HP Integrity rx8620 Server User Service Guide HP Part Number: A7026-96036_ed7 Published: September 2010 Edition: 7
© Copyright 2003-2010 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. Printed in U.S.A.
Table of Contents About This Document.......................................................................................................13 Intended Audience................................................................................................................................13 New and Changed Information in This Edition...................................................................................13 Publishing History..........................................................................
Removing the Side Cover...........................................................................................................47 Installing the Side Cover............................................................................................................47 Power Distribution Unit........................................................................................................................47 3 Installing Accessories........................................................................
Interlock Switches............................................................................................................................90 Disk Drive LEDs..............................................................................................................................90 Server Management Subsystem Hardware Overview.........................................................................91 Server Management Overview............................................................................
Removing the Removable Media Drive.........................................................................................119 Replacing the Removable Media Drive.........................................................................................120 Removing and Replacing a Cell Board...............................................................................................120 Removing the Cell Board....................................................................................................
Removing the System Backplane...................................................................................................177 Replacing the System Backplane...................................................................................................178 Removing and Replacing a Bulk Power Supply (BPS).......................................................................179 Removing the BPS............................................................................................................
Index...............................................................................................................................
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 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 3-1 3-2 3-3 3-4 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 HP Integrity rx8620 Server (front view)........................................................................................18 HP Integrity rx8620 Server (front view without bezel).................................................................
4-19 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 6-1 6-2 6-3 6-4 6-5 6-6 6-7 6-8 6-9 6-10 6-11 6-12 6-13 6-14 6-15 6-16 6-17 6-18 6-19 6-20 6-21 6-22 6-23 6-24 6-25 6-26 6-27 6-28 6-29 6-30 6-31 6-32 6-33 6-34 10 Console Output Device menu.......................................................................................................74 Front Panel with LED Indicators........................................................................................
6-35 6-36 6-37 6-38 6-39 6-40 6-41 6-42 6-43 6-44 6-45 6-46 6-47 6-48 6-49 6-50 6-51 6-52 6-53 6-54 6-55 6-56 6-57 6-58 6-59 6-60 6-61 6-62 6-63 6-64 6-65 6-66 6-67 B-1 D-1 D-2 D-3 D-4 D-5 D-6 D-7 ZIF Socket Lock/Unlock Peep Hole Location..............................................................................150 VRM Cover Installed ..................................................................................................................151 Door Opener Installed ...............................
List of Tables 1 2 1-1 1-2 1-3 1-4 1-5 1-6 2-1 3-1 3-2 3-3 3-4 4-1 4-2 4-3 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 6-1 6-2 6-3 6-4 6-5 6-6 6-7 6-8 A-1 B-1 B-2 B-3 B-4 B-5 B-6 B-7 C-1 C-2 C-3 12 Publishing History Details............................................................................................................13 HP-UX 11i Releases.......................................................................................................................
About This Document This document provides information and instructions on servicing and troubleshooting the HP Integrity rx8620 server. The document printing date and part number indicate the document’s current edition. The publish date changes when a new edition is published. Minor changes can be made at reprint without changing the publishing date. The document part number changes when extensive changes are made.
Documentation: bizsupport. The main Web site for HP technical documentation is http://www.hp.com/go/ Server Hardware Information: The following website offers more system information: http:// www.hp.com/go/integrity_servers-docs. It provides HP nPartition server hardware management information, including site preparation, installation, and more.
Typographic Conventions This document uses the following conventions. WARNING! A warning lists requirements that you must meet to avoid personal injury. CAUTION: A caution provides information required to avoid losing data or avoid losing system functionality. NOTE: A note highlights useful information such as restrictions, recommendations, or important details about HP product features. Book Title The title of a book. On the Web and on the Instant Information CD, it may be a hot link to the book itself.
HP contact information For the name of the nearest HP authorized reseller: • • In the United States, see the HP US service locator webpage (http://welcome.hp.com/country/ us/en/wwcontact.html.) In other locations, see the Contact HP worldwide (in English) webpage: http://welcome.hp.com/country/us/en/wwcontact.html. For HP technical support: • In the United States, for contact options see the Contact HP United States webpage: (http:// welcome.hp.com/country/us/en/contact_us.
1 Overview The HP Integrity rx8620 server is a member of the HP business-critical computing platform family mid-range, mid-volume servers positioned between the HP Integrity rx7620 and HP Integrity Superdome servers.
Introduction The HP Integrity rx8620 server is 17U1 high, 16-socket symmetric multiprocessor (SMP) rack-mount or standalone servers that accommodate up to 128 GB of memory, PCI-X I/O, and internal peripherals including disks and DVD or tape drives. High-availability features include N+1 hot-swap fans and power, redundant power cords, and hot-pluggable PCI cards and hard disk drives.
Figure 1-2 HP Integrity rx8620 Server (front view without bezel) Front Panel Front Panel Indicators and Controls The front panel, located on the front of the server, includes a power switch. See “Front Panel LEDs” (page 82).
I/O Subsystem All of the I/O is integrated into the system by way of the PCI busses. The CC on each cell board communicates with one SBA over the SBA link. The SBA link consists of both an inbound and an outbound link with an effective bandwidth of approximately 1 GB per second. The SBA converts the SBA link protocol into ropes. A rope is defined as a high-speed, point-to-point data bus.
in the system. It connects to the processor dependent hardware (PDH) and micro controller hardware. Each cell board holds up to 16 DIMMS. Between one to four cell boards can be installed in the server. A cell board can be selectively powered off for cell replacement without affecting cells in other configured partitions. Figure 1-5 Cell Board The server has a 48 V distributed power system and receives the 48 V power from the system backplane board.
Figure 1-6 Memory Subsystem PDH Riser Board The HP Integrity rx8620 Server PDH riser board is a small card that plugs into the cell board at a right angle. The PDH riser interface contains a microprocessor memory interface microcircuit, hardware including the processor dependant code (PDC) flash memory, and a manageability microcontroller with associated circuitry. The PDH obtains cell board configuration information from cell board signals and from the cell board local power module (LPM).
Figure 1-7 CPU Locations on Cell Board DIMMS The memory DIMMs used by the server are custom designed by HP and are identical to those used in the Superdome servers. Each DIMM contains SDRAM memory components and is qualified to run at 125 MHz. The CPU chip set does not support traditional DRAMs. The server supports DIMMs with densities of 64, 128, 256, and 512 Mb for the SDRAM devices. Table 1-2 shows each supported DIMM size, the resulting total server capacity, and the memory component density.
DIMMs across all cells in a partition should have identical memory loaded. Figure 1-8 shows the DIMM slot layout on the cell board. For DIMM load order and the DIMM layout on the cell board, see Table 1-3 and Figure 1-8. A quad, as seen in Figure 1-8, is a grouping of four DIMMs. Configurations with 8 or 16 DIMM slots loaded are recommended. The DIMM sizes in a quad can be different, but the DIMMs in an echelon must be the same size.
also is assigned to the nPartition. Each I/O chassis has PCI card slots plus any I/O cards and attached devices, and has a core I/O card assigned to the I/O chassis. On the HP Integrity rx8620 Server, each nPartition has its own dedicated portion of the server hardware that can run a single instance of the operating system. Each nPartition can boot, reboot, and operate independently of any other nPartitions and hardware within the same server complex.
Table 1-5 Hard Disk Drive Path Hard Drive Path Slot 0 Drive 0/0/0/2/0.6.0 Slot 1 Drive 0/0/0/3/0.6.0 Slot 2 Drive 1/0/0/2/0.6.0 Slot 3 Drive 1/0/0/3/0.6.0 System Backplane The system backplane houses the system clock generation logic, the system reset generation logic, DC-to-DC converters, power monitor logic, and two LBA link-to-PCI converter ASICs.
System Backplane to Core I/O Card Connectivity The core I/O card connectors are right-angle connectors that mate with the system backplane. Three connectors per core I/O card carry one PCI bus from the system to the core I/O board and three single-ended SCSI busses from the core I/O to the system backplane. The system backplane contains two LBA PCI bus controllers, one per core I/O board, and six 68-pin SCSI connectors (three per core I/O board).
Figure 1-11 PCI-X Board to Cell Board Block Diagram The server supports two internal SBAs. The SBAs generate 32 rope buses (16 per SBA). The 32 available internal rope buses are divided in the following manner: • Two ropes are routed as single rope bundles to support the core I/O boards through LBAs located on the core I/O backplane. • Two ropes are routed as single rope bundles to two LBAs to support two slots for PCI and PCI-X cards.
Table 1-6 PCI-X Slot Types (continued) I/O Partition Slot Device1 0 6 PCI (33 or 66 MHz) / PCI-X (66 or 133 MHz) 64-bit, 3.3 V connector, Hot-Plug Slot. 0 5 PCI (33 or 66 MHz) / PCI-X (66 or 133 MHz) 64-bit, 3.3 V connector, Hot-Plug Slot. 0 4 PCI (33 or 66 MHz) / PCI-X (66 or 133 MHz) 64-bit, 3.3 V connector, Hot-Plug Slot. 0 3 PCI (33 or 66 MHz) / PCI-X (66 or 133 MHz) 64-bit, 3.3 V connector, Hot-Plug Slot. 0 2 PCI (33 or 66 MHz) / PCI-X (66 or 133 MHz) 64-bit, 3.
Figure 1-12 Mass Storage Block Diagram HP Integrity rx8620 Server Description Dimensions and Components Figure 1-13 HP Integrity rx8620 Server (Front View) • Depth: Defined by cable management constraints to fit into a standard 36-inch deep rack: 25.5 inches from front rack column to PCI connector surface 26.
30 inches overall package dimension, including 2.7 inches protruding in front of the front rack columns • • Width: 17.5 inches, constrained by EIA standard 19 inch racks Height: 17U (29.55 inches), constrained by package density The mass storage section located in the front allows access to removable media drives without removal of the bezel (bezel not shown in figure). The mass storage bay accommodates two 5.25-inch removable media drives and up to four 3.5-inch hard disk drives.
