Installation Guide

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Intel MB440LX

System Installation Guide

Summary of content (232 pages)

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Intel MB440LX System Installation Guide
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Copyright © 1996, 1997 Intel Corporation. All rights reserved. No part of this document may be copied or reproduced in any form, or by any means, without prior written consent of Intel. Intel Corporation (Intel) makes no warranty of any kind with regard to this material, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. Intel assumes no responsibility for any errors that may appear in this document.
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Safety Guidelines BEFORE YOU REMOVE A SERVER COVER, OBSERVE THESE GUIDELINES: 1. Turn off all peripheral devices connected to the server. 2. Turn off the server using the power button on the front panel of the server, and unplug the alternating current (AC) power cord from each power supply. 3. Label and disconnect all peripheral cables attached to the I/O panel on the back of the server. 4.
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HAZARDOUS CONDITIONS, DEVICES AND CABLES: Hazardous electrical conditions may be present on power, telephone, and communication cables. Turn off the server and disconnect telecommunications systems, networks, modems, and each power cord attached to the server before opening it. Otherwise, personal injury or equipment damage can result. ! ▲ CAUTIONS ELECTROSTATIC DISCHARGE (ESD) AND ESD PROTECTION: ESD can damage disk drives, add-in boards, and other components.
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Preface Notational Conventions The notational conventions listed below are used throughout this manual. A letter, number, symbol, or word enclosed in < > represents a key on your keyboard. For example, the instruction "press " means press the key labeled "F1" on your keyboard. Other manuals refer to as RETURN, CARRIAGE RETURN, , or use an arrow. All of these terms are interchangeable. Two or three key names, separated by plus signs, indicate multiple-key entries.
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1-6 Your Chapter Title Goes Here
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Contents 1 Server Description System Features ....................................................................................... Chassis ...................................................................................................... Controls and Indicators........................................................................... System Security ........................................................................................ Password Protection ..........................................
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2 Installing The System Selecting a Site .......................................................................................... Physical Specifications ............................................................................. Environmental Specifications.................................................................. After Unpacking the Server..................................................................... Installing the Pentium II Processor...................................................
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Server Menu ...................................................................................... Boot Menu ......................................................................................... Exit Menu........................................................................................... Using the Symbios SCSI Utility .............................................................. Running the SCSI Utility .................................................................. Hot Keys .................
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Back-up Battery ........................................................................................ Replacing the Back-up Battery ......................................................... Front Panel Board .................................................................................... Removing the Front Panel Board ..................................................... Replacing the Front Panel Board...................................................... Fans ........................................
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6 Server Resources Warnings and Cautions........................................................................... Tools and Supplies You Need................................................................. Memory Module Resources .................................................................... Memory Regions ............................................................................... ECC Memory.....................................................................................
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8 System Board Jumpers Warnings and Cautions ........................................................................... Tools and Supplies You Need................................................................. Configuration Jumpers ............................................................................ Chassis Intrusion Detection.............................................................. Fault Resilient Booting (FRB) ........................................................... Flash Memory......
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10 Solving Problems Resetting the Server ................................................................................. Initial System Startup .............................................................................. Checklist............................................................................................. Running New Application Software ...................................................... Checklist......................................................................................
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Tables 1-1. 1-2. 6-1. 6-2. 7-1. 7-2. 8-1. 10-1. 10-2. 10-3. Standard VGA Modes ............................................................................. Extended VGA Modes............................................................................. ECC Memory Banks................................................................................. Sample DIMM Size Combinations.......................................................... Total Combined Power Used by Your System ...............................
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4-21. 4-22. 4-23. 4-24. 4-25. 4-26. 4-27. 4-28. 5-1. 5-2. 5-3. 6-1. 6-2. 6-3. 6-4. 6-5. 8-1. 9-1. Front Panel Fans....................................................................................... Front Fan Assembly ................................................................................. Fan Below the Top Power Supply .......................................................... Rear Fan Assembly ..................................................................................
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Contents
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Server Description 1 Your system supports symmetrical multiprocessing (SMP) and a variety of operating systems. The server comes with both PCI and ISA buses, one narrow and two wide SCSI channels, and onboard video. The server board set consists of the following: • System board with seven PCI expansion slots, three ISA expansion slots, and several embedded controller devices (PCI video, Dual Ultra SCSI, Narrow SCSI, and IDE) • One or two Pentium II processors • Memory module with either eight 3.
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System Features Feature Description Processor support Two slots for Pentium II processors Memory support One slot for a memory module that supports up to 1 GB of memory RAID support One slot for an RPX module that supports I2O and non-I2O RAID Chassis 1.44 MB, 3.5-inch diskette drive in the vertical bay Three 5.25-inch half-height standard bays; top bay contains a CD-ROM drive Two hot-docking bays; each bay has space for five 3.
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Feature Description System I/O Nine available expansion slots: Six 32-bit PCI, two 16-bit ISA and one common PCI/ISA Integrated Cirrus Logic CL-GD54M40 SVGA controller shipped with 512 kilobytes (KB) of video memory (expandable to 1 MB) One Symbios SCSI controller for connecting up to seven 8-bit narrow SCSI devices Two Symbios wide SCSI controllers for connecting a mixture of fifteen 8-bit narrow and 16-bit wide SCSI devices to the controller—maximum of seven 8-bit narrow SCSI devices Diskette controlle
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Chassis The electro-galvanized metal chassis minimizes electromagnetic interference (EMI) and radio frequency interference (RFI). It contains 20 • Three power supply bays with up to three 360 watt power supplies, depending on the configuration • One vertical bay that contains a diskette drive • Three standard 5.25-in bays for removable media devices (a CD-ROM drive is in the top bay) • Two hot-docking bays; each bay has space for five 1-inch high, 3.
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Two spring-loaded captive screws secure the removable metal door behind the lower plastic front door to the chassis. This door provides proper air-flow and easy access to the hot-docking bays for hot-swapping hard disk drives in and out of the system. Both removable side covers are attached to the chassis with three screws. They provide proper airflow and easy access to the system board and power supplies. These covers can be secured to the chassis with padlocks (not provided).
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9 1 8 2 7 6 5 4 3 OM05792 Figure 1-2. Back/Right Side View 1 2 3 4 5 6 7 8 9 22 Left side cover I/O panel Knock-out slots for external SCSI connectors Expansion slots Power supplies SCSI hot-docking bay SCSI hot-docking backplane 5.25-inch peripheral bays 3.
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Controls and Indicators Figure 1-3 shows the location of the system controls and indicators, external peripheral bays, 3.5-inch diskette drive, and CD-ROM drive. Front Panel: • Green (HD ACT) LED: when lit, indicates hard drive activity. • Yellow fan failure LED: when flashing, indicates the fan has failed. • Yellow power supply failure LED: when flashing, indicates a power supply has failed. • 10 yellow hard drive failure LEDs: when lit, indicates a drive failure in the hot-docking bay.
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11 12 13 1 10 9 8 7 6 5 4 3 2 OM05260 Figure 1-3.
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System Security There are several ways to prevent unauthorized entry or use of the system. Security with padlocks and alarm switches: • Secure the side covers and the hot-docking bay metal door to the chassis by inserting padlocks (not provided) through the holes in the metal tabs protruding through slots in the covers and door. • Activate alarm switches for the side covers and hot-docking bay metal door. These switches transmit alarm signals to the system board.
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OM05793 Figure 1-4.
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Password Protection If you set the user password but not the administrative password, the BIOS requires you to enter the user password before you can boot the system or run the SCU. If you set both passwords, entering either one lets you boot the system or enable the keyboard and mouse, but only the administrative password lets you change the system configuration. Secure Boot Mode The secure boot mode allows the system to boot and run the operating system (OS).
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Diskette Write Protection If the protection feature is enabled with the SCU, diskette writes are disabled when the system is in the secure mode. Diskette write protection is only in effect while the system is in the secure mode. Otherwise, write protection is disabled. Video Blanking If enabled with the setup or SCU, the video screen goes blank when the system is in secure mode. Power System The power system in the server may be configured with one, two, or three 360 watt power supplies.
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Peripheral Drive Bays 3.5-inch User Accessible Diskette Drive Bay The 3.5-inch diskette drive in the vertical 3.5-inch peripheral bay supports 720 KB and 1.44 MB media. 5.25-inch User Accessible Drive Bays Three 5.25-inch half-height bays provide space for removable media devices such as tape drives and CD-ROM drives. You can convert any two adjacent 5.25-inch bays to a single full-height bay.
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Onboard RAID With the RPX board installed on the system board, RAID software, and SCSI hard disk drives in the hot-docking bays, you can easily set up RAID applications. A two channel RAID solution can be constructed by installing an RPX module with RAID firmware resident in the RPX FLASH memory. The server system supports two types of embedded RAID firmware packages: I2O compliant and vendor proprietary firmware.
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PCI Expansion Slots The seven PCI bus master slots on the system board provide for expansion and performance enhancement. One of the PCI connectors shares a common chassis I/O expansion slot with an ISA connector; you can use either PCI or ISA in the slot, but not both. The PCI bus operates at up to 33 MHz and provides • 32-bit memory addressing • Support for 5 V and 3.
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Video Modes The 54M40 provides all standard VGA modes. With 512 KB of video memory, the standard server goes beyond standard VGA support. If necessary, you can install an additional 512 KB of video memory on the system board. The following tables show all supported video modes that use 512 KB and 1 MB of video memory. Table 1-1. Standard VGA Modes Resolution Pixel Frequency (MHz) Horizontal Frequency (kHz) Vertical Frequency (Hz) 16/256K 360 X 400 14 31.5 70 16/256K 720 X 400 28 31.
