, follow these steps: WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware. Voltages are present at various locations within the server whenever a DC power source is connected.
Page 116: Inserting The Server Into A Rack
Figure 7-1 Chassis Ground Lug Chassis Ground chasgndlug If the server is slide-mounted, slowly pull the chassis forward (or push from the rear) to extend the chassis from the rack. The server is fully extended when the rail clips are locked in place.
Page 117: Removing And Replacing Disk Drives
Failure to observe this caution could result in system failure. Figure 7-2 Front View of hp Integrity cx2600 Server Removing Hot-Plug Disk Drives To remove a hot-plug disk drive, perform the following steps: CAUTION: The disk drives in the server are not hot-swappable: they are merely hot-pluggable.
Page 118: Installing Hot-Plug Disk Drives
Squeeze inward on the release clip and pull the release lever to pull the drive from the server chassis. Figure 7-3 Disk Drives in Server dskdrvfrnt1 Release Release Clip Lever Installing Hot-Plug Disk Drives To install a hot-plug disk drive, follow these steps: If required, (OS does not support hot-plugging) stop the operating system.
Page 119: Removing A Hot-Swappable Power Supply
NOTE: A hot-swappable device does not require interaction with the operating system before the device is removed from or installed into the server. If the second power supply is functioning correctly, you can power off and remove a power supply with no effect on server operations. The power to the server (other power supply) does not have to be off to remove or replace a hot-swappable power supply.
Page 120: Installing A Hot-Swappable Power Supply
Figure 7-5 Removing a Hot-Swappable Power Supply Mounting Screws chaspsxtnd Handle Cable Clamp If rack-mounted, you may need to extend the server out from the rack for better access. If needed, slide the server out to the fully extended position. Disconnect power from the power supply being removed.
Page 121 When the power supply is fully inserted into the server chassis, tighten the two mounting screws to secure the power supply in place. Press up on the two lower tabs on the terminal barrier strip cover to snap off the cover. WARNING! Always check that the power cable is not connected to a power source before attempting to connect the power cable to the power supply terminals.
Page 122: Removing And Replacing The Front Grill
Removing and Replacing the Front Grill Figure 7-7 shows the server with the front grill removed. CAUTION: Operation of the server without the front grill in place makes the server susceptible to electromagnetic interference (EMI) problems, which can result in system failure. Keep the front grill in place during normal operation.
Page 123: Removing And Replacing The Top Cover
Removing and Replacing the Top Cover Figure 7-8 shows the server with the top cover removed. CAUTION: Operation of the server without the top cover in place makes the server susceptible to electromagnetic interference (EMI) and overheating problems, which can result in system failure.
Page 124: Replacing The Top Cover
WARNING! Voltages are present within the server when power is applied. Do not remove the server top cover without first turning off and disconnecting power. Always replace the top cover before turning the system on. Power off and disconnect system power. Disconnect power at the DC source end of the power cables, using the disconnect device that is part of the rack or facility power system.
Page 125: Installing A Front Panel Hot-Swappable Fan
Figure 7-9 Removing a Front Panel Hot-Swappable Fan Fan 1 Fan 2 Fan 3 Fan 4 chasfan1xtnd Captive Screws Remove the front grill. See “Removing and Replacing the Front Grill” (page 122). Use the ACX-15 Torx screwdriver to loosen the two captive screws on the plastic extractor handle (left side of fan) until they release.
Page 126: Removing A Rear Panel Hot-Swappable Fan
Removing a Rear Panel Hot-Swappable Fan To remove a hot-swappable fan from the rear of the server chassis, follow these steps. Figure 7-10 Removing a Rear Panel Hot-Swappable Fan Mounting Screws Fan 5 chasfan5xtnd If rack-mounted, you may need to extend the server out from the rack for better access. If needed, slide the server out to the fully extended position.
Page 127: Installing A Rear Panel Hot-Swappable Fan
NOTE: Hot-swapping a fan can interrupt system operation. If you are hot-swapping a fan assembly in response to an error message, and the system is operating normally, hot-swapping the fan in less than 30 seconds eliminates the requirement for a system reboot. Hot-swapping the fan in less than two minutes enables continued operation and prevents automatic shutdown.
Page 128: Removing The Memory Airflow Guide