Redundant line cords attach to the AC power receptacles at the bottom rear. Two 20-amp cords are required to power the server. Two additional line cords provide redundancy. Access the system backplane by removing the left side cover. The system backplane hinges from the lower edge and is anchored at the top with a single large jack screw assembly. The SCSI ribbon cable assembly also routes across and fastens to the backside of the system backplane near the connectors that attach the core I/O boards.
2 Installation Inspect shipping containers when the equipment arrives at the site. Check equipment after the packing has been removed. This chapter discusses how to inspect and receive the HP Integrity rx8620 Server. Inspecting the Server Cabinet NOTE: The server ships in one of three different configurations.
Figure 2-1 Removing the Polystraps and Cardboard 3. 4. Remove the corrugated wrap from the pallet. Remove the packing materials. CAUTION: The plastic wrapping material should be cut off rather than pulled off. Pulling off the plastic covering represents an ESD hazard. 5. 34 Remove the four bolts that hold down the ramps and remove the ramps.
NOTE: Figure 2-2 shows one ramp attached to the pallet on either side of the cabinet with each ramp secured to the pallet using two bolts. There is another configuration where the ramps are secured together on one side of the cabinet with one bolt.
6. Remove the six bolts from the base attaching the rack to the pallet. Figure 2-3 Preparing to Roll Off the Pallet WARNING! Be sure that the leveling feet on the rack are raised before you roll the rack down the ramp, and any time you roll the rack on the casters. Use caution when rolling the cabinet off the ramp. A single server in the cabinet weighs approximately 508 lb. It is strongly recommended that two people roll the cabinet off the pallet.
handles and PCI towel bars from the accessory kit A6093-04046. The towel bars and handles are the same part. See service note A6093A-11. There are several documents written to help with rack mounting the server. This list is intended to guide the HP Installation Specialist to the documentation that has been written by the Rack Solutions team.
5. After the server is secured, re-install the previously removed cell boards and bulk power supplies. Using the RonI Model 17000 SP 400 Lifting Device A lifter designed by the RonI company is used to rack mount the server. The lifter can raise 400 lb. to a height of five feet. The lifter can be broken down into several components. When completely broken down, no single component weighs more than 25 lb.
Figure 2-5 Positioning the Lifter to the Pallet 4. 5. Carefully roll the lift forward until it is fully positioned against the side of the server. Slowly raise the server off the pallet until it clears the pallet cushions. Figure 2-6 Raising the Server Off the Pallet Cushions 6. Carefully roll the lifter and server away from the pallet. Do not raise the server any higher than necessary when moving it over to the rack.
7. Follow the HP J1528A Rack Integration Kit Installation Guide to complete these steps: • Mounting the server to the slides • Installing the cable management arm (CMA) • Installing the interlock device assembly (if two servers are in the same cabinet) Wheel Kit Installation Compare the packing list with the contents of the wheel kit before beginning the installation.
Figure 2-7 Server on Shipping Pallet 4. 5. Unfold bottom cardboard tray. Remove the front cushion only. Do not remove any other cushions until further instructed.
6. 7. Open the wheel kit box and locate the two front casters. The front casters are shorter in length than the two rear casters. Each front caster is designed to fit only on one corner of the server. There is a right front caster and a left front caster. Remove two of the eight screws from the plastic pouch. Attach one wheel caster to the front of the server. Figure 2-9 Attaching a Caster Wheel to the Server 8.
Figure 2-10 Attaching the Ramp to the Pallet 13. Remove the two side cushions from the server and unfold the cardboard tray so that it lays flat on the pallet. Figure 2-11 Side Cushion Removal From the Server 14. Carefully roll the server off the pallet and down the ramp. 15. Obtain the caster covers from the wheel kit. Note that the caster covers are designed to fit on either side of the server. 16. Insert the slot on the caster cover into the front caster.
Figure 2-12 Securing Each Caster Cover to the Server 17. Wheel kit installation is complete after both caster covers are attached to the server and the bezel cover is snapped into place on the front of the server.
Top and Side Cover Installation NOTE: It may be necessary to remove existing top and side covers installed on the server before installing the covers shipped with the wheel kit. If cover removal is not needed, go directly to the sections for installing the top and side cover. Figure 2-14 Cover Locations CAUTION: Observe all ESD safety precautions before attempting this procedure. Failure to follow ESD safety precautions can result in damage to the server.
Figure 2-15 Top Cover Detail Installing the Top Cover To install the top cover, follow these steps: 1. Orient the cover according to its position on the chassis. 2. To properly seat the cover, slide the cover into position using a slow, firm pressure. 3. Tighten the blue retaining screws securing the cover to the chassis.
Removing the Side Cover Figure 2-16 Side Cover Detail To remove the side cover, follow these steps: 1. Connect to ground with a wrist strap. 2. Loosen the blue retaining screw securing the cover to the chassis. See Figure 2-16. 3. Slide the cover from the chassis toward the rear of the system. 4. Place the cover in a safe location. Installing the Side Cover To install the side cover, follow these steps: 1. Orient the cover according to its position on the chassis. 2.
Documentation for installation will accompany the PDU. The documentation can also be found at the external Rack Solutions website at http://www.hp.com/racksolutions. This PDU might be referred to as a Relocatable Power Tap outside HP.
3 Installing Accessories The following options can be installed in the HP Integrity rx8620 Server: • PCI I/O cards • Additional hard disk drive storage • Additional removable media device storage Installing Add-On Products CAUTION: Observe all ESD safety precautions before attempting these procedures. Failure to follow ESD safety precautions can result in damage to the server. This section provides information on additional products ordered after installation and any dependencies for these add-on products.
2. 3. 4. Slide the disk drive into the chassis; a slow, firm pressure is needed to properly seat the connector. To secure the disk drive in the chassis, press the front locking latch. Spin up the disk by entering one of the following commands: #diskinfo -v /dev/rdsk/cxtxdx #ioscan -f Removable Media Drive Installation The DVD drive or DDS-4 tape drive is located in the front of the chassis. You must turn off the server power before attempting to install it. For more information , see .
Table 3-1 HP Integrity rx8620 Server I/O Cards - HP-UX (continued) Part Number Card Description Number of Cards Supported (B-Bootable) A6748A 8-port Terminal MUX 16 A6749A 64-port Terminal MUX 16 A6794AX Procurium GigE LAN/SCSI combo card 2B A6795A 2G FC Tachlite 16??? A6828A 1-port U160 SCSI 16??? A6829A 2-port U160 SCSI 16??? A6869A Obsidian USB/VGA PCI card 1 A6869B Obsidian USB/VGA PCI card 1 A7011A PCI-X 2 port 1000BaseSX Dual Port (Intel chip) 16 A7012A PCI-X 2 port 1000
Table 3-2 HP Integrity rx8620 Server I/O Cards - Windows (continued) Part Number Card Description Number of Cards Supported (B-Bootable) A6869A Obsidian VGA/USB card 1 A6869B Obsidian 2 VGA/USB card 1 A7173A SCSI adapter 8B A9825A Smart Array 5302 SCSI controller 8B A9826A Smart Array 5304 SCSI controller 8B A9890A Smart Array 6402 SCSI controller 8B A9891A Smart Array 6404 SCSI controller 8 337972-B21 Smart Array P600 SCSI controller 8 AB232A FC Emulex 9802 12B AB466A FC Emul
Table 3-3 HP Integrity rx8620 Server - Linux Supported I/O Cards (continued) Part Number Card Description Number of Cards Supported AD144A PCI 1-port 10GbE SR (133Mhz) 2 AD145A PCI 4-port 1000Base-T 4 Table 3-4 HP Integrity rx8620 Server - Open VMS Supported I/O Cards Part Number Card Description Number of Cards Supported (B-Bootable) A6826A PCI X 2 channel 2 Gb /s Fibre Channel 8B A7173A PCI 2 channel Ultra320 SCSI Adapter 2B AB378A PCI 1 port 4 Gb Fibre Channel 8B AB379A PCI 2 port 4
• • To determine the status of all the PCI I/O slots, run the olrad -q command. For instructions on preparing the operating system for the online addition of the PCI I/O card before attempting to insert a PCI I/O card into the PCI-X card cage assembly backplane slot, obtain a copy of the interface card guide. This procedure describes how to perform an online addition of a PCI card using the attention button for cards whose drivers support online add or replacement (OLAR).
command. For details, see the Interface Card OL* Support Guide located on the HP website at http://hp.com. 9. Replace the top cover. 10. Connect all cables to the installed PCI card. DVD+RW Installation Instructions The CD/DVD/DAT is located in the front of the chassis. The system power to this component must be removed before attempting to remove or replace it. Figure 3-3 Removable Media Bay Location To install the DVD+RW drive, follow these steps: 1. Remove the front bezel and top cover.
Figure 3-4 Positioning DVD+RW drive in media bay 9. Replace the front bezel and top cover. See “Replacing the Front Bezel” (page 111), and “Installing the Top Cover” (page 46). 10. Power on the server. 11. Boot the operating system. See “Powering On the System” (page 107). 12. Install the appropriate device drivers. Use the installation instructions that come packaged with the drive to install device drivers.
4 Cabling and Power Up After the server has been unpacked and moved into position, you must connect it to an AC power source. Before the server is powered on, you must check the AC power for the proper voltage. Voltage Check This section provides voltage check information for use on the customer site. The emphasis is on measuring the voltages at the power cord plug end specified as an IEC-320 C19 type plug. This is the end that plugs directly into the back of the server cabinet.
Table 4-1 Single Phase Voltage Examples Japan North America Europe1 L1-L2 210V 208V or 240V 230V L1-GND 105V 120V 230V L2-GND 105V 120V 0V 1 In some European countries there may not be a polarization. Safety Ground Verification (Single Power Source) This procedure measures the voltage level between A0 and A1. The voltage level between B0 and B1 will also be verified. All measurements will be taken between ground pins.