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Table 1-2. Extended VGA Modes Hexadecimal Mode Number Bits Per Pixel Colors (number/palette size) 14, 55 8 16/256K Resolution Pixel Frequency (MHz) Horizontal Frequency (kHz) Vertical Frequency (Hz) 1056 X 400 41.5 31.5 70 54 8 16/256K 1056 X 350 41.5 31.5 70 58, 6A 8 16/256K 800 X 600 40 37.8 60 58, 6A 8 16/256K 800 X 600 49.5 46.9 75 5C 8 256/256K 800 X 600 36 35.2 56 5C 8 256/256K 800 X 600 40 37.9 60 5C 8 256/256K 800 X 600 49.5 46.
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SCSI Controllers The system board includes two wide/fast-20 SCSI controller chips integrated as PCI bus masters. These controllers support: • An 8-bit (narrow SCSI) data path at a data transfer rate of 20 MB/sec. • A 16-bit (wide SCSI) data path at a data transfer rate of 40 MB/sec. • Data transfer rates of 133 MB/sec as PCI bus masters. • The connection of a maximum of seven 8-bit narrow SCSI devices to each controller.
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Server Management During normal operation, server management receives information about server status and monitors power supply voltages and operating temperature. If server management software determines that the server is not operating within specified limits, the software attempts to notify a supervisor or an administrator of the server’s condition. Server management features are implemented with the following system board microcontrollers.
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Pentium II Processor The system board has two connectors for Pentium II processors. The secondary processor requires a plug-in DC to DC converter on the system board to provide power to the processor. In a symmetric multiprocessor (SMP) environment, all processors are equal and have no preassigned tasks. Distributing the processing loads between both processors increases system performance. This is particularly useful when application demand is low and the I/O request load is high.
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System Configuration Options Base System Configuration • System board assembly • Base system chassis The electro-galvanized metal chassis minimizes electromagnetic interference (EMI) and radio frequency interference (RFI). It contains:  Three power supply bays with one 360 watt power supply installed  One vertical drive bay that contains a diskette drive  Three standard 5.25-inch drive bays (a CD-ROM drive is installed in the top bay)  Two bays each with space for five 3.
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System Upgrade Options The system upgrade options provide enhancement to the capabilities of the base system. These options do not include memory and peripheral upgrades. • Dual Processor upgrade: Upgrade from a single processor system to dual processor system. You must use processors running at the same frequency. This upgrade kit comes with heat sink assembled processor and VRM. Choose between a 266 MHz or 300 MHz processor. • Power supply upgrade: The system can contain three power supplies.
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Installing The System 2 This chapter tells how to • Select a site • Install the Pentium II processor • Install the memory module • Set the line voltage selector switch and check the power cord(s) • Connect input and output devices • Turn on the server and create installation diskettes from the Configuration Software CD • Run PC Diagnostics (Testview) • Exit to DOS M440LX Server System Product Guide 39
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Selecting a Site The server operates reliably within the specified environmental limits (see page 41). Choose a site that is • near a grounded, three-pronged power outlet a. In the United States and Canada, this means a NEMA 5-15R outlet for 100-120 VAC or a NEMA 6-15R outlet for 200-240 VAC. b. For international sites, this means a three-pronged power outlet applicable for the electrical code of the region.
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Physical Specifications Height 51.44 cm (20.25 inches) Width 43.56 cm (17.15 inches) Depth 51.13 cm (20.13 inches) Weight 29 kg (63 lbs.) minimum configuration 44 kg (97 lbs.) maximum configuration Environmental Specifications Temperature Nonoperating Operating Humidity Operating wet bulb Nonoperating Operating –40° to 70 °C (–40° to 158 °F) 5° to 35 °C (41° to 95 °F); derated 0.5 °C for every 1000 ft (305 m) Not to exceed 33 °C (91.
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After Unpacking the Server Inspect the shipping box for evidence of mishandling during transit. If the shipping box is damaged, photograph it for reference. After removing the contents, keep the damaged box and the packing materials. If the contents appear damaged, file a damage claim with the carrier immediately. ! ▲ WARNING The minimum server configuration weighs 29 kg (63 lbs.) and the maximum one weighs 44 kg (97 lbs.). To avoid personal injury, have someone help you move the server.
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Connecting Peripheral Devices If your system normally operates without a monitor or keyboard—for example, as a network server—you must install them to configure the system. You may remove them after running the SCU. For information about running this utility, see Chapter 3, “Configuring The System,”. Connect your keyboard, mouse, monitor, and other peripheral devices after installing all internal options and replacing the side cover. See Figure 2-1.
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1 2 6 3 5 4 OM05779A Figure 2-1. Server I/O Panel 1. 2. 3. 4. 5. 6.
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Checking the Power Cord(s) ! ▲ WARNING Do not attempt to modify or use a supplied AC power cord if it is not the exact type required. If a power cord supplied with the system is not compatible with the AC wall outlet in your region, get one that meets the following criteria: • The cord must be rated for the available AC voltage and have a current rating that is at least 125% of the current rating of the system.
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4. Plug the female end of each AC power cord into each input receptacle on the back of the chassis (your server may be configured with one, two, or three power supplies). 5. Plug the male end of the cord into a grounded, three-pronged power outlet. (Repeat for each power supply in the server.) 6. If the server doesn’t come on when you plug it into the AC outlet, press the power button (Figure 2-2). 7. Verify that the power-on light on the front panel is lit. After a few seconds POST begins.
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Creating Installation Software Diskettes 1. Insert the Configuration Software CD in the CD-ROM Drive. 2. Reboot the system. 3. When POST completes, the server boots from the CD and displays the CD-ROM menu. 4. Follow the menu prompts to create the server configuration software diskettes.
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Chapter 2 Installing The System
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Configuring The System 3 This chapter tells how to run the configuration utilities and install video drivers. Configuration Utilities • Symbios SCSI Utility is used to configure/view the settings of the SCSI host adapters and devices in the system. See page 76. • System Configuration Utility (SCU) is on the Configuration Software CD shipped with the system. See Chapter 2, “Installing The System,” for instructions on creating an SCU diskette. See page 51.
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Power-on Self-Test ! ▲ WARNING The power button on the front panel of the system does not turn off the AC power. To remove AC power from the system, you must unplug the AC power cord from each power supply or wall outlet. Turn on the video monitor and system. After a few seconds the power-on self test (POST) begins. Each time you turn on the system the power LED on the front panel turns on and the POST starts running.
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When to Use the System Configuration Utility The SCU lets you do the following: • Add and remove boards • Change the system configuration settings • Save the system configuration • View switch and jumper settings on the boards in the system To install or remove an ISA add-in board in the system, you must run the SCU to reconfigure the system. Running the SCU is optional for a PCI add-in board. The SCU is PCI-aware and complies with the ISA Plug and Play specifications.
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How to start the SCU Before you can run the SCU from a diskette, you must copy the SCU from the Configuration Software CD to a DOS bootable diskette. For instructions on creating an SCU diskette, see Chapter 2, “Installing The System.” 1. Turn on the video display monitor and system. 2. There are three ways to start the SCU.
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System Board Settings Field Descriptions Default values are in bold typeface. Systems Group System Identification and Version Information Config and Overlay Version Displays configuration and overlay version. BIOS Version String Displays BIOS version. MP Spec. Version MP Spec V1.1 MP Spec V1.4 System Processor Modules Processor 1 Pentium II Processor at XXXMHz (Display only). Processor 2 Pentium II Processor at XXXMHz (Display only).
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Extended Memory Options Cache Mode Disable Enable Memory Gap Control Disable Extended On-Board Disk Controllers On-Board Floppy Controller Enable - Primary Enable - Secondary Disable On-Board IDE Controller Enable Disable Onboard Communications Devices Serial Port 1 Configuration Port 1 Disable 3E8h - IRQ 4 3E8h - IRQ 3 3F8h - IRQ 4 3F8h - IRQ 3 2E8h - IRQ 4 2E8h - IRQ 3 2F8h - IRQ 4 2F8h - IRQ 3 Serial Port 2 Configuration Port 2 Disable 3E8h - IRQ 4 3E8h - IRQ 3 3F8h - IRQ 4 3F8h - IRQ 3 2E8h -
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Parallel Port Configuration Parallel Port Disable 378h - IRQ 7 278h - IRQ 7 3BCh - IRQ 7 378h - IRQ 5 278h - IRQ 5 3BCh - IRQ 5 Parallel Port Mode Output Only Parallel Port Bi-directional Parallel Port Enhanced Parallel Printer Port Extended Capabilities Parallel Port, DMA 1 Extended Capabilities Parallel Port, DMA 3 Floppy Drive Subsystems Group Floppy drive A Options 3.5-inch 1.44/1.25 MB drive 5.25-inch 360 KB drive 5.25-inch 1.2 MB drive 3.5-inch 720 KB drive 3.5-inch 2.
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IDE Drive Options – Primary Master If the Configuration Selection Field is set to Auto, the following fields can not be modified.