Removing and Replacing System Memory DIMMs Your hp Integrity cx2600 Server comes with 4, 8, or 12 DIMMs installed. The system is minimally configured with 1GB of memory (four 256 MB DIMMs loaded in quad 0 (slots 0A, 0B, 1A, and 1B).
Page 129: Supported Dimm Sizes
You may replace these DIMMs, or insert DIMMs into unused quads if desired. When adding DIMMs, you must use a minimum of four like-sized DIMMs in the next available quad. If DIMMs of different sizes are to be installed, the smallest DIMMs (least memory) must be installed in the first quad.
Page 130: Installing Dimms
Remove the memory airflow guide. See “Removing the Memory Airflow Guide” (page 128). Locate the DIMMs you want to remove (Figure 7-12). Press down on the DIMM socket retainer clips on either end of the DIMM connector until the DIMM ejects from the connector. Lift the DIMM from the system board socket (Figure 7-13).
Page 131: Removing And Replacing The Pci Card Cage
Figure 7-13 Inserting a DIMM into a DIMM Socket dimm_sokt NOTE: DIMM connectors are keyed so that you can only install them in the correct orientation. Firmly and evenly push down on each side of the DIMM until it seats in the socket. The socket retainer clips snap up and return to the upright position when the DIMM is fully inserted.
Page 132 Remove the server from the rack and place it on an ESD-protected work surface. See “Removing the Server From a Rack” (page 115). WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware. Voltages are present at various locations within the server whenever a DC power source is connected.
Page 133: Installing The Pci Card Cage Assembly
NOTE: The four connectors within the PCI card cage are identical and have the same capabilities. You can install a compatible PCI card in any slot. Installing the PCI Card Cage Assembly To install the PCI card cage assembly, follow these steps: WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware.
Page 134: Removing And Replacing Pci Cards
Figure 7-15 Installing the PCI Card Cage PCI Card Cage Release Lever chaspciccup Press the release lever down to lock the card cage in place in the chassis. Reinstall the chassis cover. See “Removing and Replacing the Top Cover” (page 123).
Page 135: Installing A Pci Card
If a cable blocks card removal, or if it is connected to the card, disconnect the cables from the card connectors. Use the ACX-15 Torx screwdriver to remove the retaining screws (M3 x 6mm long pan T15/slot squire cone stainless steel) that secures the card in place (Figure 7-16).
Page 136: Removing And Replacing The Led Status Panel
Secure the card in the card cage using the retaining screws provided. Connect the cables to the card sockets. Removing and Replacing the LED Status Panel The LED status panel can be removed from the front of the server chassis. It is mounted together with the CD/DVD optical drive assembly.
Page 137: Installing The Led Status Panel
Remove the two noncaptive screws that secure the LED status panel board to the threaded standoffs on the deck, and slide the board forward to disengage the board lock apertures from the keyed standoffs (two each). Remove the board by lifting it off of the deck assembly. Figure 7-18 Removing the LED Status Panel LED Board Mounting Screws...
Page 138: Removing And Replacing The Cd/Dvd Optical Drive
Removing and Replacing the CD/DVD Optical Drive You can remove the optical drive from the front of the server chassis. WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware. Voltages are present at various locations within the server whenever a DC power source is connected.
Page 139: Removing The Hard Drive Backplane
components for this procedure is extensive; you must budget adequate time for completion of the steps. A flashlight is not required but can be useful in this effort. WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware.
Page 140: Installing The Hard Drive Backplane
Figure 7-20 Hard Drive Backplane Mounting Screws Fault DC Out DC In chasfn5out2 Backplane Mounting Screws 12. Slide the backplane board to the right to align locking holes in the unlocked position, and remove the board. Installing the Hard Drive Backplane To install a hard drive backplane, follow these steps: Insert the hard drive backplane through the fan opening in the chassis rear panel.
Page 141: Removing And Replacing The Power Supply Interface Assembly
Removing and Replacing the Power Supply Interface Assembly The power supply interface (PSI) assembly is located under the top cover. You can see the PSI from the rear of the chassis when the two power supply modules are removed. WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware.
Page 142: Installing The Psi Assembly
From the front of the server, locate the two hard drive backplane cables and disconnect them. Figure 7-22 PSI Module From the Front chasnodvdasy CPU Power Pod Interface Cables Remove the PSI assembly, along with the attaching cables, from the server chassis. Installing the PSI Assembly To install a PSI assembly, follow these steps: CAUTION:...
