Overview Hardware Install Appendix BIOS Setup HDAMA rev.G User’s Guide Version: 3.02 Release Date: Jul.
Arima ServerBoard Manual Copyrights and Disclaimers.......................................... C-i ATTENTION: READ FIRST!....................................... C-ii Overview General Safety Precautions. ......................................C-2 ESD Precautions.........................................................C-2 Operating Precautions.................................................C-2 About this User's Manual............................................C-3 Getting Help.................................
BIOS Setup Main Menu..............................................C-28 Master and Slave SubMenus.....................................C-29 Advanced Menu..........................................................C-31 Chipset Configuration SubMenu. ...............................C-33 Keyboard Configuration SubMenu.............................C-35 I/O Device Configuration SubMenu............................C-36 Console ReDirection SubMenu..................................C-38 PCI Devices SubMenu.................
Copyrights and Disclaimers The information in this User’s Manual has been carefully reviewed and is believed to be accurate. The vendor assumes no responsibility for any inaccuracies that may be contained in this document, makes no commitment to update or to keep current the information in this manual, or to notify any person or organization of the updates. Arima reserves the right to make changes to the product described in this manual at any time and without notice.
ATTENTION: READ FIRST! ¡INSTALLATION WARNING! Use Caution When Installing the ServerBoard into the System Chassis The components underneath the PS/2 Mouse/Keyboard connectors around the mounting hole are very FRAGILE and can be knocked off of their soldered positions, resulting in IRREPARABLE DAMAGE during installation when sliding the board into a system chassis.
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Thank you for choosing this high performance Server motherboard. The dual AMD® Opteron micro-Socket 940 motherboard (M/B) based on the SSI form factor and is configured with the AMD® HyperTransport I/O Hub 8111 and PCI-X Tunnel 8131 chipsets. The board features a Hyper Transport speed of 1600 MTs (MegaTransfers per second). For memory options, there are eight sockets in a four + four configuration to support up to 16 GB of memory using Registered PC3200/PC2700/2100 ECC DDR memory modules.
General Safety Precautions Overview * Keep the area around the Server clean and free of clutter. * Servers weigh a lot. They can average about 50 lbs. (~22.68 kg) When lifting the system, two people should lift slowly from opposite ends with their feet spread out to distribute the weight. Always keep your back straight and lift with your legs. * Place the chassis top cover and any system components that have been removed away from the system or on a table so that they won’t accidentally be stepped on.
About this User's Manual This manual explains how to build your system in detail. Please follow the procedures in this User Manual carefully and pay special attention to these icons. WARNING NOTE TIP Overview IMPORTANT This icon informs you on particularly important details regarding the setup or maintenance of your system. While we point out the most vital paragraphs in a chapter, you should always read the entire section carefully.
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Processor AMD Dual Opteron Socket 940 CPUs with HyperTransport at 1600 MT/s * Built-In Memory Controller Hub (MCH) Chipset * AMD 8111 (HyperTransport I/O Hub) * AMD 8131 (PCI-X Tunnel) Memory * 4+4 sockets for Registered PC3200/PC2700/PC2100 ECC DDR DIMMs * Supports total system memory size of 16 GB Internal I/O connectors * Floppy Connector (Floppy Controller supports 1.44 MB, 2.
ServerBoard Layout Overview ATI Rage XL Broadcom GigE LAN LAN1 VGA LAN2 USB COM1 Mouse Keyboard COM2 CPU1 (H1) AMC Connector H1 Memory DIMM 2,3,0,1 PCI 32-bit PCI 64-bit PCI-X Power AMD 8111 AMD 8131 Power IDES,P Floppy Slim Floppy S-ATA Port 1,2,3,4 (Option) Silicon Image CPU0 (H0) H0 Memory S-ATA DIMM 1,0,3,2 (Option) Serverboard Manual
Overview ServerBoard Map I/O Port Array Sys Fan 0,1 COM 2 H1 Fan 1 DDR Memory x4 64-bit/133 MHz PCI-X x2 64-bit/66 MHz PCI x2 AMC Connector 32-bit/33 MHz PCI x2 USB Header 0 AMD Opteron Socket 940 (H1) USB Header 1 H1 Fan 0 Front Panel Switches DDR Momory x4 Thin-type Floppy connector Floppy AMD Opteron Socket IDE S,P Silicon Image S-ATA RAID Aux. Power Connector 940 (H0) 24-Pin Power (Option) H0 Fan 0 Fr. Fan 1 System Fan Serial-ATA Connectors (Option) 8-pin Power H0 Fan 1 Fr.