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Multiboot Group Boot Device Priority IPL Devices Diskette Drive Hard Drive Removable media Any I2O drives ATAPI CD-ROM Drive Diagnostic Boot BCV Devices IDE drives Other Bootable Device KB and Mouse Subsystem Group Typematic Speed 30 CPS 26 CPS 21 CPS 18 CPS 13 CPS 10 CPS 6 CPS 2 CPS Typematic Delay 250 mS Delay 500 mS Delay 750 mS Delay 1000 mSec Delay Mouse Control Option Mouse Enabled Mouse Disabled Console Redirection COM Port for Redirection Enable Redirection on Port 3F8h IRQ4 Enable Redire
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Hardware Flow Control None CTS/RTS Xoff/Xon CTS/RTS + CD Select Terminal Type PC-ANSI VT100 Security Subsystem Administrative Password Option Password Menu Enter Password XXXXX Verify Password XXXXX User Password Option Password Menu Enter Password XXXXX Verify Password XXXXX Other Security Subsystem Options Hot Key Option Disable Enable Lockout Timer Disable 1 Minute 2 Minute 5 Minute 10 Minute 20 Minute 1 Hour 2 Hour Secure Boot Mode Disable Enable Video Blanking Disable Enable Floppy Writ
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SCSI ROM BIOS Options Group Embedded SCSI Option ROM Scan Enable Disable Management Subsystem Group System Management Mode Disable Enable Event Logging Disable Enable M440LX Server System Product Guide 59
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When to Run the BIOS Setup Utility The Setup utility lets you change the system configuration defaults. It does not let you enter or change information about PCI or ISA add-in boards; you must use the SCU instead. Setup stores most of the configuration values in the battery-backed memory of the RTC; the rest of the values are stored in flash memory. The values take effect when you boot the system.
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• Server Menu  System Management Submenu  Console Redirection Submenu • Boot Menu  Boot Device Priority Submenu  Hard Drive Submenu • Exit Menu Use the following keys to navigate through the menus and submenus.
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Main Menu Default values are in bold typeface, and autoconfigured values are shaded. Feature Option Comments System Time Current Time To change this field type the hour (this is a 24-hour clock), minutes, and seconds, each followed by . System Date Current Date To change this field type the month, day, and year, each followed by . Diskette A: Disabled 360 KB 5¼” 1.2 MB 5¼” 720 KB 3½” 1.44/1.25 MB 3½” 2.88 MB 3½” Diskette B: Disabled 360 KB 5¼” 1.2 MB 5¼” 720 KB 3½” 1.44/1.
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IDE Submenu Feature Option Comments Auto None CD-ROM User Use the <+> and <-> keys to cycle through the choices. Depending on the selection, some of the following fields will be visible. Disabled 2 Sectors 4 Sectors 8 Sectors 16 Sectors Determines the number of sectors per block for multiple sector transfers. LBA Mode Control Disabled Enabled Disables/Enables Logical Block Access. 32 Bit I/O Disabled Enabled Disables/Enables 32-bit IDE data transfers.
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Keyboard Features Submenu Feature 64 Option Comments Numlock Auto On Off Selects the state for NumLock at power on. Key Click Disabled Enabled Keyboard auto-repeat rate 30/sec 26.7/sec 21.8/sec 18.5/sec 13.
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Advanced Menu Feature Option Comments Plug & Play OS No Yes Select Yes if you are booting a Plug and Play capable operating system. Reset Configuration Data No Yes Select Yes if you want to clear the System Configuration Data during the next boot. Automatically reset to No during boot. PCI Configuration Press See page 66, PCI configuration Submenu. Integrated Peripheral Configuration Press See page 68, Integrated Peripheral Configuration Submenu.
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PCI Configuration Submenu Feature 66 Option Comments PCI Device, Embedded SCSI Devices Press See page 67, Embedded SCSI Device Submenu PCI Device, Slot #1 Press See page 68, PCI Device Submenu PCI Device, Slot #2 Press See page 68, PCI Device Submenu PCI Device, Slot #3 Press See page 68, PCI Device Submenu PCI Device, Slot #4 Press See page 68, PCI Device Submenu PCI Device, Slot #5 Press See page 68, PCI Device Submenu PCI Device, Slot
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Embedded SCSI Device Submenu Feature Option ROM Scan Option Comments Enabled Disabled Narrow SCSI Latency Timer Default 0020h 0040h 0060h 0080h 00A0h 00C0h 00E0h Wide SCSI A Latency Timer Default 0020h 0040h 0060h 0080h 00A0h 00C0h 00E0h Wide SCSI B Latency Timer Default 0020h 0040h 0060h 0080h 00A0h 00C0h 00E0h M440LX Server System Product Guide 67
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PCI Device Submenu Feature Option Option ROM Scan Enabled Disabled Enable Master Disabled Enabled Wide SCSI A Latency Timer Comments Default 0020h 0040h 0060h 0080h 00A0h 00C0h 00E0h Integrated Peripherals Submenu Feature Option Serial port A Serial port A: Base I/O address Disabled Enabled Auto PnP OS 3F8 2F8 3E8 2E8 Serial port A: Interrupt IRQ 3 IRQ 4 Serial port B Disabled Enabled Auto PnP OS Serial port B: Mode Comments Normal IrDA ASK-IR continued 68 Chapter 3 Configuring The Sys
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Integrated Peripherals Submenu (continued) Feature Option Serial port B: Base I/O address Serial port B: Interrupt Parallel port 3F8 2F8 3E8 2E8 IRQ 3 IRQ 4 Disabled Enabled Auto PnP OS Parallel port: Mode Output only Bi-directional EPP ECP Parallel port: Base I/O address 378 278 Parallel port: Interrupt Parallel port: DMA Channel Floppy Disk Controller Floppy Disk Controller: Base I/O address Comments IRQ 5 IRQ 7 DMA 1 DMA 3 Disabled Enabled Primary Secondary M440LX Server System Product Guide
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Security Menu Feature Option Comments User Password is Clear When you enter a supervisor password, this field automatically changes to Set. Administrator Password is Clear When you enter a user password, this field automatically changes to Set. Set User Password Press User password controls access to the system at boot. Password may be from one to seven characters. See page 71, Password Menu.
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Security Menu (continued) Feature Secure Mode Timer Option Comments Disabled 1 min 2 min 5 min 10 min 20 min 1 hr 2 hr Select the period of keyboard inactivity before securing the system. Secure Mode Hot Key (CTRL-ALT-) Secure Mode Boot Video Blanking Floppy Write Protect Enter a hot key. Press + <(hot key)> to place the system in the secure mode. Disabled Enabled Enabled lets the system boot before a password is required.
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Server Menu Feature Option Comments System Management Press See page 72, System Management Submenu. Console Redirection Press See page 73, Console Redirection Submenu. PCI IRQs to IO-APIC mapping Processor Retest Disabled Enabled No Yes Selecting Yes will cause the BIOS to clear the historical processor status and retest all processors on the next boot.
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Console Redirection Submenu Feature Option Comments Disabled 3F8 2F8 3E8 Uses the specified I/O port for console redirection. 4 Display only. 9600 19.2 K 38.4 K 115.2 K Uses the specified baud rate for console redirection. Cannot be set unless the COM Port Address field is set. No Flow Control CTS/RTS XON/XOFF CTS/RTS + CD Uses the specified flow control for console redirection. Cannot be set unless the COM Port Address field is set.
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Boot Device Priority Submenu These options may change depending on the system configuration. Feature Option Comments 1 Diskette Drive Select a device and use the <+> and <-> keys to move it up or down in the list. 2 Hard Drive 3 ATAPI CDROM Drive 4 Diagnostic Boot Hard Drive Submenu These options may change depending on the system configuration. Feature 74 Option Comments 1 Hard Drive Select a device and use the <+> and <-> keys to move it up or down in the list.
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Exit Menu Feature Option Comments Exit Saving Changes Press Saves the Setup data to CMOS, and exits the utility. Exit Discarding Changes Press Exits the utility without saving Setup data to CMOS. Load Setup Defaults Press Loads and displays the default Setup data. Load Custom Defaults Press Loads and displays settings from Custom Defaults. Save Custom Defaults Press Save the current settings to Custom Defaults.
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Using the Symbios SCSI Utility The Symbios SCSI utility detects the SCSI host adapters on the system board. Use the utility to • change default values • check and/or change SCSI device settings that may conflict with those of other devices in the server Running the SCSI Utility 1. When this message appears on the video monitor: Press Ctrl-C to run SCSI Utility... 2. Press to run this utility. When it appears, choose the host adapter that you want to configure.
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Installing Video Drivers After you have configured the system, you can install various video drivers to take full advantage of its onboard, integrated Cirrus Logic CL-GD54M40 super VGA video controller’s enhanced features. The system may not operate properly without these video drivers installed. For the most current information on which video drivers you need, read the README.TXT file on the Display Drivers and DOS Utilities diskette.
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Chapter 3 Configuring The System
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Working Inside Your System 4 This chapter tells how to install and remove major system components. Preparation Before opening your system, do the following: • Turn the system off with the power button on the front panel and unplug the AC power cord(s). • Turn off all peripheral devices connected to the system. Label and disconnect all peripheral cables attached to the I/O panel on the back of the system. • If you installed a padlock, unlock and remove it.
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Covers The system comes with the following removable covers: • The left side cover provides access to the system board and fans. • The right side cover provides access to the power supplies, powersharing board, 3.5-inch vertical drive bay, 5.25-inch horizontal peripheral bays, and SCSI hot-docking backplanes. • The top cover provides access to the front panel board. You must remove both side covers before you can remove the top cover.
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1 2 3 OM05785 Figure 4-1. Side Covers 1 2 3 Retaining screw Metal loop (for padlock) Built-in handle Replacing a Side Cover The identical side covers can be installed on either side of the system. See Figure 4-1. 1. Before replacing the side cover, make sure you did not leave any tools or loose parts inside the chassis. 2. Ensure that add-in boards are firmly seated in their respective slots, retaining brackets are firmly secured with screws tightened to 6.
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! ▲ CAUTION When you replace the side cover, be careful not to damage the EMI gaskets mounted on the cover and chassis. If necessary, replace any damaged gaskets. 4. Attach the cover to the chassis with the three screws you removed earlier, and tighten them firmly (6.0 inch-pounds). 5. For security, and to prevent unauthorized entry into the system, insert a padlock through the metal loop protruding through the slot in the back of the side cover and lock it. 6.
