User Guide rp5400 Family of Servers HP Part Number: A5191-96018_ed2 Published: August 2010 Edition: 2
© Copyright 2002, 2010 Legal Notices The information in this document is subject to change without notice. Hewlett-Packard makes no warranty of any kind with regard to this manual, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. Hewlett-Packard shall not be held liable for errors contained herein or direct, indirect, special, incidental or consequential damages in connection with the furnishing, performance, or use of this material.
Table of Contents Preface..............................................................................................................................11 Printing History....................................................................................................................................11 What's New?.........................................................................................................................................11 1 Server Overview......................................
HP 700 Series System Console Configuration...........................................................................51 HP700 VT-100 Mode Configuration.....................................................................................51 Configure the Asynchronous Values of the GSP.......................................................................52 Configure Remote Console..............................................................................................................
7 Removing and Replacing Components......................................................................97 List of Changeable Parts with Remove and Replace Components ......................................................97 Cardcage Fan...................................................................................................................................97 Core I/O.....................................................................................................................................
Replacing rp5400 and/or rp5450 Memory DIMMs..................................................................124 Replacing rp5470 Memory DIMMs..........................................................................................125 Display Board Removal.................................................................................................................125 Display Board Replacement..........................................................................................................
Grounding Systems.......................................................................................................................145 Power Distribution Safety Grounding [LAHJ].........................................................................145 Main Building Electrical Ground........................................................................................145 Electrical Conduit Ground..................................................................................................
List of Figures A-1 A-2 A-3 A-4 C-1 C-2 C-3 8 Server Rear View.........................................................................................................................133 Side Service Bay...........................................................................................................................133 System Board (Access via Top Service Bay)................................................................................134 Server Front...........................................
List of Tables 6-1 6-2 A-1 A-2 B-1 C-1 C-2 C-3 C-4 C-5 Problem Symptoms and Repair Actions.......................................................................................74 Chassis Log Error to FRU Decoder...............................................................................................76 Exchange CRUs...........................................................................................................................134 Non-Exchange CRUs............................................
List of Examples 4-1 4-2 4-3 4-4 4-5 4-6 6-1 10 CA command.................................................................................................................................52 LC command.................................................................................................................................54 LAN Configuration from a PC......................................................................................................55 GSP Browser Window............................
Preface Printing History The Printing History below identifies the edition dates of this manual. Updates are made to this publication on an unscheduled, as needed, basis. The updates will consist of a complete replacement manual and pertinent on-line or CD-ROM documentation. First Edition ........................................................ Second Edition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 Server Overview The rp5400 family of servers are 1-way to 4-way servers based on the PA-RISC processor architecture. The rp5400 family of servers accommodate up to 16GB of memory and internal peripherals including disks and DVD ROM/Tape. High availability features include HotSwap fans and power supplies, and HotPlug internal disk drives. The supported operating system is HP-UX.
2 Server Unpacking and Installation Factory Integrated rp54xx Cabinet Installation A factory integrated server is one in which the rp54xx server and associated components are pre-assembled and shipped from the factory already installed in a Hewlett-Packard E-Series cabinet. Factory integrated systems reduce the amount of time required to set-up and begin server operation. 1. 2. Carefully remove the carton and anti-static bag from the pallet. Remove the front two (2) L-brackets.
4. Remove the two ramps from the pallet and carefully place them into the slots at the front of the pallet. WARNING! Use extreme care when rolling the racked system down the ramps. A rack containing one rp54xx can weigh up to 418 lbs. Do not stand in front of the ramps when rolling the cabinet off the pallet or injury may occur. All but the smallest configurations require two persons to safely remove the rack from the pallet.
Receive and Unpack A Non-Integrated Server WARNING! The typical rp54xx system can weigh up to 68kg (150lbs). HP recommends using an an approved lifting device. Lift and move the server in accordance with all local safety regulations. Failure to follow this precaution can cause injury to personnel or damage to equipment. Unpacking the server The following procedure describes the steps involved in unpacking the server, whether to function as a stand-alone Deskside unit, or to be integrated into a cabinet. 1.
4. Carefully raise the lift's platform so that it will slide into the slot located under the center of the server, but over the top of the pallet. NOTE: The server's center of gravity will vary with the hardware configuration, but it is generally located slightly behind the middle of the server. 5. 18 Raise the lifting device platform enough for the server to clear the pallet and packing materials, as show below.
Install Deskside Server The following section describes the installation of a server into a Deskside enclosure for installation in an office environment. WARNING! The typical rp54xx system can weigh up to 68kg (150lbs). HP recommends using an approved lifting device. • Lift and move the server in accordance with all local safety regulations. • Do not attempt to lift the server by the plastic handles on the top and side covers.
NOTE: server. The perforations and the lip of the outside skin should be toward the rear of the WARNING! Stacking rp54xx servers in deskside enclosures is not supported. Stacking rp54xx servers in deskside enclosures can damage equipment, may cause injury to personnel, and may void your warranty or service contract. 6. 7. 8. 9. Install the Front Bezel. Locate the two pull-tabs. One pull-tab is longer than the other. The shorter pull-tab is blank on both sides.
1. Determine what type of cabinet you are installing the slide-tray assembly into. a. E-Series cabinets have: • Parchment white, plastic, sectional, side panels • Black painted vertical frame posts with a partial return flange. b. 2. 3. 4. 5. Approved, non-E-Series, cabinets have: • Single piece metal side panels • Gray painted verticle frame posts with full return flanges. Note the vertical, rectangular, slots in the return flanges on the vertical mounting posts.
post. The hook points downward. Similarly, place the spacer marked "R" (5183-1863) into the appropriate slot on the right hand mounting post. 6. 7. 22 Use one M5 x 16 screw with cress-cup washer to attach each spacer to its vertical post. Do this by inserting the screw through the top hole in the spacer, through the mounting rail and tightening it into the sheet metal nut located at that position.
10. Use an M5 x 30 screw with a cress cup washer to attach the front of the slide to the vertical mounting post. Insert the screw through the slide, through the center hole of the aluminum spacer, through the vertical mounting post, and tighten into the sheet metal nut located at that position. 11. Use a procedure similar to steps 7 through 10 to install the right hand slide/bracket assembly (marked 337079-1R) and then proceed to step 12. 12.
13. Use six, M5 x 12 screws (without washers) to attach the tray to the slides. Three screws are used to attach each slide. Insert the screws through the slides, through the tray and tighten into the threaded nuts located on the inside of the sides of the tray. 14. From the bottom of the tray pull the plunger pin down and give it a 1/4 turn to hold it in place. 15. Position the server on the tray aligning the plunger pins with the alignment holes in the chassis. 16.