Hardware Installation this section, we detail the procedures for how to install processors and other hardware components in your ServerBoard.
Map of Jumpers Refer to the following illustration to find the location of the ServerBoard's jumpers On-Board VGA Select Hardware Install PCI 64 Bit Jumper Clear CMOS PCI-X Jumper Caution Only PCI-X Jumper sequence is On-Board VGA Select, PCI 64 Bit Jumper, Clear CMOS sequence are Hardware Install
Jumper Settings On-Board VGA Select Jumper If you are going to use the onboard VGA feature, you need to set the jumper to enable the VGA header. 1-2 2-3 VGA Enabled (default) VGA Disabled PCI-X Slot Speed Select Jumper This header lets you determine the bus speed of the PCI-X slots. The speed can be set to either 133 MHz (default) or 100 MHz.
Installing Memory This ServerBoard uses Dual Inline Memory Modules (DIMM). Two 4-DIMM socket memory banks are available, one memory bank for each CPU socket. The DIMM sockets accommodate PC2100/PC2700/PC3200 (DDR266/DDR333/DDR400) and Double Data Rate (DDR) memory modules in 128MB, 256MB, 512MB, 1GB and 2GB size combinations. Total installed memory size is between a minimum of 128MB to a maximum of 16GB. The Design of the processor is such that the Memory Controller Hub (MCH) is built-in to the processor.
Installing Memory continued... 2. Make sure the DIMM’s pins are facing down, and check that the pin arrangement on the memory module resembles the one pictured below. 3. Insert the module into the DIMM socket and press down evenly on both ends firmly until the DIMM module is securely in place. (The tabs of the DIMM socket will close-up to hold the DIMM in place when the DIMM is properly installed on the socket’s bottom.) 80 pins 104 pins Hardware Install Notch Release Tab 4.
Recommended Memory Configurations The AMD Opteron processors have very specific memory module requirements, and due to the design of the serverboard, there are certain configurations of memory that work best to make the most effective use of the memory bandwidth. The AMD Opteron features 128-bit DDR memory channels. DDR Memory Modules are only 64-bit. In order to benefit from the full bandwidth, you should always install the DIMMs in pairs.
Installing the Processor and Heatsink The ServerBoard accommodates AMD® Opteron micro-PGA Socket 940 processors at 1600 MTs (MegaTransfers per second). You must first insert a CPU into CPU socket 0 (CPU0) before installing one in CPU socket 1 (CPU1). Processor (CPU) Installation This section outlines how to install a CPU into the ServerBoard 1. Locate Pin 1 on the CPU socket and Pin 1 on the CPU itself. 2. Lift up the lever on the CPU Socket 940.
Installing the Processor and Heatsink continued... Black Red Yellow GND 12V Sensor 6. Connect the 3-wire fan cable to the H0_FAN1 connector on the motherboard. Hardware Install 5.
Map of ServerBoard Cable Connectors The following map of the ServerBoard illustrates the location of all the connectors on the ServerBoard. Use this map to aide you in connecting devices to your ServerBoard. I/O Port Array Sys Fan 0,1 COM 2 H1 Fan 1 DDR Memory x4 64-bit/133 MHz PCI-X x2 AMD Opteron Socket 940 USB Header 1 H1 Fan 0 Front Panel Switches Thin-type Floppy connector Floppy IDE S,P Silicon Image S-ATA RAID (Option) Aux.