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2 1 OM05256 Figure 4-2. Top Cover 1 2 Screw Top cover Replacing the Top Cover See Figure 4-2. 1. Before replacing the top cover, make sure you did not leave any tools or loose parts inside the chassis. 2. Ensure that interior cables are properly connected. 3. Position the top cover (Figure 4-2) over the chassis so that the tabs along the front of the cover align with the slots in the top edge of the chassis. 4.
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Removing the Plastic Front Cover See Figure 4-3. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove both side covers and the top cover, and set them aside (page 80). 3. Remove the two screws from the front cover, and save them. 4. Unsnap the front cover from the chassis, and place it on a smooth surface so that it doesn’t get scratched. Replacing the Plastic Front Cover See Figure 4-3. 84 1.
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1 2 3 OM05786 Figure 4-3.
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Removing the Snap-in Plastic Peripheral Bay Cover See Figure 4-4. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the right side cover (when viewed from the front, see page 80). 3. To remove the snap-in plastic peripheral bay cover, push up on the bottom flexible tab below the 3.5-inch diskette drive. Then push the tab toward the front of the system until you can grasp the lower right corner of the cover.
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Replacing the Snap-in Plastic Peripheral Bay Cover See Figure 4-4. 1. Insert the rigid tabs on the plastic snap-in peripheral bay cover into the notches along the inside edge of the plastic front panel. 2. Push the top right corner of the plastic cover toward the chassis with an inward twisting motion to insert the top flexible tab in the slot above the 3.5-inch diskette drive. 3. Gently press on the cover until both the top and bottom flexible tabs snap into place. 4.
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Board Set The system board supports two processor modules, a memory module, and an RPX module. ! ▲ CAUTION The Pentium II processor is be extremely sensitive to ESD and always requires careful handling. After removing the module from its protective wrapper or from the system board, place it heat sink side down on a nonconductive, static-free surface. Do not slide the module over any surface.
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A B C OM05773A Figure 4-5. Removing a Termination Board A B C Latch Terminator Latching Assembly Terminator Board Installing a Voltage Regulator Module See Figure 4-6. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover (page 80). 3. Being careful not to touch the components or connector on the voltage regulator module, remove it from its protective wrapper and place it on a nonconductive, static-free surface. 4.
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3 2 1 OM05774 Figure 4-6.
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Installing a Pentium II Processor See Figure 4-7. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover (page 80). 3. Being careful not to touch the components or gold edge connectors on the processor module, remove it from its protective wrapper and place it heat-sink side down on a nonconductive, static-free surface. 4. Record the module serial number in your equipment log. 5. Press the locking tabs inward until they remain retracted. 6.
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Removing a Pentium II Processor See Figure 4-7. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover (page 80). 3. Squeeze the locking tabs and pull the module free from the connector. 4. Store the module in an antistatic protective wrapper, or place it processor-side up on a nonconductive, static-free surface. Installing the Memory Module See Figure 4-8. 92 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2.
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1 2 3 OM05760B Figure 4-8. Installing the Memory Module 1 2 3 8. System board Connector Module Run the SCU to configure the system. For information about running the utility, see Chapter 3, "Configuring The System.
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Removing the Memory Module See Figure 4-8. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover (page 80). 3. Remove the rail. 4. Holding the module by its top edge or upper corners, carefully rock it back and forth until the edge connector pulls free. 5. Store the module in an antistatic protective wrapper, or place it Socket side up on a nonconductive, static-free surface. 6. Install the rail. Installing the RPX Module See Figure 4-9. 94 1.
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1 2 3 OM05760A Figure 4-9. Installing the RPX Module 1 2 3 9. System board Connector Module Run the SCU to configure the system. For information about running the utility, see Chapter 3, "Configuring The System.
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Removing the RPX Module See Figure 4-9. 96 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover (page 80). 3. Remove the RPX rail. 4. Holding the module by its top edge or upper corners, carefully rock it back and forth until the edge connector pulls free. 5. Unplug the RPX battery. 6. Store the module in an antistatic protective wrapper, or place it component side up on a nonconductive, static-free surface. 7. Install the rail.
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Add-in Boards The system board provides seven PCI bus master slots and three ISA bus master slots. They accept any add-in PCI and ISA boards. One PCI connector shares a common chassis I/O expansion slot with an ISA connector; you can use either PCI slot or ISA in the slot, but not both. ! ▲ CAUTIONS Do not overload the system board by installing add-in boards that draw excessive current. For expansion slot current limitations, see Chapter 7, “Power System.
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Installing an Add-in Board See Figures 4-10, 4-11, and 4-12. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover (page 80). 3. Remove and save the expansion slot screw and cover. OM04638 Figure 4-10.
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4. Being careful not to touch the components or gold edge connectors on the board, remove it from its protective wrapper and place it component-side up on a nonconductive, antistatic surface. 5. Record the board serial number in your equipment log. 6. Set any jumpers or switches according to the board manufacturer's instructions. 7. Hold the board by its top edge or upper corners, and firmly press it into an expansion slot on the system board (Figure 4-11 or Figure 4-12).
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OM04639 Figure 4-11.
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OM04640 Figure 4-12.
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Removing an Add-in Board ! ▲ CAUTION Expansion slot covers must be installed on all vacant slots to maintain the electromagnetic emissions characteristics of the system and to ensure proper cooling of the system components. See Figures 4-10, 4-11, and 4-12. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the side cover (page 80). 3. Disconnect any cables attached to the board you are removing. 4. Remove and save the add-in board retaining bracket screw. 5.
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Diskette Drive The system comes with a 3.5-inch diskette drive installed in the vertical 3.5-inch peripheral bay. Contact your sales representative or dealer for a list of approved add-in peripheral devices. Removing the Diskette Drive See Figures 4-13 and 4-14. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the right side cover (page 80). 3. Disconnect the power and signal cables from the diskette drive. 4.
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1 2 3 4 OM05769 Figure 4-13.
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7. Remove the three screws, and set them and the drive carrier aside. See Figure 4-14. 8. Place the drive in an antistatic protective wrapper. 9. Replace the right side cover (page 81). 1 2 3 OM05791 Figure 4-14. Diskette Drive and Carrier Assembly 1 2 3 Screw Carrier Diskette drive Installing a Diskette Drive See Figures 4-13 and 4-14. 1. Remove the 3.5-inch diskette drive from its protective wrapper, and place it component-side up on an antistatic surface. 2.
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4. Place the drive carrier on the component-side of the drive, and align the three mounting holes. 5. Attach the carrier to the drive with three screws of the appropriate size and length (not supplied), and tighten the screws firmly (between 4.0 and 6.0 inch-pounds). 6. Position the drive and carrier assembly over the slots in the chassis wall, and slide the assembly toward the front of the system to engage its tabs in the slots. 7.
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Installing a 5.25-inch Peripheral Device See Figures 4-15, 4-16, 4-17, and 4-18. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove both side covers and the top cover (page 80). 3. Remove the snap-in plastic peripheral bay cover (page 86), and place it on a smooth surface so that it doesn’t get scratched. 4. Remove the screws and filler panel, and set them aside. OM05315 Figure 4-15. Filler Panels 5.
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OM04647 Figure 4-16. Removing the EMI Shield 9. 108 Using two screws of the appropriate size and length (not supplied), attach each plastic slide rail to the device.
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4 1 OM04648 3 2 Figure 4-17. Snap-in Plastic Slide Rails 1 2 3 4 Tape drive or other device Tab Screw Slide rail 10. Position the device so that the plastic slide rails on each side of it engage in the bay guide rails. Push the device into the bay until the slide rails lock in place.
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3 1 2 OM05789 Figure 4-18. Installing a 5.25-inch Peripheral Device 1 2 3 Tape drive or other device Power cable SCSI signal cable 11. Replace the snap-in plastic peripheral bay cover, top cover, and both side covers. 12. This step is optional. If you installed a SCSI CD-ROM drive, run the Symbios SCSI utility to enable BIOS support for a bootable CD-ROM. Run the SCU or Setup to specify that the CD-ROM is the boot device.
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Removing a 5.25-inch Peripheral Device See Figures 4-15, 4-16, 4-17, and 4-18. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove both side covers and the top cover (page 80). 3. Remove the snap-in plastic peripheral bay cover (page 86), and place it on a smooth surface so that it doesn’t get scratched. 4. Disconnect the power cable and the signal cable from the drive. 5.
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Back-up Battery The lithium battery on the system board powers the real-time clock (RTC) for up to 10 years in the absence of power. The RTC contains 256 bytes of general purpose RAM that stores the system BIOS configuration information, clock registers, and general purpose control registers. When the battery starts to weaken, it loses voltage, and the system settings stored in CMOS RAM in the RTC (for example, the date and time) may be wrong.
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! ▲ VAROITUS Paristo voi räjähtää, jos se on virheellisesti asennettu. Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin. Hävitä käytetty paristo valmistajan ohjeiden mukaisesti. Replacing the Back-up Battery See Figure 4-19. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover (page 80). 3. Insert the tip of a small flat-bladed screw driver, or equivalent, under the plastic tab on the snap-on plastic retainer.
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2 1 3 OM05791A Figure 4-19.
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Front Panel Board The front panel board contains the system controls and indicators. It is mounted on a snap-on standoff and a threaded standoff inside the chassis. Removing the Front Panel Board See Figure 4-20. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove both side covers and the top cover (page 80). 3. Remove the screw from the threaded standoff inside the chassis, and set it aside. You will need the screw later. 4.