Stationary L-Bracket Rail Assembly rp54xx servers may be installed into E-Series and approved Non- E-Series cabinets using stationary L-bracket rail assembly kits listed below. NOTE: rp54xx servers are supported in Hewlett-Packard E-series and approved Non- E-series Hewlett-Packard cabinets, and approved rail kits. For information on additional qualified 3rd party cabinets and rail kits, contact the nearest Hewlett-Packard Response Center.
E-Series cabinets include the following product numbers: A5134A, A5136A, A5136A, A4900A, A4901A, A4902A, J1500A, J1502A, and J1502A. Identifying Static Rail Kit Hewlett-Packard has currently approved two static rail kits for use in cabinet mounting the rp54xx server. They are illustrated below. Installing Stationary Rails The installation of stationary rails is similar for most cabinet and rail combinations.
1. Locate the rail mounting height in the cabinet. Allow for the following space requirements: • For each rp54xx server, allow 31.8cm (12.5 inches) vertically (7 EIAs or Rack Units (RUs). • If installing the A5575A rail kit, allow an additional vertical 4.45cm (1.75 inches (1 EIA) each set of rails. 2. Install sheet metal nut(s) in the vertical cabinet posts at the required height for the kit being installed: • Install the first nut either: — 4.45 cm (1.75 Inches) above the top, or — 31.8 cm (12.
3 Installing Additional Components Additional Components Some internal components are too delicate to be installed in the server prior to shipping. These internal components are shipped with the server, but are packed separately. They can be installed after the cabinet has been unpacked and positioned. Some of the internal components that are packed separately are not user-installable. To maintain warranty validation, these items must be installed by a Hewlett-Packard Customer Engineer.
3. 4. Make the top of the server accessible for service. Loosen the captive T-15 screws on the air baffle. Grasp the two handles on the baffle, and lift the baffle remove it. CAUTION: Observe all ElectroStatic Discharge (ESD) precautions Do not touch internal components. Failure to observe ESD precautions can cause damage to components. 5. 6. Observe Electrostatic Discharge (ESD) precautions. Refer to the following graphic for memory slot locations. Locate the correct DIMM pair slots.
8. Replace the top cover. Tighten the four captive screws to secure the top cover in place. 9. 10. 11. 12. For rack configurations, insert the rp54xx server back into the rack. For deskside enclosure configurations, replace the deskside enclosure cover. Power the rp54xx server on. Use the BCH command in meto verify the system recognizes the memory that you have just added.
a. b. c. d. e. f. g. h. i. Locate the Memory Carrier and pull up on the extractor levers on each end of the Memory Carrier to unseat the Memory Carrier from its socket. When the Memory Carrier unseats from the socket, pull it away from the System Board. Loosen the captive screws that secure the DIMM Clip and remove the DIMM Clip from the Memory Carrier. Seat the memory DIMM into its socket on the Memory Carrier.
• • • Slots 1 and 2 are reserved for the rp54xx LAN/SCSI and GSP (Guardian Service Processor) Core I/O cards, respectively. Slots 1 and 2 are non-Turbo slots. Non-Turbo slots share a single 250MB/s PCI bus and are incapable of HotPlug functionality. The server must be turned off prior to removing or installing the LAN/SCSI or GSP cards in these slots. Slots 3 - 6 are non-Turbo slots. These four Non-Turbo slots share a single 250MB/s PCI bus, run at 33MHz and support 32 and 64-bit PCI cards.
• • • • Slots 1 and 2 are reserved for the rp54xx LAN/SCSI and GSP (Guardian Service Processor) Core I/O cards, respectively. Slots 1 and 2 are non-Turbo slots. Non-Turbo slots share a single 250MB/s PCI bus and are incapable of HotPlug functionality. The server must be turned off prior to removing or installing the LAN/SCSI or GSP cards in these slots. Slots 3 and 4 are non-Turbo slots. These two Non-Turbo slots share a single 250MB/s PCI bus, run at 33MHz and support 32 and 64-bit PCI cards.
NOTE: A system shipped from the factory may have a different configuration than the same system built in the field. For example: The factory will install the graphics card in slot 12 and add other cards below. In the field, slot 12 may already be occupied by another PCI card. It is acceptable for the graphics card to be installed in any available Turbo slot.
4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. Requires server firmware revision 39.46 or later. Requires HP-UX 11.1 Maximum is 7 for HP-UX versions prior to 11.0. Maximum is 10 for HP-UX version 11.1 and later. Requires PHKL_19543 and PHKL_19544 or their superseded equivalents. Requires HP-UX 11.0 Support Plus (IPR) 0006, June 2000 or later. This product to be released 6/00. Not supported in a shared slot (slots 3-4 for rp5470, slots 3-6 for rp5450, not applicable for rp5400).
4. Remove the PCI slot cover from the slot that will receive the PCI card. To remove the PCI slot cover, slide the PCI slot cover away from the server. 5. Slide the PCI card connectors into the slot, snapping firmly in place. For full length (cards that extend to the left side card guides) PCI cards, use the UPPER card guide. 6. 7. 8. 9. 10. 11. At the rear of the chassis, connect the I/O cable to the card just installed. Replace the right side panel and tighten the captive screws.
Online Addition/Replacement (OLA/R) of PCI I/O cards Beginning with HP-UX 11i (11.11) rp54xx servers support the on-line addition and replacement of PCI I/O cards. In order for this high availability feature to be fully implemented, the following server requirements must be met: • rp5400A/rp5450A firmware must be later than 40.26 (rp5400B/rp5450B/rp5470A firmware will support OLA/R upon its release). • HP-UX operating system must be 11i (11.11) or later.
• • • Slots 1 and 2 are reserved for the rp54xx LAN/SCSI and GSP (Guardian Service Processor) Core I/O cards, respectively. Slots 1 and 2 are non-Turbo slots. Non-Turbo slots share a single 250MB/s PCI bus. Non-Turbo slots are incapable of HotPlug functionality. The server must be turned off prior to removing or installing the LAN/SCSI or GSP cards in these slots. Slots 3 - 6 are non-Turbo slots. These four Non-Turbo slots share a single 250MB/s PCI bus, run at 33MHz and support 32 and 64-bit PCI cards.
5. 6. 7. 40 Grasp the handle on the right rear panel and remove the panel from the side of the chassis. The 12 PCI slots, numbered 1-12 from bottom to top, will be in view. Remove the PCI slot cover from the slot that will receive the PCI card. To remove the PCI slot cover, slide the PCI slot cover away from the server. Center the graphics card within the space created by removing the PCI I/O slot cover. Slide the card toward the edge connectors.
