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CONTENTS Part I. User's Guide Preface 3 1. Introduction 4 1.1 System Feature 5 1.1.1 Front View 5 1.1.2 Front Panel Controls and Indicators 5 1.1.3 Rear View 6 1.1.4 Inner View 7 1.1.5 Power LED Indication 7 1.2 System Specifications 1.3 Mainboard Layout 8 1.3.1 Block Diagram 11 1.3.2 Mainboard Layout 12 11 2. Important Safety Information 13 3. System Installation 16 3.1 Preparing for Setup 16 3.1.1 Unpacking 16 3.1.2 Packing List 17 3.1.
CONTENTS 4.1.9 Chipset Configuration Menu 51 4.1.10 Power Menu 55 4.1.11 Exit Menu 56 4.2 Jumper Setting 58 4.2.1 PCI-X Speed Setting(J22, J26) 59 4.2.2 VGA Enable / Disable(J18) 60 4.2.3 Clear CMOS(JP1) 60 4.2.4 Geographical ID Setting 61 4.2.5 Jumper Setting on the SATA BP 62 5. Software & Utilities 5.1 NVRAID 5.2 Adaptec SCSI with HostRAID(Optional) 5.3 ServerDome 63 63 73 83 Part II. Technical Guide 1. Removing & Installing System Components 1.1 1.2 1.3 1.4 1.5 1.
Part I.
Preface The information in this User's Guide 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 Guide, or to notify any person or organization of the updates. NOTE: For any up-to-date version of this document, please see our web site at www.uniwide.com. UNIWIDE Technologies, Inc.
1. Introduction The key objective for XtremeServer is to overcome the major challenges faced by developers, and system integrators alike, in deploying ideal server solutions to the market. Although many, key challenges are identified as reliability, performance, value, scalability and manageability. XtremeServer offers the best in class for each of these challenges by employing the latest technology designed by a specialized sever team.
1.1 System Feature 1.1.1 Front View f a c b d f e d a. Slim CD-ROM Drive d. Hard Disk Drive b. Front Panel Controls and Indicators e. Front Bezel c. FDD Ejector button f. Mounting Bracket 1.1.2 Front Panel Controls and Indicators a b c d e f g h a. USB Ports e. System Fault LED b. Power LED f. System ID Switch c. LAN Activity LED g. Reset Switch d. System ID LED h.
1.1.3 Rear View f a b c d e f g h i j k a. AC Power Inlet g. PS/2 Keyboard/Mouse Port b. PCI-Express x16 Slot h. USB Ports c. PCI-X Slot i. IEEE 1394 Port d. System Geographical ID Switch j. GbE LAN Port(IPMI) e. VGA Port k. GbE LAN Port f. Serial Port l. External SCSI Port l LAN Port Function The LAN port uses a CAT 6 LAN cable for connecting the motherboard to a local area network by means of a network hub. The port has 2 indicator LEDs.
1.1.4 Inner View a e g f b f d h c e a. Power Supply e. Memory DIMM Slots b. Silm FDD f. Heatsink c. Silm CD-ROM g. PCI-Express Add-on Card d. CPU Air Duct h. PCI-X Add-on Card 1.1.5 Power LED Indication AC: Green - Normal Yellow - Fail AC DC DC: Green - Normal Yellow - Fail NOTICE You can check the power status LED after the front bezel is removed.
1.2 System Specifications Processor Dual mPGA 940-pin ZIF sockets Supports up to 2P/4C Dual-Core AMD OpteronTM 200 Series processors Integrated 128bit DDR memory controller Chipset NVIDIA nForceTM Professional 2200 AMD-8132TM PCI-X 2.
Integrated I/O Rear I/O One VGA port One serial port One PS/2 keyboard & mouse port Two USB 2.0 ports Two RJ45 GbE ports One IEEE-1394a (Firewire) port One VHDCI external SCSI connector (1322ES-01) Front LED Panel Two USB 2.0 ports LEDs: Power / GbE LAN1 / GbE LAN2 / ID / System Fault Switches: System ID / Reset / Power System Management FAN connectors For CPU / System - Two step speed control Port 80h 7 segment display BMC Supports IPMI 2.