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OM05268 Figure 4-20.
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Fans The system contains up to three fans and two blowers for cooling and airflow. • Located in the system board side of the system: some configurations may have up to two fans and two blowers. • Located in the power supply side of the system: configurations with only one or two power supplies also have a fan on the rear bulkhead. Configurations with three supplies do not have this fan. The fans integrated in the power supplies provide sufficient cooling and airflow.
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O M0 527 8 Figure 4-21.
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6. Remove the fan from the plastic housing by pushing the inner flexible tabs on the housing away from the fan. Save the housing. OM05277 Figure 4-22.
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Replacing a Front Panel Fan See Figures 4-21 and 4-22. ✏ Note The front panel fans pull air from in front of the chassis so that it flows across the boards and out the back. Thus, the fans must be oriented for the correct airflow direction. If you place the fan so the label faces the back of the chassis, this should provide the correct orientation.
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2. Remove both side covers and the top cover (page 80). 3. Disconnect the fan power cable connector from the fan header on the hot-docking backplane. 4. Press the top outer flexible tab on the plastic housing and fan assembly toward the fan until you can pull the tab through the slot in the chassis. 5. Pull the top of the assembly toward the hot-docking bays to disengage the bottom flexible tab. 6. Remove the assembly from the chassis, and place it—fan-side down— on a flat surface.
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7. Remove the two screws that attach the finger guard to the fan. Set the screws and finger guard aside. 8. Place the assembly—fan-side up—on a flat surface. Remove the fan from the plastic housing by pushing the inner flexible tabs on the housing away from the fan. Save the housing. OM05325 Figure 4-24.
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Replacing the Fan Below the Power Supply See Figures 4-23 and 4-24. The arrow on the fan indicates the direction of airflow. The fan pulls air through the hot-docking bays and exhausts it out of the system. 1. Place the plastic housing—flexible tabs facing up—on a flat surface. 2. With the power cable side of the fan facing up, place it inside the plastic housing. Route the cable through the slot in the side of the housing. 3.
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Power System The system may be configured with one, two, or three 360 watt power supplies. • One power supply. • Two power supplies and a power share board. • Two power supplies without a power share board. • Three power supplies and a power share board. If a single power supply fails in a system with a power share board, the yellow power supply failure LED on the front panel starts flashing. Generally, a failed power supply can be replaced while the system is running.
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OM05765 Figure 4-25. Removing a Power Supply Replacing a Power Supply See Figure 4-25. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Slide the power supply through the back of the system. 3. Attach the power supply to the system chassis with the four screws you saved. Tighten the screws firmly (6.0 inch-pounds).
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Power Share Backplane The power share backplane distributes the power load of the system among two or three power supplies. The backplane is mounted on two snap-on standoffs and six threaded standoffs on the center wall inside the chassis. ! ▲ WARNINGS The power button on the front panel of the system does not turn off the AC power. To remove AC power from the system, you must unplug the AC power cord from each power supply or wall outlet.
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OM05771 Figure 4-26.
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9 8 1 7 6 2 5 4 3 OM05770 Figure 4-27.
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Installing the Power Share Backplane See Figures 4-26 and 4-27. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the right side cover (page 80). 3. Position the mounting holes in the power share backplane over the snap-in standoffs and threaded standoffs on the inside chassis wall. 4. Push the backplane toward the chassis wall until it snaps onto the snap-in standoffs. 5.
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SCSI Hot-docking Backplane The system may be configured with one or two SCSI hot-docking backplanes. Removing a Hot-docking Backplane See Figure 4-28. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove all the hard disk drives from the hot-docking bay. See Chapter 5, “SCSI Backplane and Drives: Hot-swapping and Configuring.” Label each drive so that you can install them in the same place. 3. Remove the right side cover (page 80). 4.
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4 3 2 1 5 6 OM 05269 Figure 4-28.
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Chapter 4 Working Inside Your System
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SCSI Backplane and Drives: Hot-swapping and Configuring 5 This chapter tells how to configure the SCSI backplane and install hot-swap SCSI hard disk drives. Warnings and Cautions Before you remove the system covers to work inside it, observe the warnings and cautions provided for your safety on page 3, “Safety Guidelines.” System integration should be done by technically qualified personnel.
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SCSI Hard Disk Drive The system supports a variety of single-ended SCSI SCA devices. As shipped from the supplier, the system might not contain any hard disk drives. Contact your sales representative or dealer for a list of approved single-ended SCSI SCA devices. ! ▲ ! ▲ ▲ 134 WARNING The single-ended SCSI hot-docking backplane requires installing single-ended SCSI devices in your system. Installing differential SCSI drive types can result in electrical damage to the system board and the peripherals.
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Mounting a SCSI SCA Hard Disk Drive in a Plastic Carrier See Figure 5-1. 1. Remove the 3.5-inch hard disk drive from its protective wrapper, and place it on an antistatic surface. 2. Record the drive model and serial number in your equipment log. 3. Orient the drive so the connector is near the top surface of the drive, and place it on an antistatic surface. 4. Place the plastic carrier on top of the drive. 5.
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Installing a SCSI SCA Hard Disk Drive in a Hot-docking Bay See Figure 5-2. 136 1. Open the plastic front door. 2. If you installed a padlock on the metal door to the hot-docking bays, unlock the padlock and remove it. 3. Loosen the two spring-loaded, captive screws that secure the metal door to the chassis, and open the door. 4. Position the plastic carrier, locking tab up, and drive assembly so it engages the hot-docking bay guide rails. 5.
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1 2 OM06470 Figure 5-2.
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Hot-swapping a SCSI SCA Hard Disk Drive A bank of 10 yellow LEDs on the front panel monitors the drive status of each drive in the upper and lower hot-docking bays. When a yellow LED is on continuously, it is okay to hot-swap (replace) a bad drive with a good one. You do not need to shut the system down to hot-swap a drive. See Figure 5-2. 1. Open the plastic front door of the system. 2. If you installed a padlock on the metal door to the bays, unlock the padlock and remove it. 3.
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SCSI Hot-docking Backplane The hot-docking backplane provides the following: • Five SCA connectors for SCA-compatible SCSI drives • Power control for each drive, including automatic slot-power-down upon removing a drive • Signal for a fault indicator on the front panel for each drive • Internal I2C bus • +12 V connector for a fan with tachometer • Local I2C-based temperature sensor The SCSI hot-docking backplane provides control signals and power for five wide/fast 3.
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Internal/External (INT/EXT) Jumper J8 When this jumper is in the “INT” position—jumper on pins 1 and 2 default setting—the backplane assumes it is operating in an “internal” peripheral bay in the chassis. When this jumper is in the “EXT” position—jumper on pins 2 and 3—the backplane assumes it is operating in an “external” peripheral bay in a peripheral expansion chassis. This option is not available.
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Changing SCSI Device ID Addresses If you have a wide SCSI device ID conflict, you can resolve it by changing the default ID addresses of the drives in the hot-docking bays. See the jumper table on page 140. See Figure 5-3. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Turn the system off with system power push-button on/off switch on the front panel, and unplug each AC power cord from the power supply or wall outlet. 3.
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9 8 7 6 5 4 3 2 1 J10 1 2 3 J9 1 2 3 J8 1 2 3 J7 1 2 3 OM05270 Figure 5-3.
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SCSI Hot-docking Backplane Connectors Wide/Fast SCSI 16-Bit Connector 1 68 OM03878 Pin Signal Pin Signal 1-16 GND (ground) 49-50 GND (ground) 17 TERMPWR 51 TERMPWR 18 TERMPWR 52 TERMPWR 19 RESERVED 53 RESERVED 20-34 GND (ground) 54 GND (ground) 35 DB 12_L 55 ATN_L 36 DB 13_L 56 GND (ground) 37 DB 14_L 57 BSY_L 38 DB 15_L 58 ACK_L 39 DB P1_L 59 RST_L 40 DB 0_L 60 MSG_L 41 DB 1_L 61 SEL_L 42 DB 2_L 62 CD_L 43 DB 3_L 63 REQ_L 44 DB 4_L 64 I/O_L
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Wide/Fast SCA2 SCSI 16-Bit Connectors 1 OM04855 144 Pin Signal Pin Signal 1-4 +12 V 25 DB 3_L 5−6 NC 26 DB 2_L 7 DB 11_L 27 DB 1_L 8 DB 10_L 28 DB 0_L 9 DB 9_L 29 DB P_L 10 DB 8_L 30 DB 15_L 11 I/O_L 31 DB 14_L 12 REQ_L 32 DB 13_L 13 C/D_L 33 DB 12_L 14 SEL_L 34-36 +5 V 15 MSG_L 37 SYNC 16 RST_L 38 MTRON_L 17 ACK_L 39 ID0_L 18 BSY_L 40 ID2_L 19 ATN_L 41 DRV PRES_L 20 DB P_L 42−76 GND 21 DB 7_L 77 LEDC, DRV ACT_L 22 DB 6_L 78 DLYDS
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Power Connectors The backplane power connectors are 4-pin shrouded plastic connectors with mechanical keying. 1 2 3 4 OM04656 Pin Signal 1 +12 V 2 Ground 3 Ground 4 +5 V Fan Connector This connector provides power to the fan below the top power supply.
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Front Panel Connector The front panel connector and cable provide the chassis-wide I2C bus and the electrical path between the drive fault indicators (LEDs) and the SCSI backplane that controls them.
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Server Resources 6 This chapter tells how to upgrade the resources available in your system. Warnings and Cautions Before you remove the covers, observe the warnings and cautions provided for your safety on page 3, “Safety Guidelines.” System integration should be done by technically qualified personnel.