NOTE: The graphics card must be installed in any Turbo slot while the USB will work in any slot. To reserve Turbo slots for high performance I/O cards, install the USB card in a non-Turbo slot 8. At the rear of the chassis, connect the keyboard and mouse cables to the USB card. It does not matter which connector is used for the keyboard or mouse. 9. Connect one end of the 15-pin video cable connector on the graphics card. This connector is labeled "Graphics Display" and "Video Out".
10. 11. 12. 13. 14. Replace the right side panel and tighten the captive screws. For rack configurations, insert the rp54xx server back into the rack. For deskside enclosure configurations, repalce the deskside enclosure cover. Power the server on. Use the server firmware in io command to verify the graphics cards are recognized by the server. If AUTOBOOT is ON, it will be necessary to interrupt the boot process to get to the server firmware Main Menu: Enter command or menu > prompt. 15.
• • On-line diagnostics provide information, verify and diagnose coverage for the graphics and USB cards.Off-line diagnostics do not exist for either the graphics or USB card. The HP-UX ioscan utility can be used to verify the HP-UX operating system recognized the hardware. Symptom: CDE will not come up. 1. 2. 3. 4. 5. Ensure /dev/crt was created. If not created, use insf -e to create. Ensure the system is at run level 3. Use who -r to determine run level. Use init 3 to change to run level 3.
4. 5. 44 Secure the connection by pushing the blue release lever closed. Refer to HP-UX documentation to configure the new disk.
4 Cable Connections Core I/O Connections The following paragraphs describe the indicators and connections of the rp54xx Core I/O. Core I/O consists of a LAN/SCSI card in slot 1 (lower slot in graphic) and a Guardian Service Processor (GSP) in slot 2 (upper slot in graphic). There are two versions of GSP, revision A and revision B. Revision A GSP The following graphic shows the indicators and connectors for the revision A GSP and LAN/SCSI Core I/O boards. 1. 10-Base-T LAN (RJ-45) Connector GSP LAN. 2.
Amber = 10 Base-T Mode Amber Blinking = 10 Base-T Receiving 7. Green (Lower LED) Green = Link OK (10/100 Base-T Mode indicated by LED #6) Green Blinking = Transmitting 8. Ultra-2 SCSI Connector (68-Pin VHDCI SCSI) Path 0/0/1/0 9. SCSI Mode (Green, Upper LED) On = Low Voltage Differential (LVD) Mode. Off = Single Ended Mode. 10. SCSI Terminator Power (Amber, Lower LED) On = Terminator power present Off = Terminator power Not present.
4. Console/UPS/Remote Connector (D-Type 25-Pin female). Requires an A6144-63001 "M" adapter cable. 5. 10/100 Base-T = Primary LAN (RJ-45) Connection. Path 0/0/0/0. 6. Green/Yellow (Upper LED). Green = 100 Base-T Mode. Green Blinking = 100 Base-T Receiving. Amber = 10 Base-T Mode. Amber Blinking = 10 Base-T Receiving. 7. Green (Lower LED). Green = Link OK (10/100 Base-T Mode indicated by LED #6). Green Blinking = Transmitting. 8. Ultra-2 SCSI Connector (68-Pin VHDCI SCSI). Path 0/0/1/0. 9.
GSP LAN This LAN is exclusively for LAN console access and is not configurable via HP-UX. The LAN is configured via GSP commands. Hostname, IP, gateway and subnet mask parameters may be set via the GSP>lc command. The GSP may also initiate ping via the GSP>xd command. GSP RS-232 The DB25 connector on the GSP is used for RS-232 communications to a local console (via CONSOLE connector), a remote console via modem (REMOTE connector), and a UPS (UPS connector). The baud rate, term type, etc.
For the rev A GSP, the web console is accomplished by shipping one J3591A Secure Web Console with each rp54xx server. The Secure Web Console can be used in place of an ASCII console to provide console access via a web connection. If you are installing an rp54xx server that does not have an ASCII console, you may use the Secure Web Console as the console. However, you must first configure the Secure Web Console. Refer to Secure Web Console Installation for more information on SWC Installation/Configuration.
GSP Cables Both the revision A and B GSPs provide a DB-25 connector for RS-232 communications. Connect the A5191-63001 W- cable to the revision A GSP DB25 connector or connect the A6144-63001 M-cable to the revision B GSP DB25 connector. These cables provide individual DB9 connectors for REMOTE, UPS and CONSOLE. NOTE: Use the A5191-63001 W-cable with revision A GSP and A6144-63001 M-cable with revision B GSP only. Failure to use the right cable can result in reduced functionality.
1. The GSP is located in slot 2 of the rp54xx' rear card cage. Connect the 25-pin end of: • the A5191-63001 W-cable to the 25-pin connector on the revision A GSP card (A5191-60012) OR • the A6144-63001 M-cable to the 25-pin connector on the revision B GSP card (A6144-60012) 2. Connect the 9-pin "Console" connector of either the W or M-cable to the 9-pin D-type connector of a 24542G RS-232 cable. Connect the 25-pin end of the 24542G serial cable to the serial/RS232 port on the ASCII console.
NOTE: You may use either the arrow keys or the tab key to move between the setting options on the screen. 1. 2. 3. 4. 5. 6. 7. Press [config keys] function key. [f8] Press [terminal config] function key. [f5] Move to Terminal ID and enter "vt100". Move to Set TermMode and, using the [Prev] and [Next] keys, select "EM100". Press the [config keys] function key. [f8] Press the [ansi config] function key. [f6] Move to "multipage" and, using the [Prev] and [Next] keys, select "yes". (Enables screen scrolling).
• • • Console: 38400 Remote: 38400 UPS: 1200 Configure Remote Console The remote console allows console access via modem connections. Below is an illustration of the REMOTE console. The GSP>ca command is used to configure asynchronous settings for the REMOTE console. Baud rates and emulations should match between the modems, remote ASCII terminal and the GSP. Refer to, "Configure RS232 Console" for information about setting these values.
Configuring the GSP LAN Port via an ASCII console The LAN port of the GSP allows connection via TelNet or http connections. Once the LAN parameters are configured, the console may be accessed via a TelNet connection or via a web browser (revision B GSP only). The default IP of the GSP LAN is 127.0.0.1. NOTE: The GSP has a separate LAN port from the system LAN port. It will need a separate LAN drop, IP address, and networking information from the port used by HP-UX.
NOTE: The GSP LAN port is separate from the system LAN port. It will need a separate LAN drop, IP address, and networking information from the port used by HP-UX. Before starting this procedure, you will need to know the following information: • • • • I.P.
For the revision B GSP, the web console is an embedded feature. The steps to configure a web console are the same as configuring a LAN console. Refer to, "Configure the LAN Console." Once the LAN has been configured, access the web console by pointing a web browser, on the same subnet, to the IP of the GSP LAN. Two browser windows will appear: a window with a white background and the HP invent logo and a separate GSP window with a black background.