ATX Power Connectors ATX 24-pin connectors connect the ServerBoard to the ATX power supply. Find the proper orientation of the connectors and push down firmly to make sure that the pins are aligned (the connector will only insert properly when properly aligned). The 8-pin connector is a dedicated power connector to supply power for the CPUs. For Wake on LAN support, the 5-volt Stand-by lead (+5VSB) from the ATX power supply must supply at least 2A. +3.3V +3.3V -12V +3.
Floppy Disk Drive Connector This 34-pin connector supports the standard floppy disk drive ribbon cable. Connect the single connector end to the ServerBoard. Then, plug the other end of the ribbon into the floppy drive. Make sure you align the Pin 1 on the connector with the Pin 1 alignments on the ServerBoard and the floppy drive. The Thin-Type Ribbon connector is specifically designed for use with Slim Floppy drives that connect directly to the serverboard.
Front Panel Switches The front panel switches header connects the front control panel buttons and LEDs to the ServerBoard. Front Panel Switch Headers Reset Speaker HDD_LED Power LED Reset Switch (2-pin RST) This 2-pin connector connects to the chassis-mounted reset switch for rebooting your computer without turning your power switch off and on. This is a preferred method of rebooting your system to prolong the life of your system’s power supply.
Front/Back/CPU/Aux Fan Connectors There are nine 3-pin fan connectors in the ServerBoard motherboard. Two fans are used for CPU0 and CPU1; seven are for auxiliary power. These connectors support cooling fans of 500mA (6W) or less. Depending on the fan manufacturer, the wiring and plug may be different. Connect the fan’s plug to the serverboard with respect to the polarity of the fan connector.
Rear Panel I/O Ports This is an illustration of the ServerBoard rear I/O port array COM1 VGA LAN2 LAN1 PS/2 Mouse Connector (6-pin Female) The system will direct IRQ12 to the PS/2 mouse if one is detected. If no mouse is detected, IRQ12 will be free for expansion cards to use. PS/2 Keyboard Connector (6-pin Female) This connection is for standard keyboards using a PS/2 (mini DIN) plug. This connector will not accept standard AT size (large DIN) keyboard plugs.
Additional I/O Connectors The ServerBoard also contains connectors for adding additional ports and devices to the serverboard. Serial Port Header (COM2) USB Header 0 USB Header 1 Hardware Install Serial Port (COM2) Header (9-pin) This is for connecting an additional serial port to the ServerBoard. This is generally used adding a 25-pin female serial connector. See BIOS for setup information. 9-pin Serial Port Header COM2 Pin Assignments Pin Desc. Pin Desc.
Installing Expansion Cards This outlines the procedure for adding expansion cards to your ServerBoard. Remember to read the documentation for your expansion cards and make the necessary hardware and software setting changes (i.e. jumper settings). The ServerBoard features 2 PCI-X (64-bit, 133Mhz) slots, 2 PCI-64 (64-bit, 66MHz) slots, and 2 PCI-32 (32-bit, 33MHz) slots to accomodate PCI expansion cards. 2. 3. Remove the bracket plate on the slot you intend to use. Keep the bracket for possible future use.
Powering on your System Follow these instructions to power on the computer after you have installed the ServerBoard and all system devices. 1. 2. 3. 4. Hardware Install 5. 6. Be sure that all switches are off (in some systems, Off is marked by “O”). After double-checking all jumper settings and connections, close the system chassis cover.
BIOS This chapter discusses the PhoenixBIOS Setup program built into the ROM BIOS. The Setup program allows users modifying the basic system configurations according to their requirements. The BIOS is the Basic Input / Output System used in all IBM® PC, XT™, AT®, and PS/2® compatible computers. The PhoenixBIOS flash chip stores the system parameters, such as type of disk drives, video displays, etc. in the CMOS.
Starting the BIOS Setup The PhoenixBIOS is immediately activated every time you power on the system. The BIOS reads the system information contained in the CMOS and begins the process of checking the system and configuring it. After configuring the system, the BIOS will follow the Boot Order to seek out an operating system. The BIOS then turns control of the system over to the operating system. The CMOS information that determines the system parameters may be changed by entering the BIOS Setup utility. 1.