Page 143: Removing And Replacing The Fan Control Board
Removing and Replacing the Fan Control Board Remove and replace the fan control board with the server powered off and with the top cover and the front grill removed. This circuit board also provides cable distribution to various elements in the chassis, as it is the termination point for seven different connectors. WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware.
Page 144: Installing The Fan Control Board
Figure 7-23 Fan Control Board Control Board chasfnbrdxtnd Remove the terminating connectors from the cables (Figure 7-24). Figure 7-24 Fan Control Board Connectors Control Board Mounting Screw fncntbrd2 Remove the single screw (M3 x .5 10mm long pan T10 crest cup stainless steel) located at the top left corner of the fan control board, which secures the board to the standoffs on which it is mounted.
Page 145: Removing And Replacing The Management Processor Board
CAUTION: Observe all ESD safety precautions while performing this procedure. Failure to follow ESD safety precautions can result in damage to the server. Clear a pathway of cables and set the fan control board in place, hooking its locking apertures onto the standoff locks.
Page 146: Removing The Management Processor Board
Removing the Management Processor Board To remove the MP board, follow these steps: If rack-mounted, extend the server out from the rack until it stops. See “Installing Components When the Server Is in a Rack” (page 114). Power off the server. Disconnect all external cables. Remove the server from the rack and place it on an ESD-protected work surface.
Page 147: Replacing The Management Processor Board Battery
Replacing the Management Processor Board Battery A keep-alive battery is located on the under-side of the MP board, with a design lifetime of ten years. This 3 volt CR2032 type battery can be accessed for replacement only when the MP board is out of the system.
Page 148: Removing A Processor
Figure 7-27 Processors in Server Chassis (Top Cover Removed) CPU 0 CPU 1 chastop2cpus A tool kit is provided with replacement processors. An IPF CPU tool kit is required for successful completion of these procedures. Removing a Processor WARNING! Ensure the system is powered down and all power sources have been disconnected from the server prior to removing or replacing components.
Page 149 Figure 7-28 Disconnect Power Module Cable Unscrew the power module non-captive mounting screws and disconnect the module from its processor by sliding it toward the back of the chassis. Figure 7-29 Unscrew Power Module Mounting Screws Slide the power module toward the rear of the system board disconnecting the power module from the processor module.
Page 150 Figure 7-30 Disconnect Power Module from Processor Module Life the power module up and out of the chassis. Place the power module into an anti-static container. Figure 7-31 Remove Power Module 10. Disconnect the processor module turbo fan power cable. Removing and Replacing Components...
Page 151 Figure 7-32 Disconnecting the Turbo Fan Cable 11. Release the four heatsink captive screws using the special processor tool. Figure 7-33 Releasing Heatsink Captive Screws 12. Slide the sequencing retainer plate toward the back of the chassis to open the hole in the edge of the turbo fan heatsink for insertion of the special processor tool into the processor locking mechanism.
Page 152 Figure 7-34 Sliding the Sequencing Retainer Plate 13. Unlock the processor-locking mechanism using the Allen side of the IFP-CPU tool. Insert the Allen side (hex) of the IPF-CPU tool into the lock access hole that runs down through the edge of the turbo fan heatsink. Unlock the processor locking mechanism by rotating the Removing and Replacing Components...
Page 153 IPF-CPU tool counterclockwise 180 degrees. Verify that the processor-locking mechanism is rotated into the unlocked position. CAUTION: The zero insertion force (ZIF) socket for the processor is locked and unlocked by half of a full turn of the IPF-CPU tool. The counterclockwise 180 degree rotation (half turn) unlocks the socket.
Page 154: Replacing A Processor
Figure 7-36 Lift Processor Module and Turbo Fan Straight Up 15. Place the turbo fan heatsink upside down to ensure the pins do not get bent. Replacing a Processor The system board can support either one or two processors. The following procedure is applicable to installation of processor 0 or processor 1.
Page 155 Figure 7-37 Processors in Server Chassis CPU 0 CPU 1 chastop2cpus WARNING! Ensure the system is powered down and all power sources have been disconnected from the server prior to removing or replacing components. Voltages are present at various locations within the server whenever a DC power source is connected.