Example 4-4 GSP Browser Window Use the SETTINGS menu bar to configure web browser emulation. The GSP window also has its own HELP facility. Example 4-5 GSP Web Browser Help Screen When the separate GSP window is closed, it appears in the HP invent window with Zoom In/Out above it. Click on the Zoom In/Out bar to generate a separate GSP window.
Example 4-6 Combined GSP Browser Window There is not a separate administration "layer" when using the embedded web access of the revision B GSP. Web console access via the external Secure Web Console required that you first logon to the SWC, then click on ACCESS CONSOLE. User configuration was also performed at the Secure Web Console. However, the revision B GSP web console does not require this additional step. When you point the web browser at the IP of the GSP LAN, you are directly connected to the GSP.
NOTE: Either the system console (HP series 700 terminal) or the HP Secure Web Console may be installed on an rp54xx server, but not at the same time. Both console types use the same DB9 type LAN Console connector. To install the HP Secure Web Console on an rp54xx server, refer to the previous figure and the HP Secure Web Console documentation, then proceed as follows: 1.
5. 6. 7. Connect the DC out cable from the power supply to the Secure Web Console. Connect one end of the AC power cord (supplied) to the Secure Web Console power supply. Connect the other end of the AC power cord to an available receptacle. On a PDU if in a cabinet. In an available wall outlet if in a Deskside enclosure. 8. Connect the 9-pin end of the RS-232 cable (Supplied) to the connector labeled CONSOLE on the A5591-63002 "W-type" adapter cable. 9.
NOTE: Before starting this procedure, you will need to know the following information: • User's name • Organization's name • Login name • User's password To add a user, perform the following steps: 1. 2. Access the GSP with the ctrl+b entry. At the GSP prompt, enter the Security options and access control (SO) command: GSP> so 3. The first prompt you will see with the so command is for GSP wide parameters: GSP wide parameters are: Login Timeout: 1 minutes. . Number of password Faults allowed: 3 .
. Flow Control Timeout: 5 minutes. Do you want to modify the GSP wide parameters? (Y / [N]) __ At this point you can modify the GSP wide parameters, or continue with removing a user. To remove users, respond N for no. NOTE: You will have to step through each user number until you reach the user to be removed. 4. When you access the number of the user to be removed, you must change the data in the prompts for that number. It is important that, at a minimum, you need to modify the User's state to Disabled.
During the Boot process a variety of errors or problems can occur as shown below: rp54xx Server Boot Process 63
Initial Power-up The following section describes the process of applying power to the rp54xx server and booting the system to the UNIX Login prompt. The amount of time it takes to go through self-test then boot the system will vary widely depending on hardware configuration. The following provides a "typical" procedure. Yours may vary depending on software and hardware installed: 1. 2. 64 Apply AC Power to the system console. Apply power to the rp54xx server by turning the front panel switch to ON.
3. Several self-test boot progress screens will be displayed and will scroll rapidly up the screen. Some tests may pause for up to one minute while the test completes. The following examples of the forward progress screens are typical of the screens displayed. 4.
5. To start the boot process using the primary boot path, enter BO PRI, at Boot Console Handler BCH main menu prompt and press . NOTE: Booting a system to a UNIX login prompt from BCH main menu can take 20 minutes or longer depending on your software and hardware configuration. 6. 66 Once the system reaches the UNIX login prompt the following will be displayed on the console screen:.
5 Utilities Configuring the Rev A Guardian Service Processor (GSP) The Rev A Guardian Service Processor (GSP) is a resident processor within the system that allows the local or remote system administrator to monitor and perform administrator functions. This section provides configuration procedures that will instruct you to: • • • Configure the LAN port Add or delete users (maximum of 20) Change the default GSP configuration Go to the appropriate section for the task that you wish to accomplish.
GSP wide parameters are: Login Timeout: 1 minutes. . Number of password Faults allowed: 3 . Flow Control Timeout: 5 minutes. Do you want to modify the GSP wide parameters? (Y / [N]) __ At this point you can modify the GSP-wide parameters or continue adding users. To add users, enter N for no. NOTE: If this is the first time users are being added, the first user added will be the GSP administrator.
Changing the Default GSP Configuration This section describes the process of changing GSP default configurations. To change the GSP default configuration, perform the following steps: 1. 2. Enter the GSP with the ctrl+b entry. At the GSP prompt, enter the Default Configuration (dc) command: GSP> dc 3. Follow the prompts for the dc command, and have the change information available. CAUTION: When the Security configuration is reset, all users are removed, including the GSP administrator.
NOTE: Before starting this procedure, you will need to know the following information: • User's name • Organization's name • Login name • User's password To add a user, perform the following steps: 1. 2. Go into the GSP with the ctrl+b entry. At the GSP prompt, enter the Security options and access control (SO) command: GSP> so 3. The first prompt you will see with the so command is for GSP wide parameters: GSP wide parameters are: Login Timeout: 1 minutes. . Number of password Faults allowed: 3 .
. Flow Control Timeout: 5 minutes. Do you want to modify the GSP wide parameters? (Y / [N]) __ At this point you can modify the GSP wide parameters, or continue with removing a user. To remove users, respond N for no. NOTE: You will have to step through each user number until you reach the user to be removed. 4. When you access the number of the user to be removed, you must change the data in the prompts for that number. It is important that, at a minimum, you need to modify the User's state to Disabled.
6 Troubleshooting Determine Current System State To determine the current system state of an rp54xx server, first note the state of all LED indicators on the front panel. Processing this information using the decoders provided can greatly reduce the amount of time required to repair a suspected system fault. The following procedure lists the tools available to aid you in determining the current system state. 1. 2. 3. 4. 5. 6. Determine if you can get a system prompt and if so, what kind of prompt.
Table 6-1 Problem Symptoms and Repair Actions Problem or Symptom Problem Indicators No indication of Housekeeping voltage present when AC connected and power switch in Standby position. Front Panel • Power switch Off. 1. AC must be present. Power LED OFF • Front Panel POWER Check that PDU is when AC is plugged in. LED should be plugged into FLASHING to 2. Ensure there are 2 system. indicate presence of working power supplies Housekeeping (1 supply for rp5400). The voltage.
Table 6-1 Problem Symptoms and Repair Actions (continued) Problem or Symptom Problem Indicators Normal Functioning Indicators Troubleshooting Steps No BCH Main Menu prompt. Front Panel RUN • Flashing RUN LED. 1. Check for red LED on LED is not GSP. If lit red, the • Forward progress FLASHING. problem is with the GSP. chassis codes. 2. Check that the console is There is no • BCH Main Menu properly connected and forward progress prompt.