Power Supply 500W cold-swap single Power Supply with PFC function AC Input: 100-240 VAC at 50/60 MHz; 8-4A Form Factor 1U (H x W x D): 43.5 x 430.0 x 698 mm (1.7 x 16.9 x 27.
DDR LINK 1 LINK 0 POGO LINK 1 PCI-X 64Bit 100/133 MHz Slot4 PCI-X 64Bit 100/133 MHz Slot3 PCI-X 64Bit 100/133 MHz Slot2 PCI-X 64Bit 100/133 MHz Slot1 AMD-8132 PCI-X Bridge A PCI-X Bridge B LINK 0 Parallel & Serial Pon PS/2 KB/MS Floppy Disk Drive LPC I/O Winbond W83627THF LPC ATI VGA Onboard PCI Device SATA X 4 EIDE (ATA/133) X 1 BCM5721 G-LAN USB X 8 IEEE-1394 Codec PCI-EXPRESS X4 PCI-EXPRESS X16 Main-in Line-out Line-in PCI-EXPRESS X4 PCI-EXPRESS X16 SATA X2 DDR LINK 2 C
1.3.2 Mainboard Layout 13 10 10 BROADCOM 12 BROADCOM 12 15 11 8 inbond 14 9 6 16 4 5 UNIWIDE 7 3 1 ① AMD OpteronTM Socket 940 - CPU0 2 3 ⑨ PCI Express x16 slot Socket 940 - CPU1 ⑩ Two Broadcom PCI Express GbE ports ③ Registered ECC DDR memory Slots ⑪ Adaptec AIC-7902W SCSI Host Adapter ② AMD Opteron TM ④ NVIDIA nForce TM Professional 2200 ⑫ 68P SCSI Connector TM Professional 2050 ⑬ VHDCI External SCSI Connector ⑤ NVIDIA nForce ⑥ AMD 8132 PCI-X 2.
2. Important Safety Information Only a technically qualified person shall access, integrate, configure, and service this product. To avoid personal injury or property damage, read, observe, and adhere to all of the following safety instructions and information before you begin installing the product. 2.1 Intended application uses This product was evaluated as information technology equipment (ITE), which may be installed in offices, schools, computer rooms, and similar commercial type locations.
2.3 Earth-grounded socket outlets CAUTION To avoid electrical shock, the system power cord(s) must be plugged into socket-outlet(s) that is provided with a suitable earth ground. The system will be provided with the following marking: Connect only to properly earthed socket outlet. 2.
2.7 Cooling and Airflow CAUTION For proper cooling and airflow, always install all access covers before turning on the system. Operating the system for longer than five minutes without the covers in place can cause overheating and damage to system components. 2.8 Battery CAUTION Risk of explosion if battery is replaced by an incorrect type. Dispose of used batteries according to the instructions.
3. System Installation 3.1 Preparing for Setup 3.1.1 Unpacking ① Main Box ② Slide Rail Box ③ Heatsink Pad 8 ④ Accessory Box ⑤ Heatsink Box ⑥ System Bottom Cushion ⑦ XtremeServer 1322 System ⑧ System Top Cushion 7 6 5 4 1 3 2 CAUTION In setting the product out of the box, hold it in the middle and not the cushion. Depending on the weight of the product, two people together should lift it.
3.1.2 Packing List Unpack the package and check if all items listed below are present. If any item contained in the package is damaged or missing, please contact your local dealer for replacement. In addition, keep the box and packing materials for possible future use.
3.1.3 Environmental Specifications Place In front of the system, minimum 25" of the space is needed for using and managing the system. In rear of the system, minimum 30" of the space is needed for managing the system and airflow. Power supply Before installing the system, check the power capacity of the place where the system is installed. Grounding The system should be grounded. Temperature The system should be installed where the airflow and temperature is proper.