Figure 4-3 Safety Ground Reference Check - Dual Power Source To verify dual power source safety ground voltage levels, follow these steps: 1. 2. 3. 4. Measure the voltage between A0 and A1. Take the AC voltage down to the lowest scale on the volt meter. Insert one probe into the ground pin for A0. Insert the other probe into the ground pin for A1. Verify that the measurement is between 0–5 VAC. If the measurement is 5 V or greater, escalate the situation.
NOTE: If a UPS is used, refer to applicable UPS documentation for information on connecting the server and checking the UPS output voltage. UPS User Manual documentation is shipped with the UPS. Documentation may also be found at http://www.hp.com/racksolutions To check the voltage, follow these steps: 1. Verify that site power is off. 2. Open the site circuit breakers. 3. Verify that the receptacle ground connector is connected to ground. Refer to Figure 4-4 for connector details. 4.
IMPORTANT: When running the server with a single power source, you must use A0 and A1. Selecting redundant power requires all four power cords to be connected to A0-A1-B0-B1.
Figure 4-6 Distribution of Input Power for Each Bulk Power Supply WARNING! Voltage is present at various locations within the server whenever a power source is connected. This voltage is present even when the main power switch is in the off position. To completely remove power, you must remove all power cords from the server. Failure to can could result in personal injury or damage to equipment. CAUTION: Do not route data and power cables together in the same cable management arm.
NOTE: Label the AC power cords during the installation. One suggestion is to use tie wraps that have the flag molded into the tie wrap. The flag can be labeled using the appropriate two characters to represent the particular AC power input (for example, A0). Another suggestion would be to use color coded plastic bands. Use one color to represent the first pair A0/A1 and another color to represent the second pair B0/B1 (provided a second power source is available at the customer site).
2. 3. 4. Tighten the captive thumbscrews to secure the line cord anchor to the chassis. Weave the power cables through the line cord anchor. Leave enough slack that the plugs can be disconnected from the receptacles without removing the cords from the line cord anchor Use the supplied hook-and-loop straps to attach the cords to the anchor.
• • • • One Ultra3 (160MB/sec) 68-pin SCSI port for connection to external SCSI devices by a very high density cable interconnect (VHDCI) connector. One RJ-45 style 10Base-T/100Base-T/1000Base-T system LAN connector. This LAN uses standby power and is active when AC is present and the front panel power switch is off. One RJ-45 style 10Base-T/100Base-T MP LAN connector. This LAN uses standby power and is active when AC is present and the front panel power switch is off.
8. 9. Select the VT100 HP terminal type. Click Apply. This option is not highlighted if the terminal type you want is already selected. 10. Click OK. Connecting the CE Tool to the Local RS-232 Port on the MP This connection enables direct communications with the MP. Only one window can be created on the CE Tool to monitor the MP. When enabled, it provides direct access to the MP and any partition. To connect the CE Tool to the local RS-232 port on the MP, follow these steps: 1.
Before powering up the server cabinet for the first time: 1. 2. Verify that the AC voltage at the input source is within specifications for each server cabinet being installed. If not already done, power on the serial display device. The preferred tool is the CE Tool running Reflection 1. To power on the MP, set up a communications link, and log in to the MP, follow these steps: 1. Apply power to the server cabinet. Apply power to any other server cabinets that were shipped to the customer site.
3. Log in to the MP: a. Enter Admin at the login prompt. (This term is case-sensitive.) It takes a few moments for the MP prompt to appear. If it does not, be sure the laptop serial device settings are correct: 8 bits, no parity, 9600 baud, and None for both Receive and Transmit. Then, try again. b. Enter Admin at the password prompt. (This term is case-sensitive.
Figure 4-13 The lc Command Screen NOTE: The value in the “IP address” field has been set at the factory. Obtain the LAN IP address from the customer. 3. At the prompt, Do you want to modify the configuration for the customer LAN?, enter y. The current IP address is shown; then the following prompt is displayed: Do you want to modify it? (Y/[N]) 4. 5. Enter y. Enter the new IP address. The customer provides this address for network interface 0. 6. 7. Confirm the new address. Enter the MP Hostname.
Figure 4-14 The ls Command Screen 12. To return to the MP main menu, enter ma. 13. To exit the MP, enter x at the MP main menu. Accessing the Management Processor Using a Web Browser Web browser access is an embedded feature of the management processor (MP). The web browser enables access to the server through the LAN port on the core I/O card. MP configuration must be done from an ASCII console. NOTE: The MP has a separate LAN port from the system LAN port.
Figure 4-15 Example sa Command 5. Launch a web browser on the same subnet using the IP address for the MP LAN port. Figure 4-16 Browser Window 6. 7. 8. To generate a full screen MP window, click anywhere on the Zoom In/Out title bar. Select the emulation type you want to use. Login to the MP when the login window appears. Access to the MP through a Web browser is now possible.
After logging in to the MP, verify that the MP detects the presence of all the cells installed in the server cabinet. It is important for the MP to detect the cell boards. If it does not, the partitions do not boot. To determine if the MP detects the cell boards, follow these steps: 1. At the MP prompt, enter cm. This displays the Command Menu. Among other things, the Command Menu enables you to view or modify the configuration and look at utilities controlled by the MP.
1. 2. At the MP prompt, enter cm. This displays the command menu and enables viewing and configuring various utilities controlled by the MP. From the command prompt (MP:CM>), enter pwrgrd. The pwrgrd command displays the current power configuration. You can also use this command to change the power grid configuration. A screen similar to the following displays: Figure 4-18 The pwrgrd Command Screen 3. 4. Verify that the power grid configuration is correct by examining the output from the pwrgrd command.
2. Use the EFI menus and select the appropriate console device (deselect unused devices): a. Choose the Boot Option Maintenance menu from the main Boot Manager Menu. b. Select the Console Output, Input or Error devices menu item for the device type you are modifying: • Select Active Console Output Devices • Select Active Console Input Devices • Select Active Console Error Devices c. Available devices display for each menu selection.
If you choose either a system or MP serial port, HP recommends that you use a vt100+ capable terminal device. Additional Notes on Console Selection Each Operating System makes decisions based on the EFI Boot Maintenance Manager menu’s Select Active Console selections to determine where to send its output. If incorrect console devices are chosen the OS may fail to boot or will boot with output directed to the wrong location.
Selecting a Boot Partition Using the Management Processor At this point in the installation process, the hardware is set up, the MP is connected to the LAN, the AC and DC power have been turned on, and the self test is completed. Now the configuration can be verified. After the DC power on and the self test is complete, use the MP to select a boot partition. 1. 2. 3. 4. 5. From the MP Main Menu, enter cm. From the MP Command Menu, enter bo. Select the partition to boot.
The most current information on installing, configuring, and troubleshooting iCOD can be found at http://hp.com. NOTE: Ensure that the customer is aware of the iCOD email requirements. For further details, see http://hp.com. Using the Checklist The following checklist is an installation aid and should be used only after you have installed several systems using the detailed procedures described in the body of this manual.
Table 4-3 Factory-Integrated Installation Checklist (continued) PROCEDURE Remove and dispose of packaging material Move cabinet(s) and equipment to computer room Move cabinets into final position Position cabinets next to each other (approx.
Table 4-3 Factory-Integrated Installation Checklist (continued) PROCEDURE IN-PROCESS COMPLETED Perform visual inspection and complete installation Set up network services (if required) Enable iCOD (if available) Final inspection of circuit boards Final inspection of cabling Area cleaned and debris and packing materials disposed of Tools accounted for Parts and other items disposed of Make entry in Gold Book (recommended) Customer acceptance and signoff (if required) Using the Checklist 79
5 Troubleshooting This chapter contains information about the various status LEDs on the HP Integrity rx8620 server, and other troubleshooting information. Common Installation Problems The following sections contain general procedures to help you locate installation problems. CAUTION: Do not operate the server with the top cover removed for an extended period of time. Overheating can damage chips, boards, and mass storage devices.
The Server Powers On But Fails Power-On Self Test To check for the following problems when the server fails power on self test (POST), follow these steps: 1. 2. 3. Check for error messages on the system console. Check for fault LEDs. Check for error messages in the MP logs. HP Integrity rx8620 Server LED Indicators The server has LEDs that indicate system health. This section defines those LEDs. Front Panel LEDs There are seven LEDs located on the front panel.
Figure 5-2 BPS LED Location Table 5-2 BPS LEDs LED Indication Description Blink Green BPS in standby state and no faults or warnings Green BPS in run state (48 V output enabled) and no faults or warnings Blink Yellow BPS in standby or run state and warnings present but no faults Yellow BPS in standby state and recoverable faults present but no non-recoverable faults Blink Red BPS state may be unknown, non-recoverable faults present Red This LED state is not used Off BPS fault or failure, no
Figure 5-3 PCI Power Supply LED Locations Table 5-3 PCI Power Supply LEDs LED Driven By State Description Power Each supply On Green All output voltages generated by the power supply are within limits Off Power to entire system has been removed Attention MP through PCI LPM1 Yellow Not currently used for status Fault Each supply Flash Yellow The temperature within the power supply is above the lower threshold On Yellow The temperature of the power supply is approaching the thermal limit
Figure 5-4 Fan LED Locations Table 5-4 Front, Rear, and I/O Fan LEDs LED Driven By State Description Fan Status Fan Solid Green Normal Flash Yellow Predictive Failure Flash Red Failed Off No Power OL* LEDs Cell Board LEDs There is one green power LED located next to each ejector on the cell board in the server that indicates the power is good. When the LED is illuminated green, power is being supplied to the cell board and it is unsafe to remove the cell board from the server.
Figure 5-5 Cell Board LED Locations Table 5-5 Cell Board OL* LED Indicators Location LED On cell board Power (located in the server cabinet) Attention Driven by State Description Cell LPM On Green 3.3V Standby and Cell_Power_Good Off 3.3V Standby off, or 3.