Cross-Referencing Chassis Log Errors to rp54xx FRUs Use the following table to identify the failing FRU from the Chassis Log information. You can also use the online Error Chassis Log-to-FRU Decoder utility. 1. 2. 3. Read the Chassis Log entry. Match the SOURCE, SOURCE DETAIL, SOURCE ID, and PROBLEM DETAIL values (see table below) in the Chassis Log entry with the appropriate values in the table. Read the table from left to right.
Table 6-2 Chassis Log Error to FRU Decoder (continued) Chassis Log Field Values and Descriptions from Log Entry Source Source Detail Source ID Problem Detail FRU Action to Take 7 - Memory 4 - SIMM or DIMM N/A N/A Memory DIMM Isolate to failing DIMM using BCH (IN, ME) and ODE memory diagnostic. 8 - I/O 6 - Disk N/A Various Values Disk Subsystem Use BCH commands and ODE diagnostics to check disk subsystem.
Problem Analysis 1. Find the Source value. In this example, it is SOURCE: 1=processor. Use the Processor row of the Error Chassis Log-to-FRU Decoder table. 2. 3. 4. The Source Detail, the Source ID, and the Problem Detail values are all not applicable for the Processor row of the table. The FRU column of the table identifies the FRU as a failing processor. The Action column of the table instructs us to use the Info Menu and PR command of the BCH Main Menu to identify the failing processor.
1. 2. 3. No response: the alert will time out and the system will continue operating. A - Responding with the letter A will inform the Service Processor that you have seen the entry. The system will continue to operate. X - Responding with the letter X will inform the Service Processor to disable all future alert messages. This can be re-enabled with a Service Processor command.
Accessing Error Chassis Logs Execute the following steps to access the Error Chassis Logs. 1. 2. 3. At the system console prompt, type CTRL B Enter the Service Processor Login and Password The screen will display: GSP> At the GSP> prompt: type SL and press enter 4. The screen will display: Which buffer are you interested in: Incoming, Error, Current boot, Last boot? (I/A/E/C/L), type E, and press enter 5.
ALERT LEVEL: 6=Boot possible, pending failure or environmental problem - action required SOURCE: 6=platform - SOURCE DETAIL: 3=cabinet fan PROBLEM DETAIL: 4=fan failure GSP> co CO You are now leaving the Guardian Service Processor Command Interface and returning to the console mode. Type Ctrl B to reactivate it. Main Menu: Enter command or menu > Key FRU Identification Fields for Error Chassis Logs The following fields are for FRU identification.
Example 6-1 Chassis Log: Reporting Entity Type = System Firmware Log Entry # 0 :SYSTEM NAME: fesrhapgspDATE: 12/08/2000 TIME: 23:46:22ALERT LEVEL: 6 = Boot possible, pending failure - action requiredSOURCE: 3 = PDHSOURCE DETAIL: 0 = unknown, no source stated SOURCE ID: 3PROBLEM DETAIL: 0 = no problem detailCALLER ACTIVITY: 1 = test STATUS: 0CALLER SUBACTIVITY: 71 = implementation dependentREPORTING ENTITY TYPE: 0 = system firmware REPORTING ENTITY ID: 030x0000306030031710 00000000 000000FE type 0 = Data Fie
Run/Attention/Fault LED States 83
Troubleshooting
Run/Attention/Fault LED States 85
Troubleshooting
Run/Attention/Fault LED States 87
Troubleshooting
PCI I/O LED States PCI I/O LED States 89
Troubleshooting
Expansion I/O LED States Expansion I/O LED States 91
Troubleshooting
GSP LED States GSP LED States 93
Troubleshooting
LAN/SCSI LED States LAN/SCSI LED States 95
Fan, Power Supply, and Disk LED States 96 Troubleshooting
7 Removing and Replacing Components The following list of parts can be changed when required to keep the system running properly. The remove/replace components shown under each part indicates the path required for access to each. List of Changeable Parts with Remove and Replace Components NOTE: When viewed in PDF format, component remove/replace instructions may be accessed directly by clicking on the component title listed under each part.
HotPlug Disk Drive Removal HotPlug Disk Drive Replacement Front Bezel Replacement (Single Piece) Front Bezel Replacement (Two Piece) Display Board Front Bezel Removal (Single Piece) Front Bezel Removal (Two Piece) HotSwap Chassis Fan Cover Removal HotSwap Chassis Fan Removal Display Board Removal Display Board Replacement HotSwap Chassis Fan Replacement HotSwap Chassis Fan Cover Replacement Front Bezel Replacement (Single Piece) Front Bezel Replacement (Two Piece) Front Bezel Front Bezel Removal (Single P
Stand-alone Server Cover Replacement (If Not Racked) Insert the Server from the Front (If Racked) Power Supply Front Bezel Removal (Single Piece) Front Bezel Removal (Two Piece) HotSwap Power Supply Removal HotSwap Power Supply Replacement Front Bezel Replacement (Single Piece) Front Bezel Replacement (Two Piece) HotSwap Power Converter Fan HotSwap Power Converter Fan Removal HotSwap Power Converter Fan Replacement Platform Monitor Extend the Server out the Front (If Racked) Stand-alone Server Cover Remo
Extend the Server out the Front rp54xx servers are available in two housings: rack-mounted or stand-alone. Access to servers mounted in an HP-supported rack is covered in this section. WARNING! Ensure that all anti-tip features (front and rear anti-tip feet installed; adequate ballast properly placed, etc.) are employed prior to extending the server. NOTE: Ensure that there is enough area (Approximately 1.5 meters (4.5 ft) to fully extend the server out the front and work on it.
1. 2. Unfasten and remove the screws (with captive washers) located near the bottom edge of both sides of the server cover. Lift the protective cover off of the server and set it aside. WARNING! The stand-alone server weights 69 kg (l50 lbs). Removing the stand-alone server from its platform requires three people or a suitable lifting device. Failure to heed this precaution can result in serious personal injury or destruction of the server.
To place the server on its wheeled platform, perform the following procedure: WARNING! The stand-alone server weights 69 kg (l50 lbs). Placing the stand-alone server on its platform requires three people or a suitable lifting device. Failure to heed this precaution can result in serious personal injury or destruction of the server. 1. 2. 3. 4.
The following graphics show the top service bay cover and the air baffle. The first graphic shows the top service bay cover. The second shows the air baffle. Top Cover Replacement The power to the server does not have to be off to remove or replace the top service bay cover and air baffle. However, operation of the server without the top cover in place can make it susceptible to EMI problems. Set the air baffle in place over the opening for the top service bay and tighten the captive T-15 screws.