3.1.4 Install Rail for Mounting the System on the Rack This section provides information on installing the system into a rack unit with the slide rails provided. Slide Rail Slide rails consist of two sections: an inner fixed chassis rail that secures directly to the server chassis and an outer fixed slide rail that secures directly to the rack itself. You should have received outer slide rails in the rack mounting kit.
Installing the Outer Rails As shown in picture below, put the rear of outer rail on right place of the rear-mounting frame, and fit it on the front-mounting frame. You can fit the outer rails on the rack very easily and then eventually you can reduce the assembly time. Finally, secure it with M6 screws, just rear side only.
3.1.5 Install System at the Rack CAUTION Remove all the cables from system before installing. CAUTION System can be heavy. To reduce the risk of personal injury or damage to the equipment, get help to lift and stabilize the system during installation or removal, especially when the system is not fastened to the rails. ① Lift the system to slide of rack. ② Set the system on the slide rail of rack. ③ Slide the system into the rack. ④ Pull it out, pressing both levers on the inner slide rails simultaneously.
3.2 Installing User Serviceable Component 3.2.1 CPU System mainboard accommodates AMD OpteronTM micro-PGA Socket 940 processors at 2000 MT (Mega Transfer per second). You must insert a CPU into CPU socket 0 (CPU0) first before installing one in CPU socket 1 (CPU1). The correct CPU installation sequence is CPU0, CPU1. CAUTION If you are using 1322VA-02, 1322ES-01 model, you must surely use two CPU for appropriate operation. Follow these instructions to install the CPU.
③ Lower the locking lever and latching it into the fully locked position.
3.2.2 Memory The system mainboard uses Dual Inline Memory Modules (DIMM). Two pair's banks are available; each bank supports one CPU with Hyper Transport Technology. The memory DIMMs accommodates PC2100/2700/3200(DDR266/DDR333/DDR400) and Double Data Rate Memory (DDR) memory modules in 128MB, 256MB, 512MB, 1GB, and 2GB, 4GB combinations. Total memory size for one mainboard is up to 64GB. CAUTION The system mainboard has strict memory type and timing requirements.
NOTICE How do we distinguish between single-rank and double-rank registered DDR DIMM Modules? Both x4 and x8 registered DIMMs come in single-rank (single-sided) and double-rank (double-sided) configurations. A single-rank x8 ECC DDR DIMM has 9 devices on the module and comes in two different styles. A double-rank x4 ECC DDR DIMM has 36 devices in a stacked configuration on the module.
(Example 3) 184-Pin Double-Rank x8 ECC DDR SDRAM DIMM x8 Devive Front Register PLL Register x8 Devive Back (Example 4) 184-Pin Single-Rank x4 ECC DDR SDRAM DIMM x4 Devive Front Register PLL Register x4 Devive Back (Example 5) 184-Pin Double-Rank x4 ECC DDR SDRAM DIMM x4 Devive Stacked Device Front Register PLL Register x4 Devive Back 26
3.2.2.1 Memory Installation Procedure ① Locate the DIMM modules UNIWIDE DIMM 7 DIMM 0 DIMM 0 DIMM 7 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. 80 Pins 104 Pins CAUTION Always populate H0 DIMM socket before installing memory modules in the H1 DIMM sockets.
③ Insert the module into the socket and press down evenly on both ends firmly until the DIMM 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 into the socket.
3.2.3 Hard Disk Drives NOTICE When you install hard disk drive into the system, we recommend using slot #0 first.
3.2.4 PCI Add-on Cards WARNING Please power off your power supply completely when adding removing any expansion card or other system components. Failure to do so may cause severe damage to both your motherboard and expansion card. WARNING Please again check add-on card type when adding expansion card to slot. PCI-X slot can't support exclusive 5V add-on card. 3.2.4.1 Expansion Card Installation Procedure ① Pull out the latch toward the direction as shown in picture below and rotate the latch clockwise.