Navigating the Menus Use the arrow keys to move between the options. The scroll bar on the right of any window indicates that there is more than one page of information in the window. Use and to navigate between the pages. Pressing and displays the first and last page. Press to exit the current window. The Field Help Window The help panel/window on the right side of each menu displays the help text for the currently selected field.
BIOS Setup Main Menu This is the first screen that is displayed when you enter the BIOS Setup Utility. Main » » » » PhoenixBIOS Setup Utility Advanced Security Power Boot System Time: System Date: [16:19:20] [03/02/2003] Legacy Diskette A: Legacy Diskette B: [1.44/1.
Master and Slave SubMenus The Master and Slave submenus accessed from the Main Menu controls Hard Disk Drives, Removable-Disk Drives (such as Zip Drives) and CD-ROM Drives. PhoenixBIOS 4.0 supports up to two IDE disk controllers. They are referred to as primary and secondary controllers. Each controller supports one master drive and one slave drive.
Master/Slave SubMenu continued... BIOS Setup Use the following chart to configure your Master/Slave devices: Feature Options Description Type None None = Either that Autotyping is not able to supply the drive type OR the 1 to 39 end user has selected "None", disabling any drive that may be installed. User User = The end-user supplies the hard-disk/device information. Auto Auto = Autotyping, the drive itself supplies the drive information.
Advanced Menu The Advanced menu selection in the menu bar on top of the screen displays the following: Main PhoenixBIOS Setup Utility Advanced Security Power Boot Server Installed O/S: Reset Configuration Data: [Other] [No] USB Host Controller: USB BIOS Legacy Support: CPU0, CPU1 Link Tx Speed CPU0, GOLEM0 Link Tx Speed [Enabled] [Enabled] [800Mhz] [600Mhz] MTRR Mapping Method [Continuous] Memhole mapping [Hardware] 4GB Memory Hole Adjust: [Auto] 4GB Memory Hole Size: [64 MB] IOMMU [Disabled] Size [32
Advenced Menu continued... Use this chart to help you configure your Advanced Menu: Options Other Win95 Win98 Win2000 WinMe Description Select the operating system you installed on the system. In the case of multiple-boot systems, select the one you use most often. Reset Configuration Data Yes No Yes erases all configuration data in a section of memory reserved for ESCD (Extended System Configuration Data) which stores the configuration settings for non-PnP plug-in devices.
Chipset Configuration SubMenu This screen is displayed when you select the "Chip Configuration" SubMenu. In a system with no PCI, select “Advanced Chipset Control” from the Advanced menu to display this screen. PhoenixBIOS Setup Utility Advanced Chipset Configuration Setup Warning Setting items on this menu to incorrect values may cause your system to malfunction.
Chipset Configuration SubMenu continued... Use this table in configuring the system chipset features: BIOS Setup Feature Dram Bank Interleave Options Disabled AUTO Node Memory Interleave Disabled AUTO Interleave Memory Blocks across processor nodes. BIOS will AUTO detect compatibility of memory system ECC Enabled Disabled ECC Check/Correct Mode This is a Global enable function for all blocks within the CPU core and North Bridge.
Keyboard Configuration SubMenu This screen is displayed when you select the "Keyboard Conifiguration" SubMenu. If the system has a PCI chipset, select “Advanced Chipset Control” from the Advanced menu to display this screen. This menu enables you to configure your keyboard behavior at system boot time .
I/O Device Configuration SubMenu The CPU communicates with external devices such as printers through devices called Input/Output (I/O) ports such as serial and parallel ports. These I/O devices require the use of system resources such as I/O addresses and interrupt lines. If these devices are Plug and Play, either the BIOS can allocate the devices during POST, or the operating system can do it. If the I/O devices are not Plug and Play, they may require manually setting them in Setup.
I/O Device Configuration SubMenu continued... Use the following chart to configure the Input/Output settings: Feature Options Serial port A: Serial port B: Disabled Enabled Auto Description Base I/O Address 3F8 2F8 3EB 2EB Select the Base I/O address for the Serial Ports. Interrupt IRQ 3 IRQ 4 Set the Interrupt for the Serial Port. Parallel Port: Disabled Enabled Auto Disabled turns off the port. Enabled requires you to enter the base Input/Output address and the Interrupt number below.