Side Cover Removal The Side Cover protects the side service bay. The power to the server does not have to be off to remove the side cover. However, operation of the server without the side cover in place can make it susceptible to EMI problems. Loosen the captive T-15 screws that hold the side cover in place, then grasp the strap handle and pull the cover away from the server. The following graphic shows the side cover with captive screw locations.
Front Bezel Removal (Single Piece) The rp54xx server front bezel is hinged on the left (facing the front of the server). The server does not have to be turned off to open or to completely remove the bezel. Opening the door provides access to the following components: • • • • • HotPlug Disks (A0, A1, and B0, B1). Removable Media (CD-ROM drive, etc.). HotSwap Chassis Fan cover. HotSwap Chassis Fan 0. HotSwap Power Supplies (up to three).
Front Bezel Removal (Two Piece) The rp54xx server front bezel is divided and hinged on the right (facing the front of the server) side to provide a door for Disk Media Bay access. The server does not have to be turned off to open the access door or to completely remove the bezel. Opening the door provides access to the following components: • • HotPlug Disks (A0, A1, and B0, B1). Removable Media (CD-ROM drive, etc.).
Front Bezel Replacement (Two Piece) The rp54xx server front bezel is divided and hinged on the right (facing the front of the server) side to provide a door for Disk Media Bay access. The server does not have to be turned off to open the access door or to completely remove the bezel. The Disk Media Bay door encloses the following components: • • HotPlug Disks (A0, A1, and B0, B1). Removable Media (CD-ROM drive, etc.).
4. Swing the Disk Media access door closed and attach it to the right side of the server chassis. Core I/O Removal rp54xx Core I/O functions are contained on the GSP revision A/B and LAN/SCSI cards. Both cards are located on the PCI Backplane in the side service bay. The LAN/SCSI card is in I/O slot 1 and the GSP revision A/B card is in I/O slot 2. Before removing either of the Core I/O cards from the server, perform the following tasks: • • Power down the server. Detach all power cords from the server.
NOTE: For revision B GSP only, remove one of the MAC address labels and place on the rear of the server as shown in the following graphics. To replace a Core I/O card, perform the following steps: 1. 2. 3. Orient the I/O card in its guide and push it into the server until the card connector seats in the I/O Backplane card slot. Connect the I/O cable attached to the I/O card at the rear PCI bulkhead. Connect any ribbon cable connectors attached to the I/O card in the side service bay.
PCI Card Separator/Extractor Removal PCI card separator/extractors are located in the Side Service Bay, between the PCI cards. PCI card separator/extractors are plastic cards with two tab handles and two LEDs. Before removing a PCI card separator/extractor from the server, perform the following tasks: • • Shut down the server. Remove the corresponding PCI card. To remove a PCI card separator/extractor, perform the following steps: 1.
Before starting these procedures, you must have an up-to-date configuration backup file. Configuration backup is performed by default each time an LVM command changes the LVM configuration. The default backup files path is: /etc/lvmconf/base_vg_name.conf. The replacement disk drive must be the same product ID as the disk drive that is being replaced. NOTE: HP often uses different manufacturers for disks that have the same product number.
#lvdisplay /dev/vg00/lvol# | grep -ie "LV Name" -e "Mirror" 4. Determine the pvkey command status for the mirrored logical volume, again using the lvdisplay command with the -k option. Compare the output to the lvdisplay command with the -v option to determine the device file to pvkey mapping.
00003 00004 00005 00006 00007 00008 /dev/dsk/c1t6d0 /dev/dsk/c1t6d0 /dev/dsk/c1t6d0 /dev/dsk/c1t6d0 /dev/dsk/c1t6d0 /dev/dsk/c1t6d0 00003 00004 00005 00006 00007 00008 current current current current current current /dev/dsk/c2t6d0 /dev/dsk/c2t6d0 /dev/dsk/c2t6d0 /dev/dsk/c2t6d0 /dev/dsk/c2t6d0 /dev/dsk/c2t6d0 00003 00004 00005 00006 00007 00008 current current current current current current The pvkey stuatus (0 or 1 in this example) shown in the first command, maps to the device file names (/dev/ds
Grasp the tab at the bottom of the cam latch on the selected disk drive, then push the button inside the cam latch and pull the cam latch out and up. The disk drive will unlock. Pull gently until it slides completely free. The following graphic shows disk features. The next graphic depicts disk removal/replacement. HotPlug Disk Drive Replacement The internal disk drives (up to four) are located at the front right side of the server (as you are facing it).
The next graphic depicts disk removal/replacement. Hot Swap Software Procedure for Attached Physical Volumes The following procedure is an example of how to recover from replacing a disk that was recognized as an attached physical volume. Be sure that all the software procedures in the Disk Drive Removal section have been completed prior to starting these steps. This example assumes that the disk was mirrored. NOTE: HP often uses different manufacturers for disks, but assigns the same product number.
2. Use the following procedure to mirror the root disk: a. Create the new physical volume using the pvcreate command. For example:# pvcreate -B /dev/rdsk/cXtXdX b. Extend the volume group to include the new physical volume using the vgextend command: For example: # vgextend /dev/vg00 /dev/dsk/cXtXdX c. The mkboot command must be run to make the device bootable. For example: # mkboot /dev/rdsk/cXtXdX d. Use the mkboot command again to add the HP-UX auto-file-string.
NOTE: HP often uses different manufacturers for disks, but assigns the same product number. The hot swap manual procedure will not update disk driver internal information to that of the replaced disk drive. 1. Perform an ioscan on the replaced disk drive to ensure that it is accessible (claimed), to double check that it is a proper replacement, and that the device files are present. Refer to the above note. For example: # ioscan -fnC disk 2.
HotSwap Chassis Fan Cover Replacement The power to the server does not have to be off to remove or replace a HotSwap Chassis Fan cover. Fan number 0 is located in the front of the server and fan number 1 is located at the rear of the server. To replace a chassis fan cover, perform the following tasks: 1. 2. Insert the cover into position in front of the fan. Tighten the captive T-15 screws on each side of the cover. The following graphic shows a HotSwap Chassis Fan Cover.
To replace a fan, perform the following steps: 1. 2. Orient the fan assembly to ensure that the chassis outlet connects with the fan assembly. If the fan power connector is covered by the protective cover (see item 1 in the graphic), slide it down to remove it and slide it over the power connection on the other side of the fan. Push the fan firmly into the housing. The fan assembly will plug into the electrical outlet automatically. Check the LED located on the fan.
HotSwap Card Cage Fan Replacement The power to the server does not have to be off to remove or replace a HotSwap Card Cage fan. Fans numbered 2, 3, 4, and 5 are located in a four-fan assembly housing located on the left side of the server's side service bay. To replace a fan in the server, orient the replacement fan into its slot in the Side Fan Assembly Housing and carefully push it in until it connects with its electrical outlet on the I/O Backplane.