Figure 5-6 PCI OL* LED Locations Table 5-6 OL* LED States State Power (Green) Attention (Yellow) Normal operation, slot power on On Off Slot selected, slot power on On Flashing Slot needs attention, slot power on On On Slot available, slot power off Off Off Ready for OL*, slot power off Off Flashing Fault detected, slot power off Off On Slot powering down or up Flashing Off Core I/O LEDs The core I/O LEDs in Table 5-7 are located on the bulkhead of the installed core I/O PCA.
Figure 5-7 Core I/O Card Bulkhead LEDs Table 5-7 Core I/O LEDs LED (as silk-screened on the bulkhead) Driven by State Description MP PWR 3.
Table 5-7 Core I/O LEDs (continued) LED (as silk-screened on the bulkhead) Driven by MP FAULT State Description On Yellow Core I/O not fully seated or the MP processor is being reset MP LAN ACT MP LAN controller On Green Indicates MP LAN activity MP LAN 10 BT MP firmware controlled On Green MP LAN in 10 BT mode MP LAN 100 BT MP firmware controlled On Green MP LAN in 100 BT mode MP LAN LINK MP LAN controller On Green MP LAN link is OK SYS LAN ACT System LAN controller On Green Indic
Table 5-8 Core I/O Buttons Button Identification (as Location silk-screened on the bulkhead) Function MP RESET Resets the MP To the far left side of the core I/O card NOTE: If the MP RESET button is held for longer than five seconds, it will clear the MP password and reset the LAN, RS-232 (serial port), and modem port parameters to their default values. LAN Default Parameters • • • • IP Address - 192.168.1.1 Subnet mask - 255.255.255.0 Default gateway - 192.168.1.
Table 5-9 Disk Drive LEDs Activity LED Status LED Flash Rate Description Off Green Steady Normal operation, power applied Green Off Steady Green stays on during foreground drive self-test Green Off Flutter at rate of activity I/O Disk activity Off Yellow Flashing at 1Hz or Predictive failure, needs immediate investigation 2 Hz Off Yellow Flashing at 0.
Afterwards, the ^M does not return when the enter key is pressed. The issue returns if the MP is reset through the modem.
temperature of the server is broken into four ranges: normal, overtemp low (OTL), overtemp medium (OTM), and overtemp high (OTH). Figure 5-10 shows the actions taken at each range transition. Actions for increasing temperatures are shown on the left; actions for decreasing temps are shown on the right. Figure 5-10 Temperature States On large temperature swings, the server transitions through all states in order. It may go to the following state immediately, but each of the preceding actions occur.
NOTE: Fans driven to a high RPM in dense air cannot maintain expected RPM and are considered bad by the MP leading to a “False Fan Failure” condition. Power Control If active, the manageability firmware is responsible for monitoring the power switch on the front panel. Setting this switch to the ON position is a signal to the MP to turn on 48 V DC power to the server. The PE command can also be used to send this signal. This signal does not always generate a transition to the powered state.
Table 5-11 Status Commands (continued) HE Display the list of available commands LS Display LAN connected console status MS Display modem status PS Display detailed power and hardware configuration status Table 5-12 lists the server system and access configuration commands Table 5-12 System and Access Configuration Commands Command Description CA Configure Asynchronous and Modem parameters CC Initiate a Complex Configuration CG Generate ssl key pair and self signed certificate CP Display pa
Instructions • • Log in to the server console through the LAN, local serial, or remote serial locations. Enter the FW command to start the firmware update. NOTE: The LAN configuration for the server must be set for the FTP connection to function correctly regardless of whether the console LAN, local serial, or other connection is used to issue the FW command.
NOTE: The firmware update validates the image to determine that the image name supplied is that of a valid image type before burning the image into the flash memory. CAUTION: Instructions for updating the firmware are contained in the firmware release notes for each version of firmware. The procedure should be followed exactly for each firmware update otherwise the system could be left in an unbootable state. Figure 5-11 should not be used as an upgrade procedure and is provided only as an example.
NOTE: The OS Initiatable Firmware Update Tool for IPF can be used only when system firmware is being upgraded and no other firmware components are to be updated. In multi-cell systems, the tool updates the firmware for all the cells only in the partition from which the tool is launched. All the other partitions are unaffected and continue to run on the previous version firmware. To update all the partitions, the tool must be run on all the partitions.
Figure 5-13 swremove output Installing on Linux The firmware update is installed using the rpm command. Enter the rpm command. # rpm -i FWPHSS_28608.rpm Figure 5-14 rpm output Installing on Windows An executable file must be downloaded, then executed in Windows. Upon running the utility, a setup wizard guides you through the installation steps. The following are the various steps of the setup wizard. 1. 2. Run the executable file. Accept the terms of the agreement and click Next.
Figure 5-15 License Agreement 3. Carefully read the readme text and click Next.
4. The status of the installation displays in the Setup Status screen. Figure 5-17 Setup Status PDC Code FRU Reporting The processor dependent code (PDC) interface defines the locations for the FRUs. These locations are denoted in the following figures to aid in physically locating the FRU when the diagnostics point to a specific FRU that has failed or may be failing in the near future.
Figure 5-18 HP Integrity rx8620 Server Cabinet FRUs (Front View) 102 Troubleshooting
Figure 5-19 HP Integrity rx8620 Server Cabinet FRUs (Rear View) Verifying Cell Board Insertion Cell Board Extraction Levers It is important that both extraction levers on the cell board be in the locked position. Both levers must be locked for the cell board to power on and function properly. Power to the cell board should only be removed using the MP:CM> PE command or by shutting down the partition or server.
Table 5-13 Ready Bit States Ready Bit State MP:CM> DE Command Power Status True “RDY” (denoted by upper case letters) All cell VRMs are installed and both cell latches are locked. False “rdy” (denoted by lower case letters) One or more VRMs are not installed or failed and/or one or more cell latches are not locked.
6 Removal and Replacement This chapter provides a detailed description of the HP Integrity rx8620 Server field replaceable unit (FRU) replacement procedures. HP Integrity rx8620 Server Field Replaceable Units (FRUs) These procedures are intended for use by trained and experienced HP service personnel only. Hot-Pluggable FRUs A FRU is defined as hot-pluggable if it can be removed from the chassis while the system remains operational, but requires software intervention before removing the FRU.
Safety and Environmental Considerations WARNING! Before proceeding with any installation, maintenance, or service on a system that requires physical contact with electrical or electronic components, be sure that either power is removed or safety precautions are followed to protect against electric shock and equipment damage. Observe all WARNING and CAUTION labels on equipment. All installation and service work must be done by qualified personnel.
This section gives details on how to power off and on hardware components. Powering Off Hardware Components To power off individual components or the entire cabinet, follow these steps: 1. 2. Log in to the MP of the server. If the component you will power off is assigned to an nPartition, use the Virtual Front Panel (VFP) to view the current boot state of the nPartition. You must shut down HP-UX on the nPartition before you power off any of the hardware assigned to the nPartition.
NOTE: You may need to allow time for some components to complete power on self test (POST) before a complete status is available. 4. 5. Reboot each nPartition. See Appendix E (page 203). Verify system functionality by using the Online Diagnostic Support Tools Manager (STM) exerciser. Removing and Replacing Covers It is necessary to remove one or more of the covers to access many of the FRUs within the server chassis.
Figure 6-2 Top Cover Removed Replacing the Top Cover To replace the top cover, follow these steps: 1. Orient the cover according to its position on the chassis. 2. Slide the cover into position using a slow, firm pressure to properly seat the cover. 3. Tighten the blue retaining screws securing the cover to the chassis.
Removing the Side Cover Figure 6-3 Side Cover Removal Detail To remove the side cover, follow these steps: 1. Connect to ground with a wrist strap.See “Electrostatic Discharge ” (page 106). 2. Loosen the blue retaining screw securing the cover to the chassis. See Figure 6-3. 3. Slide the cover from the chassis toward the rear of the system. 4. Place the cover in a safe location. Replacing the Side Cover To replace the side cover, follow these steps: 1.
Removing the Front Bezel Figure 6-4 HP Integrity rx8620 Server Bezel Removal and Replacement To remove the front bezel, follow these steps: • From the front of the server, grasp both sides of the bezel and pull firmly toward you. The catches release and the bezel pulls free. Replacing the Front Bezel To replace the front bezel, follow these steps: 1. If the bezel is being replaced, visually inspect the replacement part for the proper part number. 2.
Figure 6-5 Front Panel Assembly Location Removing the Front Panel Board To remove the front panel board, follow these steps: 1. Power off the system. 2. Remove the front bezel. 3. Remove the top cover. 4. Remove the left side cover. 5. Remove and retain the two screws securing the front panel bezel to the front panel. Depress the front bezel center tab and slide away from chassis toward the rear of the system. 6. Remove and retain the three screws securing the front panel board.
Figure 6-6 Front Panel Board Detail Replacing the Front Panel Board To replace the front panel board, follow these steps: 1. Position the front panel board within the front panel assembly. Ensure the standoffs on the board are aligned with the screw holes in the front panel assembly. 2. Secure the board to the assembly with the three screws (inner two top screws and one bottom screw) retained during removal. 3.
Figure 6-7 Front Panel Board Cable Location on Backplane Removing and Replacing the Front Smart Fan Assembly The front smart fan assembly is located in the front of the chassis. The fan assembly is a hot-swappable component.
Preliminary Procedures These procedures must be completed before removing the front smart fan assembly. 1. 2. Identify the failed fan assembly. Table 6-1 defines the fan LED states. Remove the front bezel. Table 6-1 Smart Fan Assembly LED definitions LED State Meaning On Green Fan is at speed and in sync or not at speed less than 12 seconds. Flash Yellow Fan is not keeping up with speed/sync pulse for greater than 12 seconds.