Page 156 Figure 7-38 Unlocking the Processor Locking Mechanism Unlocked Locked Front of Chassis Inspect the pins of the processor you are installing. Verify that processor pins are not bent. Insert the Allen side (hex) of the IPF-CPU tool into the lock access hole that runs down through the edge of the turbo fan heatsink before you place it on the system board.
Page 157 holes on the system board processor mount. Position the turbo fan power cable so that it is located on the side of the heatsink that faces the front of the chassis. CAUTION: Do not press the processor module into the socket. When properly aligned, the processor pins will seat into the socket.
Page 158 Figure 7-40 Securing Heatsink Captive Screws Screw 4 Screw 1 (not shown) Insert IPF-CPU (Tighten Last) (Tighten First) Tool Here Torquing Pattern Screw 3 (Tighten Third) Screw 2 (Tighten Second Locator Post Locator Locator Post Hole Locator Hole cpu1noppm3 14. Connect the power cable for the processor turbo fan to its connector on the system board. 15.
Page 159 Figure 7-41 Aligning the Processor Power Module Front of Chassis 16. Align the two mounting screw holes on the power module with their screw holes on the system board’s metal mounting bracket. Screw in the power module mounting screws (M3 x 23mm long pan T15 crest cup stainless steel, 2 per CPU).
Page 160: Removing And Replacing The System Battery
Figure 7-43 Connect the Turbo Fan Cable Front of Chassis 18. Connect the power module cable to the connector on the system board. Figure 7-44 Connect the Power Module Cable Front of Chassis 19. Place the processor airflow guide in position. See “Installing the Processor Airflow Guide”...
Page 161: Removing The System Battery
NOTE: There are two batteries in the server: the system battery and the MP board battery. See the parts list for the system battery part number. Figure 7-45 Battery Location in Server (Top Cover Removed) System Battery chastop2cpus Removing the System Battery WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware.
Page 162: Installing The System Battery
Locate the system battery on the system board (Figure 7-45). CAUTION: Do not overstress the battery retaining clip. This clip is easily broken. Lift the battery just high enough to clear the battery holder. Failure to heed this warning can result in damage to the clip.
Page 163: Removing And Replacing The System Board
Locate the system battery on the system board (Figure 7-45). CAUTION: Do not overstress the battery retaining clip. This clip is easily broken. Lift the battery just high enough to clear the battery holder. Failure to heed this warning can result in damage to the clip.
Page 164 If rack-mounted, extend the server out from the rack until it stops. See “Installing Components When the Server Is in a Rack” (page 114). Power off the server. Disconnect all external cables. Remove the server from the rack and place it on an ESD-protected work surface. See “Removing the Server From a Rack”...
Page 165: Installing The System Board
13. Locate the four front fan cables 1-4 near the system board, and remove the common harness from the recession near the board’s edge. Pop the clips on the fan cable by pushing down on the tab. By completely removing the cables, clips, and harness, this enables clearance for removing the system board.
Page 166: Specifications
This chapter provides the power requirements, operating conditions (environmental requirements), physical requirements, hardware specifications, and video resolutions of the hp Integrity cx2600 Server. The following tables provide the specifications required for normal operation of the hp Integrity cx2600 Server. NOTE:...
Page 167: Index
Index EFI boot manager, 73 EFI SCSI setup utility accessing a rack-mounted server, 22 starting, 96 adapter EFI/POSSE, 76–92 path, 94 EFI/POSSE commands, 76 slot number, 94 error messages, 62 antistatic wrist strap, 114 event logs CMC, 64 CPE, 64 battery, MP board, remove and replace, 147 Extensible Firmware Interface (EFI) battery, system, remove and replace, 160...
Page 168 PCI-X cards, 34 hot-swappable power supplies, 119 power supply units, 26 LED status panel, 136 top cover, 30 memory airflow guides, 128 installing the server MP board, 146 rack mount, 24 MP board battery, 147 intermittent server problems, 54, 55 optical drive, 138 PCI cards, 134 PCI-X airflow guides, 128...

HP Integrity cx2600 Maintenance Manual

About this Document

1 Controls, Ports, and Indicators

2 External Connectors

3 Installing Additional Components

4 Troubleshooting

5 Utilities

6 Parts Information

7 Removing and Replacing Components

8 Specifications

Index

Quick Links

Troubleshooting

Related Manuals for HP Integrity cx2600

Summary of Contents for HP Integrity cx2600

Table of Contents