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Memory Module Resources The memory module contains eight DIMM sockets for installing memory. It supports from 16 MB to 1 GB of EDO ECC 3.3 V 60 ns DRAM, mounted on JEDEC DIMMs. You may install mixed sizes and types of DIMMs in the eight memory banks; however, their speeds must be the same. Always install the DIMMs in sequence by starting with bank 0 (socket J1, closest to the system board), then bank 1 (socket J2), and so on with bank 7 (socket J8) as the last one.
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DIMM 0, J1 DIMM 1, J2 DIMM 2, J3 DIMM 3, J4 DIMM 4, J5 DIMM 5, J6 DIMM 6, J7 DIMM 7, J8 OM05785A Figure 6-1.
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Memory Regions The memory module supports from 16 MB to 1 GB of ECC memory by using fast page mode (FPM) or extended data out (EDO) 64 Mbit DRAMs mounted on JEDEC 3.3 V 60 ns DIMMs. DOS Compatibility Region The DOS compatibility region covers 1 MB of memory from addresses 0000_0000h to 000F_FFFFh.
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ECC Memory Table 6-1. ECC Memory Banks If you fill one bank with Memory size for that bank will be 8 MB DIMM, 1M x 72 8 MB 16 MB DIMM, 2M x 72 16 MB 32 MB DIMM, 4M x 72 32 MB 64 MB DIMM, 8M x 72 64 MB 128 MB DIMM, 16M x 72 128 MB Table 6-2.
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Installing DIMMs ! ▲ CAUTIONS Use extreme care when installing a DIMM. Applying too much pressure can damage the socket slot. DIMMs are keyed and can be inserted in only one way. Mixing dissimilar metals may cause failures. Install DIMMs with gold-lead alloy plated edge connectors only in gold-lead alloy plated sockets. See Figures 6-2 and 6-3. 152 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2.
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2 1 DIMM 0, J1 DIMM 1, J2 DIMM 2, J3 DIMM 3, J4 DIMM 4, J5 DIMM 5, J6 DIMM 6, J7 DIMM 7, J8 OM05784A Figure 6-2.
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7. Gently push the plastic ejector levers (Figure 6-3) on the socket ends to the upright position. OM05273 Figure 6-3. Properly Seated DIMM 8. Repeat the above steps to install more DIMMs. Always install them in sequence by installing the next DIMM in bank 1, socket J2, and so on with the last one in bank 7, socket J8. 9. Install the memory module and the left side cover as described in Chapter 4, "Working Inside Your System." 10. Connect all external cables and the power cord(s) to the system. 11.
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Removing DIMMs See Figure 6-4. 1. Observe the warnings and cautions on page 3, “Safety Guidelines.” 2. Remove the left side cover and memory module as described in Chapter 4, "Working Inside Your System." 3. Hold the module only by its edges, being careful not to touch its components or gold edge connectors, and place it on an antistatic surface. 4. Starting with the first DIMM-filled socket closest to the top edge of the module, remove the DIMMs one at a time.
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OM05275 Figure 6-4. Removing ECC Memory DIMMs 8. Install the memory module and the left side cover and as described in Chapter 4, "Working Inside Your System." 9. Connect all external cables and the power cord(s) to the system. 10. Turn on the monitor and then the system. 11. Run the System Configuration Utility (SCU) to configure the system and to properly attribute ECC memory. Failure to do so may degrade the performance of your system.
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System Board Resources Video Memory DRAM The system board comes with 512 KB of onboard video memory. Increasing the video memory buffer size to 1 MB with a 40-pin 256 K x 16, 60 ns fast-page DRAM allows the controller to support 132-column text modes and high resolution graphics with 1280 x 1024 x 16 colors. Depending on the environment, the controller displays up to 64,000 colors in some video resolutions. ✏ Note DRAMs from only certain manufacturers have been tested for compatibility with the system.
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U7C1 OM05781 Figure 6-5. Video Memory DRAM ! ▲ 158 WARNING Installing the video DRAM chip incorrectly in the socket could produce an extremely high case temperature, destroy the chip, and possibly the system board. Do not touch the chip after such an occurrence until you determine that the case is not at an elevated temperature.
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I/O Addresses and Resources The I/O map in the following table shows the location in I/O space of all directly I/O accessible registers.
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* 160 Address Resource 03C0h–03CFh Video Display Controller 03D4h–03DAh Color Graphics Controller 03E8h–03EFh Serial Port A 03F0h–03F5h Floppy Disk Controller 03F6h–03F7h Primary IDE - Secondary Floppy 03F8h–03FFh Serial Port A (Primary) 0400h–043Fh DMA Controller 1, Extended Mode Registers 0461h Extended NMI / Reset Control 0462h Software NMI 0480h–048Fh DMA High Page Register 04C0h–04CFh DMA Controller 2, High Base Register 04D0h–04D1h Interrupt Controllers 1 and 2 Control Regis
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Interrupts The following table shows the logical interrupt mapping of interrupt sources on the system board. Interrupt Description (active-low signals have an “_L” symbol following them) INTR Processor interrupt. NMI NMI from DISMIC to processor. IRQ0/MIRQ0 System board interrupt request 0 connected to input 2 of the I/O Apic. (For proper operation, the BIOS must set the IRQ0 enable bit in PIIX3 register 70h during initialization.) IRQ1 RTC.
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Flash ROM An 8-bit flash memory device provides 512 K x 8 of BIOS and nonvolatile storage space. The device is addressed as 8-bit ISA memory. You can load a new copy of the BIOS into flash memory by using the Flash Memory Update Utility (FMUP) diskette.
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Power System 7 This chapter describes the power system and explains how to calculate power consumption. Power System Configurations The server contains a modular power system that may be configured with one, two, or three 360 watt power supplies.
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A redundant power system uses a power share backplane to distribute power to the server. The backplane implements these server management features: • I2C bus • Power supply failure • Maximum current • Current usage • Number of power supplies installed in the server’s power system • Redundant mode • 240 VA limit The current sensing feature of the power share backplane shuts down the entire power system if any single output from the backplane to the system board or peripherals exceeds 240 VA.
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Power System Control Signals Power Enable/Disable (PON) The PON control signal originates on the system board, and it is routed through the power share backplane microcontroller. If the +5 V and +12 V power going to the system board or the peripherals exceeds 240 VA, the backplane microcontroller will disassert the PON control going to each power supply (J4, J6, and J9). This signal is used to enable and disable the power supplies.
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Power Good Circuit The power good circuit looks at the levels of the power good (PGOOD) signals. When the backplane PGOOD circuit senses a PGOOD signal, a system PGOOD is asserted after an approximately 550 ms delay. Only a single PGOOD signal assertion will cause the assertion of the system PGOOD. VA Monitor Circuit The total supply current that forms part of the load sharing circuit monitors +3.3 V as well as +5 V and +12 V on the system board.
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System Current Monitor The system current monitor on the power share backplane sends a power usage report to the server via the I 2C communications bus. The backplane microcontroller contains analog-to-digital converters that monitor DC voltage levels supplied by the current sense circuits. They represent the current load on the +3.3 V output from the system board and the +5 V and +12 V load at both the system board and the peripheral bays.
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Power Share Backplane Interconnections Power Supply to Powershare Board Connections The following power supply signals connect to input connectors J3, J7, and J11 on the power share backplane. 168 PIN SIGNAL PIN SIGNAL 1 Power Good 19 PS-ON 2 +5V Standby 20 Remote Sense Return 3 Predictive Failure 21 +5V Remote Sense 4 +3.
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Backplane to System Board Power Interface Connector J1 on the backplane provides power to the system board. Pin Signal Color Pin Signal Color 1 +5 V Red 13 +5 V Red 2 +5 V Red 14 +5 V Red 3 -5 V White 15 +5 V Red 4 -12 V Blue 16 +5 V Red 5 GND Black 17 GND Black 6 GND Black 18 GND Black 7 GND Black 19 GND Black 8 GND Black 20 GND Black 9 GND Black 21 GND Black 10 +3.3 V Orange 22 +3.3 V Orange 11 +12 V Yellow 23 +3.
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Backplane to System Board Control Connections Connector J2 on the backplane connects I2C, remote sense, and power supply controls to the system board. Pin Connector Designator Description 1 RS GND Remote sense ground (-) 2 +5 V RS +5 VDC remote sense (+) 3 +3.3 V RS +3.
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Power Supply Output Voltages The table below lists the total watts available for each voltage. Adjust your loads so that the combined total wattage for your system configuration is less than • 360 watts for an entry level nonredundant power system • 318.
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Server Current Usage As an overall current usage limitation on the power supply, do not exceed its maximum output capacity of 32 amperes at +5 volts (160 watts) and 11 amperes at +3.3 volts (36.3 watts). The combined power output for the +5 and +3.3 volt outputs should not exceed 178 watts. The maximum current allowed at +5 volts for each PCI and ISA slot on the system board is 2 amperes (10 watts).
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Current (maximum) at voltage levels: Device System board (includes first processor) ✏ +3.3 V +12 V –12 V 1.8 A 3.0 A 5.5 A 0.05 A 10 A 0A 0A 0 Note The current usage may vary depending on the processors and the size and number of DIMMs installed on the memory module. Second processor : ✏ +5 V Note The current usage may vary depending on the processors and the size and number of DIMMs installed on the memory module. RPX board 3.0 A Server monitor module 0.5 A 3.5-inch diskette drive 0.
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Calculating Power Usage Use the worksheets in Tables 7-1 and 7-2 to calculate the total DC power used by your system configuration. The documentation that comes with each add-in board and peripheral device should specify its current and voltage requirements. To calculate the total combined wattage for your system, do this: 1. List the current for each board and device in the appropriate voltage level column in Table 7-2. 2.