Figure 6-10 Rear Smart Fan Assembly Location Removing the Rear Smart Fan Assembly Figure 6-11 Rear Fan Detail To remove the rear smart fan assembly, follow these steps: 116 Removal and Replacement
1. Identify the failed fan assembly. Table 6-2 defines the fan LED states. Table 6-2 Smart Fan Assembly LED Indications 2. 3. LED State Meaning On Green Fan is at speed and in sync or not at speed less than 12 seconds. Flash Yellow Fan is not keeping up with speed/sync pulse for greater than 12 seconds. Red Fan failed or stalled, has run slow, or fast for greater than 12 seconds. Off Fan is not present, or no power is applied to fan, or the fan has failed.
Removing the Disk Drive To remove a disk drive, follow these steps: 1. Disengage the front locking latch on the disk drive by pushing the release tab to the right and the latch lever to the left. 2. Pull forward on the front locking latch and carefully slide the disk drive from the chassis. Figure 6-13 Disk Drive Detail Replacing the Disk Drive To replace a disk drive, follow these steps: 1. Sometimes diskinfo and ioscan display cached data.
Figure 6-14 Removable Media Drive Location Removing the Removable Media Drive To remove the media drive, follow these steps: 1. Turn off the power to the server. 2. Identify the failed removable media drive. 3. Connect to ground with a wrist strap. For more information, see “Electrostatic Discharge ” (page 106). 4. Press the front locking tab to detach the drive from the chassis. 5. Pull the drive out of the chassis. 6. Unhook the cables from the rear of the drive.
Replacing the Removable Media Drive To replcae the media drive, follow these steps: 1. Attach the rails and clips to the drive. 2. Connect the cables to the rear of the drive. 3. Position the drive in the chassis. If applicable, install the bottom drive before installing the top drive. 4. Turn the power on to the server. 5. To ensure that the system recognizes the drive, verify operation of the drive. Perform a SEArch or INFO at the EFI shell.
Figure 6-16 Cell Board Extraction Lever Removing the Cell Board NOTE: The cell board weighs 27.8 lb. Support both side edges while removing the cell board from the chassis. To remove the cell board, follow these steps: 1. Remove the right side cover. See “Removing and Replacing Covers” (page 108). 2. Power off the cell board using the MP command menu PE command. 3.
Figure 6-17 Cell Board Power LED 4. 5. 6. Press each extraction lever to release the cell board then pull the extraction levers outwards. See Figure 6-16. Slide the cell board from the chassis. See Figure 6-18. Follow proper procedures to remove and replace all FRU’s on the cell board. NOTE: For the procedures, see “Removing and Replacing a Central Processing Unit” (page 141) and “Removing and Replacing DIMMs” (page 139).
Replacing a Cell Board NOTE: The cell board weighs 27.8 lb. Support both side edges while replacing the cell board into the chassis. To replace the cell board, follow these steps: 1. Position the cell board on the cell board guide rails. 2. The cell board easily slides into the chassis. To properly seat the cell board, use a slow, firm pressure. 3. Using equal pressure, simultaneously depress both extraction levers to secure the cell board in the chassis. Ensure that both levers are in the locked position.
NOTE: The PDHC state should read Attention LED is off, and the Power Status should read RDY. If the Power Status reads rdy, then one or both of the extraction levers are not properly locked. Ensure both cell board extraction levers are locked. Figure 6-19 shows a sample of the output. Figure 6-19 de Command Output 6. Replace the right side cover. See “Replacing the Side Cover” (page 110).
1. Execute the Onboard Scan Programming Utility to upgrade / downgrade the new Cell FPGA to match the version on the other cells.
Enter the Entities to be upgraded (Ex: 2,4,7) : 15 Enter your user name: anonymous Enter your user password: ******** Enter the ip address where the FPGA image file can be found: 192.1.1.1 Enter the path where the file(s) can be found: /dist/versionX_X Enter PDHC FPGA image filename: pdhc_X.X.X.
(see Note (1) in this step). NOTE (1): X.X.X is the version number corresponding to the version of the PDHC firmware on the other cells.
Firmware Update failed for entity SFW 0. DO NOT REBOOT SFW 0 until it has been successfully updated!!! Firmware Update completed with errors. CAUTION: Repeat the firmware update procedure immediately for all entities failing to update successfully. DO NOT RESET or AC POWER CYCLE until you get a message indicating that all updates have completed successfully. 6. Activate the new firmware for all updated components by cycling power to the cell, following these specific steps: a. Eject the cell. b.
Cell 3 PDHC Pri SFW Sec SFW : : : A.003.023 21.003 (PA) 22.002 (PA) IO Cabinet FPGA and Firmware revision report System Backplane : PCI-X Backplane : IOX Master Core IO Event Dict. IOX Slave Core IO Event Dict. GPM ------1.002 LPM ------2.000 FPGA ------: 2.009 : 2.009 FM ------1.002 OSP ------1.002 HS ------1.000 MP ------A.006.012 0.009 A.006.012 0.009 NOTE: System Firmware does not display the correct revision until it has been updated separately in step 8. 8.
***** (C) Copyright 2001 Hewlett-Packard Company ***** ***** All Rights Reserved ***** ***** ***** ***** THIS PROGRAM IS NOT LICENSED TO CUSTOMERS ***** ***** ***** ***** This program is intended for use by trained HP support ***** ***** personnel only. HP shall not be liable for any damages ***** ***** resulting from unauthorized use of this program. This ***** ***** program is the property of HP. ***** ***** ***** ***** Version 4.
MP:CM> sysrev Cabinet firmware revision report PROGRAMMABLE HARDWARE : System Backplane : GPM ------1.002 PCI-X Backplane : LPM ------2.000 Core IO : Master -------2.009 Cell Cell Cell Cell 0 1 2 3 FM ------1.002 HS ------1.000 Slave ------2.009 LPM ------1.002 1.002 1.002 1.002 : : : : OSP ------1.002 PDHC ------1.007 1.007 1.007 1.007 FIRMWARE: Core IO Master Event Dict. Slave Event Dict. : : : : A.006.012 0.009 A.006.012 0.009 Cell 0 PDHC Pri SFW Sec SFW : : : A.003.023 21.003 (PA) 22.
12. Reset the partition using the rs command: MP:CM> rs This command resets the selected partition. WARNING: Execution of this command irrecoverably halts all system processing and I/O activity and restarts the selected partition. Part# Name ----- ---0) Partition 0 1) Partition 1 Select a partition number: 0 (or 1) Upgrading Using the DFW Command 1. If problems are encountered during the firmware update procedure, it may be necessary to use the MP dfw command.
Erasing Flash(es). This may take several minutes. DFW has completed successfully for all entities Once DFW has completed, verify the following message is returned: DFW has completed successfully for all entities CAUTION: DO NOT RESET or AC POWER CYCLE the server unless you have received confirmation that DFW has completed successfully. Repeat the dfw command immediately if the firmware failed to complete successfully.
Downgrading Using the DFW Command 1. If problems are encountered during the firmware update procedure, it may be necessary to use the MP dfw command. The dfw command can be used to copy a PDHC or a System firmware image from one cell to another. The steps for upgrading using the dfw command are the same as listed in “Upgrading Using the DFW Command” (page 132) with two additional steps: a. OSP the PDHC FPGA image to the new cell. b. Use DFW to copy the PDHC image to the new cell image A. c.
CAUTION: DO NOT RESET or AC POWER CYCLE the server unless you have received confirmation that DFW has completed successfully. Repeat the dfw command immediately if the firmware failed to complete successfully. NOTE (1): After a dfw copy of a cell PDHC firmware image is captured, the version displayed by the sysrev command is not correct until the cell PDHC is reset using the ru command, or AC power is cycled. 4.
MP:CM> dfw ********************************************************************* ***** ***** ***** Duplicate Firmware Utility ***** ***** ***** ***** (C) Copyright 2001 Hewlett-Packard Company ***** ***** All Rights Reserved ***** ***** ***** ***** THIS PROGRAM IS NOT LICENSED TO CUSTOMERS ***** ***** ***** ***** This program is intended for use by trained HP support ***** ***** personnel only. HP shall not be liable for any damages ***** ***** resulting from unauthorized use of this program.
Flash Current Number Cabinet Name Partition Handle Firmware Version Comments ------ --------- -------- --------- -------- ------------------ -------1 0 PDHC 0A 0 256 A.003.034 Current 2 0 PDHC 0B 0 264 A.003.034 Old 3 0 SFW 0A 0 320 21.001 Pri PA 4 0 SFW 0B 0 328 22.002 Sec PA 5 0 PDHC 1A 0 257 A.003.034 Current 6 0 PDHC 1B 0 265 A.003.034 Old 7 0 SFW 1A 0 321 21.001 Pri PA 8 0 SFW 1B 0 329 21.001 Sec PA Note: You can only duplicate one firmware type at a time.
Figure 6-20 VRM Cover Installed 3. Install the Door Opener (AB388-00003), onto the right side of the cell board. Tighten the screw. See Figure 6-21.
Figure 6-22 VRM Cover, Door Opener and DIMM Cover Installed 4. 5. 6. 7. 8. Install the cell board into the server. Replace the right side cover. Power on the server. See “Powering Off Hardware Components and Powering On the Server” (page 106). Power up the nPartition. See Appendix E (page 203). To verify proper operation of the cell board, use the info cpu command from the EFI Shell. Removing and Replacing DIMMs The dual in-line memory modules (DIMMs) reside on the cell board.
1. 2. 3. 4. Remove the right side cover. See “Removing and Replacing Covers” (page 108). Remove the cell board. See “Removing the Cell Board” (page 121). Place the cell board on the ESD safe work surface. Loosen the four captive thumb screws securing the removable DIMM cover. See Figure 6-24. Figure 6-24 DIMM Cover Assembly 5. Lift the cover to gain access to the DIMMs. Removing a DIMM To remove a DIMM, follow these steps: 1.