HotSwap Power Supply Replacement Up to three power supplies (0 through 2), located across the bottom front of the server, can be installed in the server without removing power. To replace a power supply, perform the following steps: CAUTION: appears. 1. 2. Be careful when putting the power supply into the server. It is heavier than it Grasp the handle in one hand and support the power supply with the other. Slide the power supply into the server. The Power Supply LED should illuminate immediately.
HotSwap Power Converter Fan Replacement The power to the server does not have to be off to remove or replace a HotSwap Power Converter fan. Fans numbered 6 and 7 are located in the rear of the server. To replace a fan into the server, perform the following steps: 1. 2. Orient the fan assembly so that the electrical plug will connect, then grasp the extended screw-heads (or the fan grill) and gently push the fan assembly into its housing.
Processor Support Module Replacement Processor Support Modules (PSMs) (there can be two PSMs, numbered 0 and 1) reside on the System Board and are accessed via the Top Service Bay. Looking into the Top Service Bay from the front, PSMs are located on either side of the server, at the front. To replace a PSM, perform the following steps: 1. 2. Seat the PSM into its socket. Tighten the two captive mounting screws that hold the PSM in place.
Removing rp5470 Memory DIMMs To remove an rp5470 memory DIMM, perform the following steps: 1. 2. 3. 4. 5. Pull up on the extractor levers on each end of the Memory Carrier to unseat the Memory Carrier from its socket. When the Memory Carrier unseats from the socket, pull it up and away from the System Board. Loosen the captive screws that secure the DIMM Clip and remove DIMM Clip from the Memory Carrier.
Replacing rp5470 Memory DIMMs To replace an rp5470 memory DIMM, perform the following steps: 1. 2. 3. 4. 5. Seat the memory DIMM into its socket on the Memory Carrier. Press the extractor levers on each end of the memory DIMM slot inward until the levers snap into place. Attach the Memory Clip to the Memory Carrier with the DIMM slot markings on the top of the Memory Clip aligned with the DIMM slot markings on the Memory Carrier. Secure the Memory Clip using the captive screws.
The next graphic shows the Display Board module. Display Board Replacement The Display Board contains the server's ON/OFF switch and five LEDs that indicate server status when power is applied. CAUTION: The Display Board is not a HotSwap or HotPlug unit. Ensure that it is powered-down prior to removal. To replace the Display Board, perform the following tasks: 1. 2. 3. Reconnect the ribbon cable to the Display Board.
Platform Monitor Removal The Platform Monitor resides on the System Board and is accessed via the Top Service Bay. Removing rp5400 and/or rp5450 Model Platform Monitors Looking into the Top Service Bay from the front, the rp5400/rp5450 model Platform Monitor is located on the left side at the front of the server. To remove the rp5400/rp5450 model Platform Monitor, perform the following steps: 1. 2. Pull up on the extractor levers on each end of the Platform Monitor to unseat it from its socket.
1. 2. Pull up on the extractor levers on each end of the Platform Monitor to unseat it from its socket. When the Platform Monitor unseats from the socket, pull it up and away from the System Board. The following graphics show a Platform Monitor board followed by a display of Platform Monitor removal/replacement. Platform Monitor Replacement The Platform Monitor resides on the System Board and is accessed via the Top Service Bay.
Replacing rp5470 Platform Monitor Looking into the Top Service Bay from the front, the rp5470 model Platform Monitor is located on the right side at the front of the server. To replace a Platform Monitor, perform the following steps: 1. 2. Seat the Platform Monitor into its socket. Lift the extractor levers and press them onto each end of the Platform Monitor until the levers snap into place.
NOTE: Record the location of all PCI cards as they are removed. Replacing them in a diffferent location will require system reconfiguration and could cause boot failure. 1. 2. 3. Disconnect the I/O cable attached to the I/O card at the rear PCI bulkhead. Disconnect any ribbon cable connectors attached to the I/O card in the side service bay. Grasp the edge of the I/O card and pull it out of the server. The following graphic shows an I/O card being removed.
Individual Component Remove/Replace Instructions 131
A Parts and Accessories CRU Physical Location This section contains views of the rp54xx computer. The locator numbers in the diagrams correspond to the numbers in the CRU Part Number section.
Figure A-3 System Board (Access via Top Service Bay) Figure A-4 Server Front *The Display Board is accessed by removing the Chassis Fan screen and fan (item 7). The Display Board is located through a slot in the inside top of the Chassis Fan cavity. Customer Replaceable Unit Part Numbers The following tables list all Customer Replaceable Units (CRUs) for the rp54xx computer system. The following tables list both new and exchange part numbers. Table A-1 Exchange CRUs Product # New Part # Exch.
Table A-1 Exchange CRUs (continued) Product # New Part # Exch.
B System Specifications Dimensions Uncrating Space rp54xx systems are shipped in boxes on a 34.75 in. x 26 in. (88.25 cm. x 66 cm.) pallet. The combined height of the packaged container and the pallets is 23.25 in. (59 cm.). Allow a circular area approximately 5 ft. (2 m.) in diameter room for uncrating the system. Allow additional space for temporary storage of the shipping containers and packing materials. Space Requirements A minimum access area of 2 ft. (0.7 m.
For service access, the server slides on rails 28" beyond the edge of the chassis in the front. An additional minimum of 3' of workspace on all sides is required for servicing the server. Aisle Space The minimum aisle space between rows of installed HP rp54xx server/cabinets is 3 feet, front and back, for airflow and serviceability. Computer Room Unpacking Space Specify Uncrating Space rp54xx Systems are shipped in integrated cabinets on a 34.75" (88.25 cm.) x 26" (66 cm.) pallet.
power needed by fully-configured server is 1200W. Each power supply requires a dedicated 20A branch circuit. CAUTION: HP does not recommend and does not support the use of "ferro-active" or "ferro-resonant" power correction in conjunction with the rp54xx server. These type of line conditioners represent an older technology that is not compatible with the most recent designs in active PFC power supplies such as those in the HP rp54xx servers.
• 60A modular PDU, HP product number E7683A (North America) or E7667A (International). FINAL DESIGN ON THIS PRODUCT IS NOT YET AVAILABLE. System Power Requirements Table B-1 Power Requirements Requirements Value Comments Nominal input voltage 100-240 VAC Frequency range (minimum - maximum) 50 - 60 HZ Number of phases 1 Theoretical maximum current 12.0 A Per line cord Maximum inrush current 69.0 A Per line cord Ground leakage current (mA) < 3.
Altitude Operation Standards Maximum Altitude Operational 3000 meters above sea level Non-operational 4572 meters above sea level Effects of Altitude Some old models of tape drives, including those supplied by Hewlett-Packard, have vacuum column transport mechanisms that are affected by atmospheric pressure. Adjustments to these mechanisms may be required to compensate for the lower atmospheric pressure at higher altitudes.