4. BIOS and Jumper Setup 4.1 BIOS This chapter discusses the AMI BIOS Setup program built into the ROM BIOS. The Setup program allows users modifying the basic system configurations according to their requirements. This special information is then stored in battery-backed RAM so that it retains the Setup information when the power is turned off. The AMI BIOS installed in your computer system's ROM (Read Only Memory) is a custom version of an industry standard BIOS.
4.1.2 Updating BIOS Setup Creating a bootable floppy disk A. DOS environment Insert a 1.44 MB floppy disk into the drive. At the DOS prompt, type: format A : /S then press . B. Microsoft Windows environment ( Microsoft Windows 95/98 only ) Insert a 1.44 MB floppy disk into the floppy disk drive. From your Windows desktop, click on Start, then select My Computer. Select the 3 1/2 Floppy Drive icon. Click File from the menu, and then select Format. A Format 3 1/2 Floppy Disk window appears.
4.1.3 Using Setup In general, you use the arrow keys to highlight items, press to select, press to quit. The following table provides more details about how to navigate in the Setup program using the keyboard. Key Function Up Arrow(↑) Key Move to the previous item Down Arrow(↓) Key Move to the next item Left Arrow(←) Key Move to the previous item Right Arrow(→) Key Move to the next item Esc key Enter Key In the Submenu: Exit the submenu.
4.1.4 Main Menu This is the first screen that is displayed when you enter the BIOS Setup Utility. Each tab lined on the top of the screen represents each different menu. The following picture shows the main menu. Main menu shows the information of BIOS version, date and ID; processor type, speed and count; system size. In addition, system time and date is adjustable using + / - key or number keys.
4.1.5 Advanced Menu You can make these modifications on the advanced menu. 4.1.5.1 CPU Configuration Submenu In CPU configuration, you can set up CPU frequency and enable/disable the Error Reporting. GART error reporting should remain disabled for the normal operation.
Feature Options Description GART Error Disable This option should remain disabled for the normal operation. Reporting Enable This driver developer may enable it for testing purpose. MTRR Continuous MTRRs when 4GB or more of memory is present. Discrete leaves Mapping Discrete the PCI hole below the 4GB boundary undescribed. This option determines the method used for programming CPU Continuous explicitly describes the PCI hole as non-cacheable.
4.1.5.2 IDE Configuration Submenu You can make the selections on IDE Configuration menu.
4.1.5.3 Floppy Configuration Submenu Feature Floppy Configuration Options Disabled 5 1/2" 360 KB 5 1/2" 1.2 MB 3 1/2" 720 KB 3 1/2" 1.44 MB 3 1/2" 2.88 MB Description Select Floppy A or Floppy B and then selects floppy-diskette type installed in your system.
4.1.5.4 Super IO Submenu Feature Options Description OnBoard Floppy Controlle Disabled Enabled Allows BIOS to Enable or Disable Floppy Controller. Serial Port1 Address Disabled 3F8/IRQ4 3E8/IRQ4 2E8/IRQ3 Allows BIOS to Select Serial Port1 Base Addresses. Serial Port2 Address Disabled 2F8/IRQ3 3E8/IRQ4 2E8/IRQ3 Allows BIOS to Select Serial Port1 Base Addresses.
4.1.5.5 ACPI Configuration Submenu Feature ACPI Configuration Options ACPI Aware O/S Yes/No Description Enable: O/S supports ACPI Disable: O/S doesn't support ACPI 4.1.5.6 Hyper Transport Configuration Submenu To set up the hyper transport speed and bandwidth, you can adjust over this menu. The incorrect manipulation will impede the system running.
4.1.5.7 MPS Configuration Submenu 4.1.5.8 PCI Express Configuration Submenu Enable/Disable PCI Express L0 and L1 link power states.