Figure 6-26 DIMM Removal Tools 3. Seat the tool tips down to limit, then leverage connector latches outward to unseat the DIMM from the memory slot. Replacing a DIMM To replace a DIMM, follow these steps: 1. Orient the replacement DIMM connector key over the memory slot. 2. Using the DIMM installer tool shown in Figure 6-27, press downward evenly to seat the DIMM into the memory slot. Figure 6-27 DIMM Installation Tool 3. 4. 5. 6. 7.
1. 2. 3. 4. 5. 6. 7. 8. Prepare an ESD safe work surface large enough to accommodate the cell board. Use a grounded mat and an anti-static wrist strap, such as those included in the ESD Field Service Kit (HP P/N/ A3024-80004). Identify the partition, cell board and processors that are to be removed. Power off the server. See “Powering Off Hardware Components and Powering On the Server” (page 106), and Appendix E (page 203). Remove the right side cover. Remove the cell board.
Figure 6-29 CPU Cover Raised 10. Identify the CPUs to be removed. 11. Disconnect the CPU power pod cable connector from its connector on the cell board. 12. Disconnect the Turbocooler fan cable from the cell board. Figure 6-30 CPUs with Turbocooler Fans 13. Loosen the four T15 heat-sink screws and the four turbocooler load screws. Loosen these screws in an X pattern, rotating each screw two to three turns until all screws are loose from the cell board. 14. Push the load screw sequencer toward the fan.
15. Locate the peep hole on the left side of the CPU Turbocooler by slightly rotating the fan blades. WARNING! When unlocking the ZIF socket, do not exceed the one half turn counter-clockwise. Damage to the socket will occur, requiring replacement of the cell board. 16. Insert the 2.5 mm hex driver between the fan blades, through the peep hole, and turn the ZIF socket lock screw one half turn counter-clockwise to unlock the CPU from the socket. 17.
13. Replace the processor cover and tighten the captive screws. NOTE: New cell boards housing the new IPF processors require new air baffles. See “Installing the VRM Cover (AB388-00002) and Door Opener (AB388-00003)” (page 137). 14. 15. 16. 17. 18. 19. Position the DIMM cover in place. Tighten the four captive screws to secure the DIMM cover. Install the cell board in the server. Replace covers. Power on the server. Power up the nPartition. See Appendix E “Operating System Boot and Shutdown” for details.
Figure 6-31 Locating Pins on CPU Module Figure 6-32 Guide Holes on Cell Board 5. 146 Using a 2.5 mm hex driver, turn the ZIF socket screw one half turn clockwise to lock the CPU into place.
Figure 6-33 Locking CPU Into the Cell Board ZIF Socket 6. 7. Place the sequencer fan assembly over the CPU module. Tighten the T15 screws on the sequencer in an X pattern turning each screw 2–3 turns until all screws are secure. Figure 6-34 Sequencer Fan Assembly Installed 8. Alternately tighten the power module screws until secure.
9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. Connect the sequencer fan cable to the connector on the cell board. Connect the CPU power cables to the CPU power connector. Ensure all cables are properly routed, secured and connected. Repeat steps 1 through 10 for all remaining CPU modules. Reinstall any VRMs that were removed. Install the new processor cover and secure all screws. Position the DIMM cover in place and tighten all captive screws. Install the cell board in the server.
AB439A and AB548A Processor Stepping Information IMPORTANT: Intel is planning an updated A2 stepping of the Itanium 2 AB439A and AB548A processors. Intel will no longer be providing A1 stepping processors. HP and its customers will have to gradually transition to A2 stepping processors. For approximately two years (June 2005 — June 2007), A1 stepping processors were replaced with A1 stepping processors and A2 stepping processors were replaced with A2 stepping processors.
CPU Installation Procedures All CPU sockets must be empty before proceeding. Use the following procedure to install new CPUs. CAUTION: Avoid removing any VRMs to connect the CPU power pod and Turbocooler cables into the cell board connectors. NOTE: CPU load order must be maintained when adding CPUs to the cell board. Always load CPU socket 0 first. To install new processors, follow these steps: 1. If the CPU 0 ZIF socket is not exposed, remove the ZIF socket pin cover from the cell board. 2.
NOTE: The new CPU power pod is slightly hinged. Ensure that the CPU assembly is level prior to lowering it onto the cell board. 8. Using a 2.5 mm hex driver through the peep hole, turn the ZIF socket lock/unlock screw one half turn to lock the CPU into place. CAUTION: Do not exceed one half turn clockwise when locking the CPU into the ZIF socket. Damage to the ZIF socket will occur, requiring the cell board to be replaced. NOTE: Ensure that the ZIF socket is fully locked. Use a 2.
17. Install the Door Opener (AB388-00003), onto the right side of the cell board. Tighten the screw. See Figure 6-37. Figure 6-37 Door Opener Installed Figure 6-38 VRM Cover and Door Opener Installed 18. 19. 20. 21. 22. Position the DIMM cover in place. To secure the DIMM cover, tighten the four captive screws. Install the cell board in the server. Replace the right side cover. Power on the server. See “Powering Off Hardware Components and Powering On the Server” (page 106). 23.
NOTE: Firmware must be updated to support the new processors. Below is an example of minimum Firmware Version 4.0. PROGRAMMABLE HARDWARE System Backplane GPM 1.002 System Backplane FM 1.002 System Backplane OSP 1.002 PCI-X Backplane LPM 2.000 PCI-X Backplane HS 1.000 Core IO 2.008 Cell LPM 1.002 Cell PDHC 1.009 FIRMWARE: Core IO MP A.007.002 Event Dictionary 1.012 Cell PDHC A.003.024 Cell SFW 3.
8. By inserting a screwdriver or pen between the fan blades, gently press the two amber tabs underneath. Once the two tabs are pressed, the fan pops up. See Figure 6-39. Figure 6-39 Heatsink with Turbo-Cooler Fan Removed NOTE: There are two different heatsinks used in the turbo-cooler fan assemblies. The removal and replacement procedure is essentially the same between the two. The machined heatsink has thicker fins, and is one piece.
Figure 6-41 Machined Heatsink and Clip 9. On the machined heatsink: note the fan power cable routing and unhook the fan power cable from the clip on the heatsink fin. Care should be used not to break the clip. On the soldered heatsink: note the power cable routing and remove the clip by sliding it up and off the heatsink fin. Remove the power cable from the clip and set the clip aside. Replacing a Turbo-Cooler Fan To replace a turbo-cooler fan, follow these steps: 1.
Firmware Identification for a VRM System firmware reports which VRM has failed. To locate the failed VRM, use Figure 6-42. 'LV' refers to low voltage , and 'HV' refers to high voltage. Figure 6-42 VRM Locations on Cell Board Removing a VRM To remove a VRM, follow these steps: 1. Remove the right side cover. See “Removing and Replacing Covers” (page 108). 2. Power off the cell board using the MP command menu PE command. 3.
Figure 6-43 Cell Board Power LED 4. 5. 6. 7. 8. 9. Press each extraction lever to release the cell board then pull the extraction levers outwards. See Figure 6-16 (page 121). Slide the cell board from the chassis. See Figure 6-18 (page 122). Remove the memory and CPU covers. Locate the VRM to be replaced. Loosen the VRM retaining screws. Pull the VRM off the cell board. Replacing a VRM To replace a VRM, follow these steps: 1. Insert the new VRM into the socket. CAUTION: 2. 3. 4. 5. 6.
Figure 6-44 Core I/O Location The core I/O card has a DIP switch positioned at the location shown in Figure 6-45 that must be set prior to operation of the server. NOTE: The Server Expansion Unit (SEU) uses the same core I/O card with DIP switch as the host server. The DIP switch on the core I/O cards installed in the SEU must be set to the same position as the host server. Figure 6-45 Core I/O Card Bottom with DIP Switch Location Shown Table 6-4 lists the correct switch settings.
IMPORTANT: If the igelan and c8xx drivers are not already in the kernel, they must be added before installing the A7109A core I/O cards in the server. The HWE bundle required to enable the card is HWE 0603. Removing the Core I/O Assembly To remove the core I/O, follow these steps: 1. Save all MP networking details, including: the IP address, hostname, subnet mask, gateway, and other information. 2. To display the current MP customer LAN interface status enter the LS command from the MP Command menu. 3.
Figure 6-47 DE Command 4. 5. 6. 7. Label and remove all cables connected to the core I/O to be removed. Loosen the two retaining screws securing the assembly to the chassis. Securely grasp the cable strain relief on the core I/O assembly. Slide the core I/O from the chassis. The core I/O can be gently rocked up and down as it is pulled out of the server to help loosen the core I/O from the server backplane. 8.
Figure 6-48 Core I/O Detail Replacing the Core I/O Assembly To replace the core I/O assembly, follow these steps: 1. Locate the battery on the new MP. Remove the insulating mylar strip. If there is no mylar strip, momentarily break the battery connection to clear any previously stored data that could conflict with your current configuration. 2. Slide the core I/O into the chassis while rocking it gently up and down to mate the two connectors. 3.
This procedure (Command menu, LC command) configures the MP customer LAN network settings from the MP Command menu. 1. Connect to the server complex MP and enter CM to access the Command menu. Use telnet to connect to the MP, if possible. If an MP is at its default configuration (including default network settings), connect to it using either of these methods: • • a. b. Establish a direct serial cable connection through the MP local RS-232 port.
IMPORTANT: Complete information regarding OL* for I/O cards is on the HP website at http://hp.com. For details, see the Interface Card OL* Support Guide. HP recommends that you obtain a copy of this guide and refer to it before beginning the removal and replacement of PCI cards. Figure 6-49 PCI Card Location Removing the PCI Card PCI I/O OL* Card Methods There are three methods for performing OL* operations on PCI I/O cards. pdweb The Peripheral Device Tool (pdweb) web-based method of performing OL*.