Console ReDirection SubMenu This submenu controls the configuration to remotely control the system. PhoenixBIOS Setup Utility Advanced Console Redirection COM Port Address: [Disabled] Console Connection: [Direct] Baud Rate: [19.2K] Flow Control : [CTS/RTS] Console Type: [ANSI] Contiune C.R.
PCI Devices SubMenu If the system has a PCI bus, selecting “PCI Devices” from the Advanced menu displays the following submenu: PhoenixBIOS Setup Utility Advanced PCI Configuration PCI Device, Slot #1 [Enabled] Option ROM Scan: [Enabled] Enable Master: [Enabled] Exit Item Specific Help Setup items for configuring the specific PCI device PCI Device, Slot #2 [Enabled] Option ROM Scan: [Enabled] Enable Master: [Enabled] PCI Device, Slot #3 [Enabled] Option ROM Scan: [Enabled] Enable Master: [Enable
PCI Devices SubMenu continued... Use this submenu to configure the PCI devices installed on your system by selecting each individual submenu. Use the following chart in configuring the PCI devices submenus: Feature PCI Device, Slot # 1-6 Option ROM Scan Enable Master Feature Onboard LAN1/2 Option ROM Scan Onboard SATA Options Enabled Disabled Disabled Enabled Disabled Enabled PCI Device Slots 1-6 Description Setup items for configuring the specific PCI device. Initialize device expansion ROM.
Security Menu The Security menu selection in the menu bar on top of the screen displays the following: Main PhoenixBIOS Setup Utility Advanced Security Power Boot Supervisor Password is: Clear User Password is: Clear Set Supervisor Password:[Enter] Set User Password: [Enter] Server Exit Item Specific Help Supervisor Password controls access to the setup utility.
Setting and Using Passwords The Security Menu allows you to set the Supervisor and User passwords for the system. Select the appropriate options and press to start the process. Set Supervisor Password This field allows you to set the Supervisor password. To set the Supervisor password, highlight this field and press the [Enter] key. The following dialog box appears: Set Supervisor Password Enter New Password Confirm New Password [ [ ] ] Type the password and press the [Enter] key.
Power Menu Use this menu to specify your settings for Power Management. Remember that the options available depend upon the hardware installed in your system. Those shown here are from a typical system. The Power menu selection in the menu bar on top of the screen displays the following: Main PhoenixBIOS Setup Utility Advanced Security Power Boot Server Exit Item Specific Help Select Power Management Mode. Choosing modes changes system power management WakeUp On LAN/PME: [Enabled] settings.
Power Menu continued... Use this chart to help configure the system's power settings: Options Yes No Description This mainboard supports ACPI (Advanced Configuration and Power management Interface). Use this item to enable or disable the ACPI feature. ACPI is a power management specification that makes hardware status information available to the operating system. ACPI enables a PC to turn its peripherals on and off for improved power management especially in portables.
Boot Menu After you turn on your computer, it will attempt to load an operating system (such as Windows 98) from the first device set in the Boot Menu. If it cannot find an operating system on that device, it will attempt to load it from one or more other devices in the order specified in the Boot Menu. Boot devices can include: hard drives, floppy drives, CD-ROMs, removable devices (e.g., Iomega Zip drives), and network cards.
Boot Menu continued... To change a device’s priority on the list, first select it with the up-or-down arrows, and move it up or down using the <+> and <-> keys. Pressing moves a device between the Removable Devices and Hard Drive. Pressing enables or disables a device Feature Options Removable Devices Legacy Floppy Drive Description Hard Drive Primary Master Bootable Add-in Cards The computer attempts to boot from the floppy disk drive.