C General Site Preparation Guidelines The following information provides general principles and practices to consider before the installation or operation of an hp server. Electrical Factors Proper design and installation of a power distribution system for an hp server requires specialized skills. Those responsible for this task must have a thorough knowledge and understanding of appropriate electrical codes and the limitations of the power systems for computer and data processing equipment.
Power Consumption When determining power requirements, you must consider any peripheral equipment that will be installed during initial installation or as a later update. Refer to the applicable documentation for such devices to determine the power required to support these devices. Electrical Load Requirements (Circuit Breaker Sizing) NOTE: Local authority has jurisdiction [LAHJ] and should make the final decision regarding adherence to country- specific electrical codes and guidelines.
Distribution Hardware This section describes wire selection and the types of raceways (electrical conduits) used in the distribution system. Wire Selection Use copper conductors instead of aluminum, as aluminum's coefficient of expansion differs significantly from that of other metals used in power hardware. Because of this difference, aluminum conductors can cause connector hardware to work loose, overheat, and fail.
NOTE: The green wire ground conductor mentioned above may be a black wire marked with green tape. [LAHJ] Computer Safety Ground Ground all computer equipment with the green (green/yellow) wire included in the branch circuitry. The green (green/yellow) wire ground conductors should be connected to the appropriate power panel and should be sized per applicable codes (based on circuit over current device ratings).
Figure C-1 Raised Floor Metal Strip Ground System Equipment Grounding Implementation Details Connect all Hewlett-Packard equipment cabinets to the site ground grid as follows: 1. Attach one end of each ground strap to the applicable cabinet ground lug. 2. Attach the other end to the nearest pedestal base (raised floor) or cable trough ground point (nonraised floor). 3. Check that the braid contact on each end of the ground strap consists of a terminal and connection hardware (a 1/4-in. (6.
preventing circuit breakers from tripping when needed or can contribute to a buildup of high frequency noise. CAUTION: Connections that are too loose or too tight can have a high impedance that cause serious problems, such as erratic equipment operation. A high impedance connection overheats and sometimes causes fire or high temperatures that can destroy hard-to-replace components such as distribution panels or system bus bars. Wiring connections must be properly torqued.
Basic Air Conditioning Equipment Requirements The cooling capacity of the installed air conditioning equipment for the computer room should be sufficient to offset the computer equipment dissipation loads, as well as any space envelope heat gain. This equipment should include: • Air filtration • Cooling or dehumidification • Humidification • Reheating • Air distribution • System controls adequate to maintain the computer room within specified operating ranges. Lighting and personnel must also be included.
The following three types of air distribution system are listed in order of recommendation: • Underfloor air distribution system—Downflow air conditioning equipment located on the raised floor of the computer room uses the cavity beneath the raised floor as plenum for the supply air. Perforated floor panels (available from the raised floor manufacturer) should be located around the front of the system cabinets.
Specifically, disk drives, tape drives, and some other mechanical devices can have bearing failures resulting from airborne abrasive particles. Dust may also blanket electronic components like printed circuit boards causing premature failure due to excess heat and/or humidity build up on the boards. Other failures to power supplies and other electronic components can be caused by metallically conductive particles, including zinc whiskers.
Electrostatic Discharge (ESD) Prevention Static charges (voltage levels) occur when objects are separated or rubbed together.
NOTE: An appropriate floor system consultant should verify any floor system under consideration for an hp server installation. Raised Floor Loading Raised floor loading is a function of the manufacturer's load specification and the positioning of the equipment relative to the raised floor grid.
NOTE: If the specific floor being evaluated or considered is other than a Tate Series 800 floor, the specific floor manufacturer must be contacted to evaluate the floor being used. The following table lists specifications for the Tate Access Floors Series 800 raised floor system. Table C-3 Typical Raised Floor Specifications Item1 Rating Dead load 7 lb/ft 2 (34.2 kg/m2) Live load 313 lb/ft 2 (1528.
• • Cabinets for cleaning materials Maintenance area and spare parts Floor Plan Grid A floor plan grid is used to plan the location of equipment in the computer room. In addition to its use for planning, the floor plan grid should also be used when planning the locations of the following items: • Air conditioning vents • Lighting fixtures • Utility outlets • Doors • Access areas for power wiring, air conditioning filters and equipment cable routing.
Table C-4 Customer and Hewlett-Packard Information (continued) Customer Information Zip or postal code: Primary customer contact: Phone No.: Secondary customer contact: Phone No.: Traffic coordinator: Phone No.: Hewlett-Packard information Sales representative Order No: Representative making survey Date: Scheduled delivery date Table C-5 Site Inspection Checklist Please check either Yes or No. If No, include comment# or date Comment or Date Computer room No. Area or condition 1.
Table C-5 Site Inspection Checklist (continued) Please check either Yes or No. If No, include comment# or date 18. Is power conditioning equipment installed? 19. Is there a dedicated branch circuit for equipment? 20. Is the dedicated branch circuit less than 250 feet (72.5 meters)? 21. Are the input circuit breakers adequate for equipment loads? Comment or Date Safety No. Area or condition 22. Is there an emergency power shut-off switch? 23.
• • What time the facility is available for installation (after the equipment is unloaded) Special security requirements applicable to the facility, such as security clearance Figure C-2 Delivery Survey (Part 1) 158 General Site Preparation Guidelines
Figure C-3 Delivery Survey (Part 2) Delivery Survey 159
Index A Accessing Error Chassis Logs, 80 Acoustic Safety Standards, 140 Adding Users, 60, 67, 69 Additional Components, 29 Altitude Operation Standards, 141 Effects of Altitude, 141 C Cabinet Performance Grounding (High Frequency Ground), 146 Changing the Default GSP Configuration, 69, 71 Chassis Code to FRU Decode, 75 Computer Room Physical Space Requirements, 137 Aisle Space, 138 Server, 137 Computer Room Unpacking Space, 138 Configure Remote Console, 53 Configure RS-232 Console, 50 Configure System Cons
HotSwap Chassis Fan Replacement, 118 HotSwap Power Converter Fan Removal, 121 HotSwap Power Converter Fan Replacement, 122 HotSwap Power Supply Removal, 120 HotSwap Power Supply Replacement, 121 I Identifying Approved Non-E-Series HP Cabinets, 25 Identifying E-Series HP Cabinets, 25 Identifying Static Rail Kit, 26 Individual Component Remove/Replace Instructions, 99 Initial Power-up, 64 Insert the Server from the Front, 100 Install Deskside server, 19 Install Stand-Alone Server in a Cabinet, 20 Installing
W Wiring Connections, 147 163