4.1.5.9 AMD PowerNow Configuration Submenu 4.1.5.
4.1.5.11 USB Configuration Submenu Feature Options USB Controller Support Disabled USB 1.1 Only USB 1.1+ USB 2.0 Enables USB controller. Legacy USB Support Disabled/Enabled/ Auto Enables support for legacy USB Auto option disables legacy support if no USB device connected. USB 2.0 Controller Mode HiSpeed FullSpeed Configures the USB 2.0 controller in HiSpeed (480Mbps) or FullSpeed (12Mbps).
4.1.5.
4.1.
Feature Plug & Play O/S PCI Latency Timer Options Description Yes No Yes: lets the O/S configure PnP devices not required for boot if your system has a Plug and Play O/S. 32, 64, 96, 128, 160, 192, 224, 248 Value in units of PCI clocks for PCI device latency timer register. Yes: Assign IRQ to PCI VGA card if card requests IRQ. Allocate IRQ to PCI VGA Yes No No: Doesn't assign IRQ To PCI VGA card even if card requests IRQ.
4.1.
4.1.
Security Menu 3: Clear User Password Security Menu 4: Boot Sector Virus Protection 49
Feature Options Description Change Supervisor Password Install or change the password Change User Password Install or change the password Setup: check password while invoking setup Clear User Password Boot Sector Virus Protection Always: check password while invoking setup as well as on each boot Disabled Enabled Enable/Disable boot sector virus protection 50
4.1.9 Chipset Configuration Menu 4.1.9.
Memory Configuration Submenu Feature Options Description Memclock Mode Auto Limit It can be set by the code using AUTO, or if you use LIMIT, you can set one of the standards.
4.1.9.2 ECC Configuration Submenu Feature Options Description Master ECC Enable Disabled Enabled Master ECC Enables support on all nodes for ECC error detect and correction. DRAM ECC Enable Disabled Enabled DRAM ECC allows hardware to report and correct memory errors automatically maintaining system integrity. L2 Cache BG Scrub Date Cache BG Scrub 40ns 80ns 160ns 320ns 640ns 1.28us 2.56us 5.12us 10.2us 20.5us 41.0us 81.9us 163.8us 327.7us 655.
4.1.9.3 IOMMU Mode Submenu Feature IOMMU Mode Options AGP Present Disabled 32MB 64MB 128MB 256MB 512MB 1GB Description Set GART size in systems without AGP, or disable altogether. Some OSes require valid GART for proper operation. If AGP is present, select appropriate option to ensure proper AGP operation.
4.1.10 Power Menu The Power menu items allow you to change the power management settings. Select an item then press Enter to display the configuration options. Feature Options Power Management / APM Disabled Enabled Enable or disable APM LAN & PME Resume Disabled Enabled Enabled or disabled Internal 802.3 MAC to generate P.M.E in SoftOFF.
4.1.
NOTICE Any wrong values setting may cause system to malfunction. Therefore, UNIWIDE suggests loading optimal defaults while any error happens.
4.2 Jumper Setting This section covers the jumper setting. Refer to the following illustration for the location of the jumpers.
4.2.1 PCI-X Speed Setting(J22, J26) PCI-X speed can be selected by the switch. Please follow the below instruction.
4.2.2 VGA Enable / Disable(J18) This header lets you set your VGA port function. You can choose enable or disable this function or not. Onboard VGA can be disabled by setting this jumper on. On Off Disable Enable(default) 4.2.3 Clear CMOS(JP1) The onboard button cell battery powers the CMOS RAM. It contains all the BIOS setup information. Normally, it is necessary to keep the jumper connected to pin2 and pin3 (Default) to retain the RTC data as shown below.
4.2.4 Geographical ID Setting ID switch is used to decide identification, CPU number and type of server. ServerDome is monitoring on the basis of identification, CPU number and type of server. CAUTION You have to install the ID switch before BMC F/W update. 1 ON 2 3 4 1 ON 2 3 4 A 5 6 7 8 B ID Assignment This sets up identification information of server.
4.2.5 Jumper Setting on the SATA BP Jumper is used to decide which controller we will use in system. Default setting is "ON" for on-board SATA controller. If you want to use add-on SATA controller, you also have to set the switch to "ON" like below picture.