Hardware Monitor SubMenu Selecting “Hardware Monitor” from the Server menu displays the following submenu: PhoenixBIOS Setup Utility Hardware Monitor CPU 0 Fan 0 Speed = CPU 0 Fan 1 Speed = CPU 1 Fan 0 Speed = CPU 1 Fan 1 Speed = Front Fan 0 Speed = Front Fan 0 Speed = CPU 0 TemHerature = CPU 1 Temperature = On-Chip Temperature = Vbat : Vcc(5V) : -12V : +12V : CPU 0 Vcore : CPU 1 Vcore : CPU 0 Vtt(1.25V) : CPU 1 Vtt(1.25V) : CPU 0 Vcc(2.5V) : CPU 1 Vcc(2.5V) : Vsb(3.3V) : Vcc3(3.
Exit Menu The Exit menu selection in the menu bar on top of the screen displays the following: Main PhoenixBIOS Setup Utility Advanced Security Power Boot Exit Saving Changes Exit Discarding Changes Load Setup Defaults Discard Changes Save Changes Server Exit Item Specific Help Exit System Setup and save your changes to CMOS.
Load Setup Defaults To load the default values for all the Setup menus, select “Load Setup Defaults” from the Main Menu. The program displays this message: Setup Confirmation Load default configuration now? [Yes] [No] * Select Yes and press to load the default configuration.
Phoenix Boot Utilities This ServerBoard comes with the following boot utilities: * Phoenix QuietBoot™: Phoenix QuietBoot displays a graphic illustration rather than the traditional POST messages while keeping you informed of diagnostic problems. * Phoenix MultiBoot™: Phoenix MultiBoot is a boot screen that displays a selection of boot devices from which you can boot your operating system.
Phoenix MultiBoot Phoenix MultiBoot expands your boot options by letting you choose your boot device on startup, which could be a hard disk, floppy disk, or a CD-ROM. You can configure your boot device in Setup, or you can choose a different device each time you boot during POST by selecting your boot device in The Boot First Menu. MultiBoot consists of: * The Setup Boot Menu * The Boot First Menu Refer to the Boot Menu in BIOS Setup for more information on the Setup Boot Menu.
BIOS Flash Upgrade Utility Phoenix Phlash gives you the ability to update your BIOS from a floppy disk without having to install a new ROM BIOS chip. Phoenix Phlash is a utility for “flashing” (copying) a BIOS to the Flash ROM installed on your computer from a floppy disk. A Flash ROM is a Read-Only Memory chip that you can write to using a special method called “flashing.” Phoenix Phlash automatically updates or replaces the current BIOS with the one which your OEM or dealer supplies you (it's a .
Troubleshooting Troubleshooting Flowchart Here are some flowcharts to help you check for common problems encountered during system assembly Unexpected Symptom Turn OFF the system power and unplug the AC power cord. Remove all add-on cards and peripherals including VGA, Floppy, IDE and ATAPI devices. Check that all jumper settings are correct. Check that the CPU, memory modules, mouse, and keyboard are properly installed on the mainboard and that the 115/230V switch on the power is properly set.
Troubleshooting Flowchart continued... Press ++ key simultaneously to reboot the system NO Check that the system can be re-booted. Keyboard may be defective YES During system boot, press the key to enter BIOS Setup. Select in the Menu of BIOS Setup Power OFF the system and re-connect the floppy and IDE cables to the onboard FDD and IDE connectors. Power ON the system and check to see that the system can boot successfully.
Symptom Checklist Use this chart for more detailed information about some common problems that occur during assembly and in the mainetnance of systems. Symptom Check point No Power * Make sure that no short circuit exists between the mainboard and chassis (FAN is not spinning) * Check that all jumpers are set to their default positions. * Check that the 115V/230V switch on the power supply is properly set. * Check that the CPU is properly inserted in the CPU socket.
POST Errors and Beep Codes PhoenixBIOS 4.0 Release 6.0 When you turn on or reset an IBM-compatible PC, the BIOS first performs a number of tasks, called the Power-On-Self-Test (POST). These tasks test and initialize the hardware and then boot the Operating System from the hard disk. At the beginning of each POST task, the BIOS outputs the test-point error code to I/O port 80h.
POST Errors and Beep Codes continued... NOTE The documented routines are sorted by their test point numbers assigned in the BIOS code. Their actual order of execution during the POST can be quite different.