2. Press the Attention Button. See Figure 6-50. The green power LED starts to blink and then turn steady OFF. If the green power LED does not go OFF, check the hotplugd daemon log file (default: /var/adm/hotplugd.log) for errors and do not proceed further. NOTE: If the attention button is pressed a second time during the first five seconds while the green LED is blinking, the operation is cancelled and the power to the slot remains on. Figure 6-50 PCI I/O Slot Details 3. 4. 5. 6.
7. Replace the top cover. See “Replacing the Top Cover” (page 109). The critical resource analysis (CRA) performed while doing an attention button initiated replace action is very restrictive and the action will not complete–it will fail–to protect critical resources from being impacted. For finer control over CRA actions use pdweb or the olrad command. See the Interface Card OL* Support Guide located on the HP website at http:// hp.com.
Removing and Replacing a PCI Smart Fan Assembly The PCI smart fan assembly is located in front of the PCI card cage. The fan assembly is a hot-swappable component. Figure 6-51 PCI Smart Fan Assembly Location Preliminary Procedures These procedures must be completed before removing the PCI smart fan assembly. 1. 2. 3. Identify the failed fan assembly. Table 6-6 defines the fan LED states. Connect to ground with a wrist strap. For more information, see “Electrostatic Discharge ” (page 106).
Figure 6-52 PCI Smart Fan Assembly Detail Replacing the PCI Smart Fan Assembly To replace the PCI smart fan assembly, follow these steps: 1. 2. 3. 4. Position the fan assembly in the chassis. The fan easily slides into the chassis; however, a slow, firm pressure is needed to properly seat the connection. Fan status LED should be GREEN. Replace the top cover. See “Removing and Replacing Covers” (page 108).
Figure 6-53 PCI Power Supply Location Preliminary Procedures These procedures must be completed before removing the PCI power supply. 1. Identify the failed power supply. Table 6-7 identifies the meaning of the PCI power supply LED state. Table 6-7 PCI Power Supply LED Indications LED Power LED (Green) Fault LED (Multi-color) 2. 3. 4. 5. 168 LED State Meaning Off Power supply failure or the power to the respective I/O chassis is OFF.
Removing the PCI Power Supply Figure 6-54 PCI Power Supply Detail To remove the PCI power supply, follow these steps: 1. Securely grasp the handle on the front of the power supply. 2. Firmly depress the securing thumb latch. 3. Slide the module from the chassis. Replacing the PCI Power Supply To replace the PCI power supply, follow these steps: 1. Slide the power supply in the chassis until the thumb latch clicks into the locked position. 2.
3. Remove the front bezel, top and right side covers. Refer to “Removing and Replacing Covers” (page 108). Figure 6-55 PCI-X Card Cage Assembly Location Removing the PCI-X Card Cage Assembly To remove the PCI-X card cage assembly, follow these steps: 1. Confirm the target chassis identity by checking cabinet and chassis labels. 2. Unplug all I/O cables from PCI cards and remove the cards. 3. Remove PCI fans. 4. Remove PCI panel. 5. Unseat the PCI power supplies (bricks) and pull them 1.
Figure 6-56 PCI-X Card Cage Assembly Detail Replacing the PCI-X Card Cage Assembly To replace the PCI-X card cage assembly, follow these steps: 1. Tilt the assembly toward the chassis. Position the assembly at an angle so that the retaining standoff pins engage. 2. Using extractors, slide the board toward the system backplane until fully seated. 3. Reconnect the two cable bundles at the rear of the mass storage board and tighten the two captive screws onboard the backplane near the extractor levers. 4.
Figure 6-57 PCI-X Card Assembly Air Baffle 9. 10. 11. 12. 13. Install PCI fans, PCI panel, top and side covers, and front bezel. Replace the top and right side covers. Replace the front bezel. Power on the system. Using the PS command, the domains are referred to as chassis 0 (zero) and 1. Removing and Replacing the PCI OLR Assembly The PCI OLR assembly is located in the rear of the chassis. You must turn off system power to replace this FRU.
Figure 6-58 PCI OLR Assembly Location (Rear of Server with Top Cover Removed) Removing the PCI OLR Assembly Figure 6-59 PCI Gate Detail NOTE: It is highly recommended that extra PCI gates are available as these may be easily broken when removing or replacing the gates. To remove the PCI OLR assembly, follow these steps: 1. Shut down and power off the server. 2. Remove the top and right side covers. See “Removing and Replacing Covers” (page 108). 3.
7. Push out on top of the PCI gate to unclip the PCI gate axle from the retaining slot carefully, so as not to break off the optic sensor tab. 8. With the tab clear of obstruction, lift the gate up and out. 9. Remove the PCI OLR assembly by pushing in on the eight plastic tabs that secure the assembly to the chassis. 10. Tilt the assembly away from the attach points. Disengage the bottom holding tabs from the chassis. 11. Lift the assembly up and out. 12. Remove the PCI OLR cable from the PCI OLR assembly.
Removing the PCI-X VRM To remove the PCI-X VRM, follow these steps: 1. Use the PS:P command from the Command Menu to identify the failed VRM needing replacement. They are labeled 1 through 4 in Figure 6-61. Figure 6-61 VRM Identification 2. Power off the server and remove all the power cords. IMPORTANT: The standby/housekeeping power needs to be off for this operation and removing the power cords must be done to accomplish this. 3. Remove the right side cover. NOTE: 4.
Figure 6-62 PCI Side Panel 5. 6. Unscrew the two screws to remove the VRM from bracket. Lift up and gently pull the VRM from the socket. Replacing the PCI-X VRM To replace the PCI-X VRM, follow these steps: 1. Verify the replacement VRM is a low-voltage VRM (P/N 0950-4122). 2. Firmly seat the VRM into the socket. Be careful not to bend the pins. 3. Attach the bracket to the VRM using the two screws removed earlier. 4. Put the PCI side panel back on the chassis. 5.
Figure 6-63 System Backplane Location Removing the System Backplane Before removing the system backplane, confirm the target chassis identity by checking cabinet and chassis labels. To remove the system backplane, follow these steps: 1. Shut down and power off the system. 2. Unplug all AC power cords. 3. Remove the side covers. See “Removing and Replacing Covers” (page 108). 4. Unseat cell boards about five inches. 5. Unseat core I/O cards about one inch. 6.
Figure 6-64 Jack Screw 8. Rotate the backplane out, using handles to lift the board from hinges and out of the chassis. Figure 6-65 System Backplane Detail Replacing the System Backplane To install the system backplane, follow these steps: 1. 2. 178 Position the system backplane in the chassis at a 45-degree angle. Align tabs at the bottom of the backplane with the slots on the bottom of the chassis.
3. Tilt the backplane forward until it is resting against the chassis. Ensure all cables are correctly routed to the outer side of the backplane to avoid damage to the cables. Tighten the jack screw (eight to nine turns to tighten). CAUTION: Watch for system board flex when tightening the jack screw. Over-compression will destroy the backplane. 4. 5. 6. 7. 8. 9. Reconnect all cables. Reconnect core I/O cards. Reconnect all cell boards. Replace all covers. See “Removing and Replacing Covers” (page 108).
1. Isolate the failing BPS. Table 6-8 defines the states of the single multicolored LED on the BPS. Table 6-8 BPS LED definitions 2. 3. 4.
NOTE: When a BPS fails and is replaced online, the PS command sometimes displays the cached status data of the BPS. To verify the actual state of the BPS, use the CM> DE command.
A Replaceable Parts This appendix contains the HP Integrity rx8620 Server FRU list. Table A-1 HP Integrity rx8620 Server FRU List FRU Description Replace Part Number Exchange Part Number System Backplane A6093-67001 A6093-69301 Cell Board with 1.1 GHz CPU A6913-67008 A6913-69008 Cell Board with 1.5 GHz CPU (A1) A6913-67009 A6913-69009 Cell Board with 1.6 GHz CPU (A1) A6913-67011 A6913-69011 Cell Board with 1.5 GHz CPU (A2) A6913-67009 A6913-69014 Cell Board with 1.
Table A-1 HP Integrity rx8620 Server FRU List (continued) FRU Description Replace Part Number Exchange Part Number C19/C20 4.5m - Jumper 8121-0806 N/A C19/C20 2.
Table A-1 HP Integrity rx8620 Server FRU List (continued) FRU Description Replace Part Number Exchange Part Number SBA Cable Shroud A6093-00188 N/A Top Cover Assembly A6093-04120 N/A Right Side Cover Assembly A6093-04121 N/A Left Side Cover Assembly A6093-04122 N/A Front Card Guide (includes two) A6093-40014 N/A Rear Card Guide (includes two) A6093-40015 N/A PCI OLR Paddle Assembly A6093-40041 N/A Internal Disk Filler A6198-60003 N/A DVD Filler Box A6912-00014 N/A Bezel (graphi
B System Specifications This chapter describes the basic system configuration and its physical specifications and requirements. Dimensions and Weights This section provides dimensions and weights of the server and server components. Table B-1 HP Integrity rx8620 Server Dimensions and Weights Stand-alone Packaged Height - Inches (centimeters) 29.55 (75.00) 86.50 (219.70) Width - Inches (centimeters) 17.50 (44.50) 40.00 (101.60) Depth - Inches (centimeters) 30.00 (76.20) 48.00 (122.
installation earth or if supplied by a separately derived system, at the supply transformer or motor-generator set grounding point. Circuit Breaker The Marked Electrical for the HP Integrity rx8620 server is 15 amps per line cord. The recommended circuit breaker size is 20 amps for North America. For countries outside North America, consult your local electrical authority having jurisdiction for the recommended circuit breaker size.