5. Software & Utilities 5.1 NVRAID 5.1.1 Basic Configuration Instruction The following are the basic steps for configuring NVRAID 5.1.1.1 Non-Bootable RAID Array ① Choose the hard disks that are to be RAID enabled in the system BIOS. ② Specify the RAID level, either Mirroring (RAID 1), Striping (RAID 0), Striping and Mirroring (RAID 0+1), or Spanning (JBOD) and create the desired RAID array. ③ Install the operating system on one hard disk, then reboot the system.
5.1.2 Setting up the BIOS ① Start your computer, then press Delete to enter the BIOS setup. Use the arrow keys to select Integrated Peripherals, then press Enter. ② Use the arrow keys to select the RAID Config (see the picture), then press Enter. ③ From the RAID Config window, "enable" the RAID Enable, the other items would be light, then you can enable the disk that you want to use as RAID disks. ④ Press F10 to save the configuration and exit.
5.1.3 Entering the RAID BIOS Setup Basic Configuration Instruction ① After rebooting your system, wait until you see the RAID software prompting you to press F10. The RAID prompt appears as part of the system POST and boot process prior to loading the OS. ② Press , and the NVIDIA RAID Utility-Define a New Array window will appears(See the picture). The default RAID Mode is set to Mirroring and Striping Block is set to Optimal. 5.1.3.
In upper picture 1.0.M means the hard drive is attached to Adapter 1, Channel 0, and the drive is set to Master. The following is a list of all possible combinations: Serial ATA 1.0.M Adapter 1, Channel 0, Master 1.1.M Adapter 1, Channel 1, Master 1.2.M Adapter 1, Channel 2, Master 1.3.M Adapter 1, Channel 3, Master 2.1.M Adapter 2, Channel 1, Master 2.2.M Adapter 2, Channel 2, Master NOTICE There is no such thing as Slave drive in Serial ATA.
the below picture illustrates the Define a New Array window after two disks have been assigned as RAID1 array disks.
5.1.3.3 Completing the RAID BIOS Setup ① After assigning your RAID array disks, press F7. The Clear disk data prompt appears. ② Press Y to clear all drive data. The Array List screen appears, where you can review the RAID arrays that you have set up. ③ Use the arrow keys to select the array that you want to set up, and then press Enter. The Array Detail screen appears.
The Array Detail screen shows information about the array that you selected, such as Striping Block used, RAID Mode, Striping Width, Disk Model Name, and disk capacity. ④ If you want to mark this disk as empty and wipe out all its contents then press C. ⑤ At the prompt, press Y to wipe out all the data, otherwise press N. ⑥ Press Enter again to go back to the previous window and then press F10 to exit the RAID setup.
5.1.4 NVIDIA RAID Utility installation 5.1.4.1 Installing the NVIDIA RAID Software Under Windows (For Non-bootable RAID Array) This section describes how to setup the application and install the RAID software which will upgrade the Windows IDE driver and install the RAID driver. ① Start the nForce Setup program to open the NVIDIA Windows nForce Drivers page. ② Select the modules that you want to install. Select the relative options that you have configured. ③ Click Next and then follow the instructions.
5.1.4.2 Installing the RAID Driver (For bootable RAID Array) ① After you complete the RAID BIOS setup, boot from the Windows CD, and the Windows Setup program starts. ② Press F6 and wait for the Windows Setup screen to appear. ③ Specify the NVIDIA drivers: ⓐ Insert the floppy that has the RAID dirver, press S, then press Enter.
ⓑ Select "NVIDIA RAID CLASS DIRVER" and then press Enter ⓒ Press S again at the Specify Devices screen, then press Enter. ⓓ Select " NVIDIA nForce Storage Controller" and then press Enter. The following Windows Setup screen appears listing both drivers: ④ Press Enter to continue with operating system Installation, Be sure to copy the files from the floppy is complete, then take out the floppy.