Addendum A: Recommended Memory Modules * All modules in the following tables have been validated by the manufacturer * As of 1-Mar-2003 ATP 256MB 266MHz 256MB 266MHz 256MB 333MHz 256MB 333MHz 256MB 400MHz 512MB 266MHz 512MB 333MHz 512MB 333MHz 512MB 400MHz 1GB 266MHz 1GB 333MHz 1GB 333MHz 1GB 333MHz 1GB 400MHz 2G 266MHZ 2G 333MHz SAMSUNG K4H280838D-TCB0 SAMSUNG K4H560838D-TCB0 Infineon HYB25D256800BT-6 SAMSUNG K4H560838D-TCB3 SAMSUNG K4H560838E-TCCC SAMSUNG K4H560838D-TCB0 I
Kingston Infineon HYB25D256800BT-7 HYNIX HY5DU28822AT-H SAMSUNG K4H280838C-TCB0 Infineon HYB25D256400AT-7 SAMSUNG K4H560838E-TCCC SAMSUNG K4H560438C-TCB0 Infineon HYB25D256400BT-7 256MB 266MHz KVR266X72RC25L/256 256MB 266MHz 256MB 266MHz 512MB 266MHz 512MB 400MHz 1GB 266MHz 1GB 266MHz 2GB 266MHz MIT 17319-00 KVR266X72RC25/2G 2GB 333MHZ ELPIDA 17301-02 KVR333X72RC25/2G 512MB 266MHz CM72SD512RLP-2100/M 512MB 333MHZ 1GB 266MHz 1GB 266MHz 1GB 333 MHz 1GB 333 MHz MT 46V32M8-7
Smart 512MB 266MHZ 512MB 266MHz 512MB 266MHz 512MB 333MHz 512MB 333MHz 512MB 333MHZ 512MB 333MHZ 1GB 266MHz 1GB 333MHz 1GB 333MHz 2GB 266MHz 2GB 266MHz SAMSUNG K4H560438D-TCB0 MT 46V64M4-75C NANYA NT5DS64M4AT-7K SAMSUNG K4H560438D-TCB3 SAMSUNG K4H560838D-TCB3 MT 46V32M8-6T Infineon HYB25D256400BC-6 SAMSUNG K4H510638D-TCB0 SAMSUNG K4H560438D-TCB3 Infineon HYB250256400BC-6 SAMSUNG K4H1G0638M-TCB0 Infineon 17314-03 SM6472RDDR3H1LP SM6472RDDR3H1LP-M SM6472RDDR301LP2-N SM6472RDDR6H1LP-S
Transcend 512MB 333MHz 512MB 333MHz 1G 333MHz V58C2256804SA75 SAMSUNG K4H560838E-TCCC SAMSUNG K4H560438D-TCB3 TS64MDR72V3F TS64MDR72V4F3 TS128MDR72V3E KINGBEE 1GB 333MHz SAMSUNG K4H560438D-TCB3 KBRM-1GB-F1 Virtium 512MB 333MHz 512MB 333MHz 1GB 333MHz 1GB 333MHz SAMSUNG K4H560838D-TCB3 SAMSUNG K4H560438E-TCB3 SAMSUNG K4H560438E-TCB3 SAMSUNG K4H560438E-TCB3 VM383L6423E-B3S VM383L6420E-B3S VM383L2820-B3S VM383L2826E-B3S Ventura 512MB 333MHz SAMSUNG K4H560838E-TCB3 D52YVK25SV BUFFALO 2
Addendum B: Symptom Report Form Mother Board Serial Number CPU 0 Speed (MHz) CPU 1 Speed (MHz) H0 Bank H1 DIMM Bios Version pair 1 (slot 0, 2) Vendor Part Number Size x2 Chip pair 2 (slot 1,3) Vendor Part Number Size x2 Chip pair 1 (slot 0,2) Vendor Part Number Size x2 Chip pair 2 (slot 1,3) Vendor Part Number Size x2 Chip Drive A: Drive B: Pri. IDE Master Slave Sec. IDE Master Slave Floppy OnBoard IDE Chan. 0 Onboard SCSI Chan.