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Table 7-2. Worksheet for Calculating DC Power Usage Current (maximum) at voltage levels: Device +3.3 V +5 V –5 V +12 V –12 V System board 3.0 A 1.8 A 0.1 A 0.1 A Second processor 0 10.0 A 0 0 RPX board 0 3.0 A 0 0 3.5-inch diskette drive 0.3 A CD-ROM drive 0.4 A 1.0 A Cooling fan 1, 92 mm 0.43 A Cooling fan 2, 92 mm 0.43 A Cooling fan 3, 92 mm 0.43 A Cooling fan 4, 92 mm 0.43 A Cooling fan 5, 92 mm 0.
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Table 7-2. Worksheet for Calculating DC Power Usage Current (maximum) at voltage levels: Device +5 V +12 V 1st 3.5-inch SCSI hard disk drive 2nd 3.5-inch SCSI hard disk drive 3rd 3.5-inch SCSI hard disk drive 4th 3.5-inch SCSI hard disk drive 5th 3.5-inch SCSI hard disk drive 6th 3.5-inch SCSI hard disk drive 7th 3.5-inch SCSI hard disk drive 8th 3.5-inch SCSI hard disk drive 9th 3.5-inch SCSI hard disk drive 10th 3.
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System Board Jumpers 8 This chapter tells how to set the system board jumpers for specific operating parameters. Warnings and Cautions Before you remove the covers to work inside it, observe the warnings and cautions provided for your safety on page 3, “Safety Guidelines.” System integration should be done by a qualified technical person.
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Configuration Jumpers The jumper is a small plastic-encased conductor (shorting plug) that slips over two jumper pins. To change a jumper setting, use a jumper removal tool, needle-nosed pliers, or your fingers to remove the jumper from its current location. Position the jumper over the two pins for the desired setting, and press it onto them. Be careful not to bend the pins. J2J1 The figure below shows the default jumper settings.
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Table 8-1. System Board Jumpers Jumper Pins (default in bold) Description CPU Speed Enable Permits changing the processor speed in the BIOS setup program. Protect Prevents changing the processor speed. Recovery Boot Prevents inverting address A16. Allows the system to boot from the Recovery BIOS when the normal BIOS gets corruptedif you are unable to reload a fresh copy from the diskette.
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Fault Resilient Booting (FRB) The jumper on the J3J1 FRB ENA pins allows the system to boot from processor 1 if processor 0 fails. Moving the jumper to the DIS pins lets the system boot only from processor 0. To boot only from processor 0, do this: 1. Observe the precautions on page 3, “Safety Guidelines.” 2. Remove the left side cover as described in Chapter 4, “Working Inside Your System.” 3. Move the jumper on the J3J1, FRB from the ENA pins to the DIS pins. 4.
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To update the BIOS, do this: 1. Observe the precautions on page 3, “Safety Guidelines.” 2. Insert the update diskette into drive A, and turn on the monitor and system. The update process starts automatically when the system boots. Follow the screen prompts. 3. When the update process completes, remove the diskette, and press reset. Wait for POST to complete; for instructions on running POST, see Chapter 3, “Configuring The System.” 4.
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Boot Option Moving the boot option jumper on the J2J1, Boot Opt NOR pins to the REC pins enables the BIOS flash memory special recovery mode. The system BIOS can be corrupted, for example, when the update procedure is aborted due to a power outage. However, flash memory contains a protected area that cannot be corrupted. Code in this area is used to boot the computer from drive A when the BIOS has been corrupted.
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6. 7. 8. 9. Beep Code Message 2 Successful completion, no errors. 4 The system could not boot from the diskette. The diskette may not be bootable. Continuous series of low beeps The wrong BIOS recovery files are being used and/or the flash memory jumper is in the wrong position. Turn the system off, disconnect the power cord(s) from the system, and remove the left side cover. Move the jumper from the REC pins to the NOR pins to enable the normal boot mode.
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CMOS The jumper on the J2J1, CMOS PROT pins preserves the CMOS settings during system reset. Moving the jumper to the CLR pins clears CMOS and sets it and the real-time clock (RTC) to the manufacturing default settings during system reset. To reset the system’s CMOS and the RTC to factory default values, do this: 1. Observe the precautions on page 3, “Safety Guidelines.” 2. Remove the left side cover as described in Chapter 4, “Working Inside Your System.” 3.
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I/O Ports and Connectors 9 Signal States In all tables in this chapter, active-low signal names have an “_L” symbol following the name; for example, P_REQ_SLOT0_L. Active-high signal names do not have a “_L” suffix. Server System Board The system board contains both PCI and ISA I/O systems with several embedded devices for video, network, and disk control.
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System Board Layout A B C D E F GH I J K DD CC L BB M FF N EE O P Q R S AA T U V Z Y X W OM05772 Figure 9-1.
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System Board Connector Locations A Narrow SCSI connector Q Fan 3 connector B IDE connector R RP connector C I2C connector S I2C connector D Fan 0 T Server management connector E Floppy drive connector U Jumper block J2J1 F Power connector V Fan 4 connector G Hard disk activity input W Wide SCSI channel B H Auxiliary power connector X Wide SCSI channel A I Front panel connector Y ISA bus slots J VRM connector Z Secondary PCI bus slots K Speaker connector AA Primary
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Power Connector Pin Signal Color Pin Signal Color 1 +5 V Red 13 +5 V Red 2 +5 V Red 14 +5 V Red 3 -5 V White 15 +5 V Red 4 -12 V Blue 16 +5 V Red 5 GND Black 17 GND Black 6 GND Black 18 GND Black 7 GND Black 19 GND Black 8 GND Black 20 GND Black 9 GND Black 21 GND Black 10 +3.3 V Orange 22 +3.3 V Orange 11 +12 V Yellow 23 +3.
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Control Panel Connector Pin Signal Pin Signal 1 GND 9 Fan failure 2 Hard disk activity 10 Chassis intrusion 3 Reset system 11 Power fault condition 4 Toggle system power 12 5 V standby 5 VCC 13 I C-SDA 6 Spare 14 GND 7 NMI to CPU 15 I C-SCL 8 VCC 16 GND 2 2 Diskette Drive Port Pin Signal Pin Signal 1 GND 18 FD_DIR_L 2 FD_DENSEL 19 GND 3 GND 20 FD_STEP_L 4 n/c 21 GND 5 Key 22 FD_WDATA_L 6 FD_DRATE0 23 GND 7 GND 24 FD_WGATE_L 8 FD_INDEX_L
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Wide/Fast 16-Bit SCSI Connector 1 68 Pin 190 OM03878 Signal Pin Signal 1−16 GND (ground) 49−50 GND (ground) 17 TERMPWR 51 TERMPWR 18 TERMPWR 52 TERMPWR 19 RESERVED 53 RESERVED 20−34 GND (ground) 54 GND (ground) 35 DB 12_L 55 ATN_L 36 DB 13_L 56 GND (ground) 37 DB 14_L 57 BSY_L 38 DB 15_L 58 ACK_L 39 DB P1_L 59 RST_L 40 DB 0_L 60 MSG_L 41 DB 1_L 61 SEL_L 42 DB 2_L 62 CD_L 43 DB 3_L 63 REQ_L 44 DB 4_L 64 I/O_L 45 DB 5_L 65 DB 8_L 46 DB 6
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IDE Connector Pin Signal Pin Signal 1 IDERST_L 21 IDEDRQ 2 GND 22 GND 3 ID7 23 DIOW_L 4 ID8 24 GND 5 ID6 25 DIOR_L 6 ID9 26 GND 7 ID5 27 IORDY 8 ID10 28 SPSYNC 9 ID4 29 IDEDAK_L 10 ID11 30 GND 11 ID3 31 IDEIRQ14 12 ID12 32 IDEIO16_L 13 ID2 33 IDESA1 14 ID13 34 PDIAG_L 15 ID1 35 IDESA0 16 ID14 36 IDESA2 17 ID0 37 IDECS0_L 18 ID15 38 IDECS1_L 19 GND 39 IDEHDACT_L/DRVPRES_L 20 Keyed 40 GND M440LX Server System Product Guide 19
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Fan Connectors These connectors are identical. Pin Signal 1 GND (ground) 2 Fan sense 3 +12 V Blower Connectors These connectors are identical.
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Server Management Connector Pin Signal Description 1 SMI_L (input) System management interrupt 2 I2CCLK (output I C clock (8 MHz) 3 GND (power) Electrical ground 4 KEY No connection, pin missing 5 PWROFF_L (output) Power supply off 6 I2CDATA (I/O) I C data signal 7 LPOK (input) Host line power okay 8 KEYUNLK (input) Keyboard unlock (not used) 9 NMI (input) Nonmaskable interrupt 10 +3.3 V (input) +3.
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ISA Connectors The system board ISA connectors follow the standard pinout given in the ISA Specification.
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PCI Connectors Pin Signal Pin Signal Pin Signal Pin Signal A1 TRST_L B1 −12 V A32 AD16 B32 AD17 A2 +12 V B2 TCK A33 +3.3 V B33 C-BE2_L A3 TMS B3 GND A34 FRAME_L B34 GND A4 TDI B4 TD0 A35 GND B35 IRDY_L A5 +5 V B5 +5 V A36 TRDY_L B36 +3.3 V A6 INTA_L B6 +5 V A37 GND B37 DEVSEL_L A7 INTC_L B7 INTB_L A38 STOP_L B38 GND A8 +5 V B8 INTD_L A39 +3.