5.2 Adaptec SCSI with HostRAID(Optional) This chapter provides information on the Small Computer System Interface (SCSI) BIOS setup utility and allows you to configure the SCSI subsystem for optimum use. You may need to run the SCSI BIOS setup utility when: You want to change the default SCSI controller settings for customized features. You intend to manage any of the attached SCSI devices. 5.2.1 Entering SCSI BIOS Power on the computer and the system will start POST (Power On Self Test) process.
Selecting the Management Type The following screen will appear after you select the SCSI channel you intend to manage. The menu will list two categories for you to choose what to do with the SCSI channel. Move the cursor to the desired function and press . Configure/View SCSI Controller Settings Use this option for SCSI controller configurations. SCSI Disk Utilities Use this option to manage the attached SCSI device.
5.2.2 Configure/View SCSI Controller Settings There are 8 items in the "Configure/View SCSI Controller Settings" screen. These items display or allow you to change the SCSI controller's settings. Use the arrow keys to highlight the item and then press to select the value you want in each item or enter each item's sub-menu screen. 5.2.2.1 SCSI Bus Interface Definitions SCSI Controller ID The item is used to assign a SCSI ID to the SCSI controller.
5.2.2.2 Additional Options Boot Device Configuration Press to enter the sub-menu screen. Boot SCSI Controllers Select either SCSI channel A (AIC-7902 A) or channel B (AIC-7902 B) to boot up the SCSI subsystem. Boot SCSI ID Specify a SCSI device to become the boot device by selecting its SCSI ID. Setting options: [0]~[15]. Boot LUN Number If a boot device has multiple logical units, you must specify the boot logical unit number (LUN).
SCSI Device Configuration Press and the following sub-menu screen appear. The sub-menu screen allows you to specify the configuration for each device on the SCSI bus. Sync Transfer Rate (MB/Sec) The field allows you to specify the maximum synchronous data transfer rate depending on the type of each SCSI device. Select [ASYN] to enable asynchronous negotiation for some older SCSI devices. Packetized When enabled, the device drivers support this option.
Send Start Unit Command When set to Yes, the SCSI controller sends the Start Unit command to the specified SCSI device during bootup. The interface powers up the SCSI device on-at-a-time during bootup, reducing the load on the computer's power supply. Setting options: [Yes], [No]. BIOS Multiple LUN Support Select [Yes] when any SCSI device has multiple logical units. Setting options: [Yes], [No]. Include in BIOS Scan Selecting [Yes] allows the SCSI controller to control the SCSI device with its SCSI ID.
Advanced Configuration Press to enter the sub-menu screen for advanced configuration. Reset SCSI Bus at IC Initialization Selecting [Enabled] will reset the SCSI bus the first time the SCSI controller is initialized. Setting options: [Enabled], [Disabled]. Display Message During BIOS Initialization When enabled, the message "Press for SCSISelect(TM) Utility" appears on the screen during bootup.
Domain Validation When enabled, these options are available if they are implemented in the device drivers. However, this option is not supported by the BIOS. Support Removable Disks Under Int13 as Fixed Disks When [Boot Only] is selected, only the removable media drive designated as the boot device will be treated as a hard disk drive. When [All Disks] is selected, all removable media drives supported by the BIOS are treated as hard disk drives.
5.2.2.3 BIOS Information Interrupt (IRQ) Channel Displays the IRQ line assigned to the SCSI channel. I/O Port Address Displays the I/O port address assigned to the SCSI channel.
5.2.3 Disk Utilities Select the SCSI device, which you want to manage by highlighting the item and press . The following dialog box appears. Select the function you want to perform. Format Disk The utility performs low-level formatting of a hard disk drive. The function might take several hours to complete. Verify Disk Media This utility verifies that the drive is functioning properly. Verifying function will scan for media defects on the disk.
Xtreme XtremeServer (ServerDome Agent) 83
Part Il.