Power Required (50 - 60 Hz) Watts VA Comments Maximum Theoretical Power 5292 5400 See #1 below Marked Electrical Power --- 5400 30A @ 180 VAC, see note #2 Typical Maximum Power 3724 3800 See note #3 • • • “Maximum theoretical power” is used to describe input power at the AC input. It is expressed in Watts and Volt-Amps to take into account power factor correction. The calculated sum is the maximum worst case power consumption for every subsystem in the server.
unit. Twelve 120-mm fans housed in cosmetic plastic fan carriers and mounted externally to the rear chassis wall pull air through the unit. Each fan is controlled by a smart fan control board embedded in the fan module plastic housing. The smart fan control board receives fan control input from the system fan controller on the system backplane and returns fan status information to the system fan controller.
NOTE: When determining power requirements, you must consider any peripheral equipment to be installed during initial installation, or as a later update. To determine the power and air-conditioning that is required, see the applicable documentation for such devices. Acoustic Noise Specification The acoustic noise specification for the HP Integrity rx8620 Server is 55.6 db (sound pressure level at bystander position). It is appropriate for dedicated computer room environments, not office environments.
NOTE: This PDU might be referred to as a Relocatable Power Tap outside HP. The PDU installation kit contains the following: • PDU with cord and plug • Mounting hardware • Installation instructions Weight To determine overall weight, follow the example in Table B-6, then complete the entries in Table B-7. Table B-6 Example Weight Summary Component Quantity Multiply By Weight (kg) Cell Board 4 27.8 lb. (12.16) 107.20 lb. (48.64) PCI Card (varies - used sample value) 4 0.34 lb. (0.153) 1.36 lb.
C MP Commands This appendix contains a list of the Server Management Commands. Server Management Commands Table C-1 lists the server m anagement commands.
Table C-3 System and Access Config Commands (continued) 194 SNMP Set SNMP daemon parameters CP Display partition cell assignments DC Reset parameters to default configuration DI Disconnect Remote or LAN console ID Change certain stable complex configuration profile fields IF Display network interface information IT Modify command interface inactivity time-out LC Configure LAN connections LS Display LAN connected console status PARPERM Enable/Disable Interpartition Security PD Modify d
D Templates This appendix contains blank floor plan grids and equipment templates. Combine the necessary number of floor plan grid sheets to create a scaled version of the computer room floor plan. Figure D-1 illustrates the overall dimensions required for the HP Integrity rx8620 server. Figure D-1 HP Integrity rx8620 Server Space Requirements Equipment Footprint Templates Equipment footprint templates are drawn to the same scale as the floor plan grid (1/4 inch = 1 foot).
NOTE: Attach a reduced copy of the completed floor plan to the site survey. HP installation specialists use this floor plan during equipment installation.
Figure D-3 Planning Grid Computer Room Layout Plan 197
Figure D-4 Planning Grid 198 Templates
Figure D-5 Planning Grid Computer Room Layout Plan 199
Figure D-6 Planning Grid 200 Templates
Figure D-7 Planning Grid Computer Room Layout Plan 201
E Operating System Boot and Shutdown This appendix covers procedures for booting an operating system (OS) on an nPartition (hardware partition) and procedures for shutting down the OS. Operating Systems Supported on HP nPartition-capable Servers HP supports nPartitions on HP 9000 servers and HP Integrity servers. The following list describes the operating systems supported on the different nPartition-capable models.
The ACPI configuration settings for the supported operating systems are in the following list. — HP-UX ACPI Configuration: default On nPartition-capable HP Integrity servers, to boot or install the HP-UX operating system an nPartition must have its ACPI configuration value set to default. For details see “ACPI Configuration for HP-UX Must Be “default”” (page 205).
Booting HP-UX This section covers the following methods of booting HP-UX: • HP-UX Booting — The standard ways to boot HP-UX. Typically this results in booting HP-UX in multi-user mode. • Single-User Mode HP-UX Booting — How to boot HP-UX in single-user mode. • LVM-Maintenance Mode HP-UX Booting — How to boot HP-UX in LVM-maintenance mode. For details on shutting down the HP-UX operating system, see “Shutting Down HP-UX” (page 212).
Procedure E-2 HP-UX Booting [EFI Shell] From the EFI Shell environment, to boot HP-UX on a device first access the EFI System Partition (for example fs0:) for the root device and then enter HPUX to invoke the loader. The EFI Shell is available only on HP Integrity servers. See “ACPI Configuration for HP-UX Must Be “default”” (page 205) for required configuration details. 1. Access the EFI Shell environment for the nPartition on which you want to boot HP-UX. a.
(c) Copyright 1990-2002, Hewlett Packard Company. All rights reserved HP-UX Boot Loader for IA64 Revision 1.723 Press Any Key to interrupt Autoboot \efi\hpux\AUTO ==> boot vmunix Seconds left till autoboot 9 6. Exit the console and MP interfaces if finished using them. To exit the EFI environment enter ^B (Control-B); this exits the nPartition console and returns you to the MP Main Menu. To exit the MP, enter X at the Main Menu.
HPUX> boot -is vmunix > System Memory = 4063 MB loading section 0 ................................................... (complete) loading section 1 ........ (complete) loading symbol table loading System Directory(boot.sys) to MFS .... loading MFSFILES Directory(bootfs) to MFS ...... Launching /stand/vmunix SIZE: Text:25953K + Data:3715K + BSS:3637K = Total:33306K Console is on a Serial Device Booting kernel... 6. Exit the console and MP interfaces if finished using them.
For details on shutting down the Windows operating system, see “Shutting Down Microsoft Windows” (page 214). CAUTION: ACPI Configuration for Windows Must Be “windows” On nPartition-capable HP Integrity servers, to boot the Windows operating system an nPartition must have its ACPI configuration value set to windows. At the EFI Shell, enter the acpiconfig command with no arguments to list the current ACPI configuration. If the acpiconfig value is not set to windows, Windows cannot boot.
5. Exit the console and MP interfaces if finished using them. To exit the console environment enter ^B (Control-B); this exits the console and returns to the MP Main menu. To exit the MP, enter X at the Main menu. Booting the Red Hat Linux Operating System You can boot the Red Hat Linux operating system on HP Integrity servers using either of the methods described in this section. For details on shutting down the Red Hat Linux operating system, see “Shutting Down Linux” (page 215).
2. Access the EFI System Partition for the Red Hat Linux boot device. To list the filesystems (fs0, fs1, and so on) that are known and have been mapped, use the map EFI Shell command. To select a filesystem to use, enter its mapped name followed by a colon (:). For example, to operate with the boot device that is mapped as fs3, enter fs3: at the EFI Shell prompt. 3. To launch the ELILO.EFI loader, enter ELILO at the EFI Shell command prompt.
To interact with the ELILO.EFI loader, interrupt the boot process (for example, enter a space) at the ELILO boot prompt. To exit the ELILO.EFI loader use the exit command. Procedure E-7 SuSE Linux Enterprise Server Operating System Booting from the EFI Shell To boot SuSE Linux Enterprise Server 9 from the EFI Shell, follow these steps: For required configuration details, see “ACPI Configuration for SuSE Linux Enterprise Server Must Be “default”” (page 211). 1. Access the EFI Shell.
1. Log in to HP-UX running on the nPartition that you want to shut down. You can log in to HP-UX on the nPartition either by directly connecting (with the telnet or rlogin commands) or by logging in to the service processor (GSP or MP) for the complex where it resides and using the Console menu to access the nPartition console. Accessing the console through the service processor enables you to maintain console access to the nPartition after HP-UX has shut down. 2.
Shutting Down Microsoft Windows You can shut down the Windows operating system on HP Integrity servers using the Start menu or the shutdown command. CAUTION: Do not shut down Windows using Special Administration Console (SAC) restart or shutdown commands under normal circumstances. Issuing restart or shutdown at the SAC> prompt causes the system to restart or shutdown immediately and can result in the loss of data. Instead use the Windows Start menu or the shutdown command to shut down gracefully.
3. Issue the shutdown command and the appropriate options to shut down the Windows Server 2003 on the system. You have the following options when shutting down Windows: • To shut down Windows and reboot: shutdown /r or select the Start —> Shut Down action and choose Restart from the pull-down menu.
Index A AC power input, 60 AC power inputs A0, 60 A1, 60 B0, 60 B1, 60 AC power specifications, 188 access commands, 94, 193 air ducts, 191 illustrated, 191 AR, 95, 193 ASIC, 18 B backplane, 19 mass storage, 29, 187 system, 28, 29, 187, 190 bandwidth, 20 BO, 95, 193 BPS (Bulk Power Supply), 67 Bulk Power Supplies BPS, 62 C CA, 95, 193 cable, 81 cards core I/O, 91 CC, 95, 193 cell board, 27, 62, 75, 85, 123, 187, 189 removing and replacing, 123 verifying presence, 71 cell controller, 18 checklist installat
G gateway address, 68 getty, 91 grounding, 187 H HE, 94, 193 high availability (HA), 91 hot-plug defined, 105 hot-swap defined, 105 housekeeping power, 66 HP-UX, 91 humidity, 189 I I/O Subsystem, 27, 28 I/O subsystem, 20 iCOD definition, 76 email requirements, 76 ID, 95, 193 IF, 95, 193 initial observations interval one, 63 interval three, 63 interval two, 63 installation checklist, 77 warranty, 33 installation problems, 81 interference, 106 IP address default, 68 lc Comand Screen, 68 IT, 95, 193 L LAN,
installation, 144 screw torque, 144 service, 18 Processor Dependent Code PDC, 75 processors, 18 PS, 94, 193 PWRGRD, 95, 193 pwrgrd (Power Grid) command, 73 R RE, 95, 193 Reflection 1, 65, 75 RL, 95, 193 ropes, 20 RR, 95, 193 RS, 95, 193 RS-232, 91 RU, 95, 193 turbocoolers, 18 U update firmware, 95, 97 V verifying system configuration, 76 W warranty, 33 web console, 91 WHO, 95, 193 wrist strap, 106 X XD, 95, 193 S safety considerations, 106 SBA, 19 serial display device connecting, 65, 66 recommended