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Keyboard and Mouse Connectors These identical PS/2 compatible connectors share a common housing. The top one is the mouse, and the bottom one is the keyboard.
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Parallel Port The IEEE 1284-compatible parallel port—used primarily for a printer— sends data in parallel format.
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VGA Video Port 5 1 10 6 15 11 OM00936A 198 Pin Signal 1 Red (analog color signal R) 2 Green (analog color signal R) 3 Blue (analog color signal R) 4 NC (not connected) 5−8 GND (video ground) 9 NC (not connected) 10 GND (video ground) 11−12 NC (not connected) 13 HSYNC (horizontal sync) 14 VSYNC (vertical sync) 15 NC (not connected) Chapter 9 I/O Ports and Connectors
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Serial Ports These ports support external devices such as modems and scanners that require serial data transmission.
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Chapter 9 I/O Ports and Connectors
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Solving Problems 10 This chapter helps you identify and solve problems that might occur while using the server. Resetting the Server You can reset the server in a variety of ways. Manually Press To Clear system memory and reload the operating system. This is a "soft boot" reset. Reset button Clear system memory, restart POST, and reload the operating system. Power off/on Turn the system power off and then on.
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Initial System Startup Problems that occur at initial system startup are usually caused by incorrect installation or configuration. Hardware failure is a less frequent cause.
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❑ Is the system power cord properly connected to the system and plugged into a NEMA 5-15R outlet for 100-120 VAC or a NEMA 6-15R outlet for 200-240 VAC? See "Connecting the Power Cord" in Chapter 2, "Installing The System." ❑ Is AC power available at the wall outlet? If these items are correct, but the problem recurs, refer to "Additional Troubleshooting Procedures" on page 205.
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After the System Has Been Running Correctly Problems that occur after the system hardware and software have been running correctly often indicate equipment failure. Many situations that are easy to correct, however, can also cause such problems. Checklist ❑ If you are running the software from a diskette, try a new copy of the software. ❑ If you are running the software from a CD-ROM disc, try a different disc to see if the problem occurs on all discs.
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Additional Troubleshooting Procedures This section provides a more detailed approach to identifying a problem and locating its source. Preparing the System for Diagnostic Testing ! ▲ CAUTION Before disconnecting any peripheral cables from the system, turn off the system and any external peripheral devices. Failure to do so can cause permanent damage to the system and/or the peripheral devices. 1. Turn off the system and all external peripheral devices.
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Monitoring POST See Chapter 3, "Configuring The System." Verifying Proper Operation of Key System Lights As POST determines the system configuration, it tests for the presence of each mass storage device installed in the system. As each device is checked, its activity light should turn on briefly. Check for the following: ❑ Does the diskette drive activity light turn on briefly? If not, refer to "Diskette Drive Activity Light Does Not Light" on page 210.
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Specific Problems and Corrective Actions This section provides possible solutions for the following specific problems: • Power light does not light. • System cooling fans do not rotate or rotate slowly. • No characters appear on screen. • Characters on the screen appear distorted or incorrect. • No beep or incorrect beep pattern. • Diskette drive activity light does not light. • Hard disk drive activity light does not light. • Tape drive activity light does not light.
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System Cooling Fans Do Not Rotate Properly If the system cooling fans are not operating properly, system components will be damaged. ✏ Note The system has up to seven cooling fansthree of them are integral parts of the power supplies. There are no serviceable components in the power supply. If the power supply is opened, the warranty is voided.
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No Characters Appear on Screen Check the following: ❑ Is the keyboard working? ❑ Is the video monitor plugged in and turned on? ❑ Are the brightness and contrast controls on the video monitor properly adjusted? ❑ Are the video monitor switch settings correct? ❑ Is the video monitor signal cable properly installed? ❑ Is the onboard video controller enabled? If you are using an add-in video controller board, do the following: 1.
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Incorrect or no Beep Codes If the system operates normally, but there was no beep, the speaker may be defective. Verify that the speaker is enabled by running the SCU. For information about running the SCU, see Chapter 3, "Configuring The System." If the speaker is enabled, but not functioning, contact your service representative or authorized dealer for assistance.
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Hard Disk Drive Activity Light Does Not Light If you have installed one or more hard disk drives in your system, check the following: ❑ Are the power and signal cables to the hard disk drive properly installed? ❑ If your system contains a SCSI host adapter controller board, is it fully seated in the system board connector? ❑ Are all relevant switches and jumpers on the hard disk drive and controller board set correctly? ❑ Is the onboard IDE controller enabled? ✏ Note The hard disk drive activity li
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Problems With Application Software If you have problems with application software, do the following: 1. Verify that the software is properly configured for the system. Refer to the software installation and operation documentation for instructions on setting up and using the software. 2. Try a different copy of the software to see if the problem is with the copy you are using. 3. Make sure all cables are installed correctly. 4. Verify that the system board jumpers are set correctly. 5.
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Error and Informational Messages When you turn on the system, POST displays messages that provide information about the system. If a failure occurs, POST emits beep codes that indicate errors in hardware, software, or firmware. If POST can display a message on the video display screen, it causes the speaker to beep twice as the message appears. POST Beep Codes Beep codes are a series of individual beeps, each one equal in length.
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POST Codes and Countdown Codes The BIOS indicates the current testing phase during POST after the video adapter has been successfully initialized by outputting a 2-digit hex code to I/O location 80h. If a port-80h ISA card is installed, it displays this 2-digit code on a pair of hex display LEDs. Normal Port-80 Codes These are the port-80 codes and countdown codes displayed during the normal BIOS POST process. Table 10-2.
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Table 10-2.
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Table 10-2.
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Table 10-2.
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Table 10-2. Port-80 Codes (continued) Port 80 Code Reason 95 Install CD ROM for boot 96 Clear huge ES segment register 98 Search for option ROMs.
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Table 10-2. Port-80 Codes (continued) Port 80 Code Reason C0 Try to boot with INT 19 DO Interrupt handler error D2 Unknown interrupt error D4 Pending interrupt error D6 Initialize option ROM error D8 Shutdown error DA Extended Block Move DC Shutdown 10 error POST Error Codes and Messages The following table defines POST error codes and associated messages. These codes may change in the future as the Phoenix BIOS matures and includes the support for POST error code display. Table 10-3.
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Table 10-3. POST Error Codes and Messages (continued) Code Error message 0054 PnP Error Log is Full 0055 Bad PnP Serial ID Checksum: 0056 Bad PnP Resource Data Checksum: 0060 Keyboard Is Locked ...
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Table 10-3.
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Table 10-3.
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Table 10-3.
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Chapter 10 Solving Problems
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Regulatory Specifications A Declaration of the Manufacturer or Importer The Intel Corporation hereby certifies that this product is in compliance with EU EMC Directive 89/336/EEC, using standards EN55022 Class B, EN50082-1, and EN61000-3-2 (some server configurations are not equipped to comply with this standard); EU low voltage directive, 73/23/EEC, using standard EN60950 and applicable amendments Safety Compliance USA: UL 1950, 3rd Edition Canada: UL to CSA C22.2 No.
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Electromagnetic Compatibility (EMC) USA: FCC 47 Class B CFR Parts 2 and 15, Class B via declaration Canada: Industry Canada (IC) ICES-003 Class B Europe: EN55022 EN50082-1 IEC 801-2 ESD Susceptibility IEC 801-3 Radiated Immunity IEC 801-4 Electrical Fast Transient EN61000-3-2 International: Japan: Australia: CISPR 22/93, Class B VCCI Class 2 ITE AS/NZS 3548, AS/NZS 4252.
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Any changes or modifications not expressly approved by the grantee of this device could void the user's authority to operate the equipment. The customer is responsible for ensuring compliance of the modified product. Only peripherals (computer input/output devices, terminals, printers, etc.) which comply with FCC class B limits may be attached to this computer product. Operation with noncompliant peripherals is likely to result in interference to radio and TV reception.
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Electromagnetic Compatibility Notices (International) English translation of the notice above: This equipment is in the Class II category (information equipment to be used in a residential area or an area adjacent thereto) and conforms to the standards set by the Voluntary Control Council For Interference (VCCI) by Data Processing Equipment and Electronic Office Machines aimed at preventing radio interference in such residential area.
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Equipment Log B Use this equipment log to record pertinent information about your server system. You will need some of this information when you run the System Configuration Utility (SCU). Record the model and serial numbers of the server system and the system board. They are on the back panel of the server and along the left side of the system board near the expansion slots. Record the model and serial numbers of the system components, dates of component removal or replacement, and the vendor’s name.
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Equipment Log Component Manufacturer Name and Model Number Serial Number Date Installed System System Board Primary Processor Module Secondary Processor Module Memory Module RPX Module Power Share Backplane SCSI Hot-docking Backplane #1 SCSI Hot-docking Backplane #2 Keyboard Mouse Floppy Disk Drive A Continued 230 Appendix B Equipment Log
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Equipment Log (continued) Component Manufacturer Name and Model Number Serial Number Date Installed Floppy Disk Drive B Tape Drive CD-ROM Drive Hard Disk Drive 1 Hard Disk Drive 2 Hard Disk Drive 3 Hard Disk Drive 4 Hard Disk Drive 5 Hard Disk Drive 6 Hard Disk Drive 7 Hard Disk Drive 8 Hard Disk Drive 9 Hard Disk Drive 10 ■ ■ ■ M440LX Server System Product Guide 231
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© 1997 Intel Corporation. * Third party trademarks are the property of their respective owners. [Need Amdahl trademark information] Informix and OnLine are registered trademarks of Informix Software Inc. Pentium is a registered trademark of Intel Corporation and EtherExpress is a trademark of Intel Corporation. *Other trademarks are the property of their respective owners.