1. Removing & Installing System Components 1.1 Installing the CD-ROM Drive ① Screw two brackets and the interface board to the CD-ROM. ② Locate the CD-ROM kit right into the place on the chassis and then slide it forward. 1 2 ③ Push the lock tension down to secure the CD-ROM kit. ④ Install the FFC(Flexible Flat Cable) of CD-ROM drive. CAUTION Face the conduct side down and lock the connector to secure the cable. Do not treat the connector by force.
1.2 Installing the Floppy Disk Drive ① Install the FDD with two mounting bracket. ② Install the FDD with two mounting brackets in the plastic housing as shown below. ③ Install the FDD cable to backplane. CAUTION Face the conduct side down and lock the connector to secure the cable. Do not treat the connector by force.
④ Push the button and slide the front LED panel back into the system. To use the FDD, push the blue button and it will come up to the front.
1.3 Installing the Hard Disk Drive ① Remove the blank disk from the disk carrier and secure HDD to the carrier with four screws. Keep the blank disk for the future use. HDD Blank Disk ② Insert the disk carrier into the bay and then close the handle to lock. 1 2 ③ Removing the HDD carrier: push the release button of the carrier and gently pull the drive carrier outward.
1.4 Removing the Power Supply Unit CAUTION In removing the power supply, handle the unit with care because it is heavy. ① Raise the lever up to its full extent. ② Lift up and remove the power supply unit. 1.5 Replacing the Cooling Fan Unit WARNING Do not remove the fan module while operating the system. In installing the fan module, carefully set the unit on the fan connector. ① Push both latches of the fan duct. ② Lift the fan module upward and set it away from the system.
1.6 Replacing the Interface Unit 1.6.1 Interface Board(IFB) Unit and Backplane Unit CAUTION Before installing IFB, remove HDD carrier and locate FDD forward. ① Secure the backplane board on the backplane bracket with two screws and the interface board on the interface bracket with three screws. ② Assemble the interface board unit into the backplane board unit. ③ Install the interface unit into the chassis. ④ Install the cable for FDD, front LED panel and CD-ROM drive.
1.6.2 Installing the Cable ( SCSI, SATA ) Installing the SCSI Cable ① SCSI cable way CAUTION Routing SCSI cable should be prior to installing Interface unit. SCSI Cable SCSI Cable ② Install the interface unit into the chassis and connect the SCSI cable to the backplane. Installing the SATA Cable ① Install the interface unit into the chassis and connect the SATA cable to the backplane.
1.7 Removing the AC Cable Unit ① Remove the power supply unit first. 1 2 ② Push the lever and lift up the AC strip.
1.8 Installing the Motherboard CAUTION In order to remove or install the motherboard, remove the power module, AC strip unit, Interface unit, PCI riser card unit and Cooling FAN unit beforehand. ① Attach two CPU back-plates on the bottom side of motherboard. CAUTION Remove the paper covers from top sides of the heatsink back-plate before use. ② Place the motherboard on the chassis standoffs so that each of the six mounting holes fit over a standoff.
1.9 Installing the Heatsink CAUTION Make sure that thermal interface material should be on the bottom side of the heatsink. Heatsink Processor CPU Socket Heatsink Backplate 1.10 Installing the Front Bezel ① Locate the front bezel on the chassis as shown below. ② Slide the bezel toward the left until it makes the click sound. ③ In removing the bezel, pull up the lever of the rear side bezel and slide it to the right.
Appendix A. BIOS Post Code AMIBIOS8 Check Point and Beep Code List The POST code checkpoints are the largest set of checkpoints during the BIOS pre-boot process. The following table describes the type of checkpoints that may occur during the POST portion of the BIOS. Checkpoint Description Before D0 If boot block debugger is enabled, CPU cache-as-RAM functionality is enabled at this point. Stack will be enabled from this point.
Checkpoint Description DC System is waking from ACPI S3 state 03 Disable NMI, Parity, video for EGA, and DMA controllers. Initialize BIOS, POST, Runtime data area. Also initialize BIOS modules on POST entry and GPNV area. Initialized CMOS as mentioned in the Kernel Variable "wCMOSFlags." 04 Check CMOS diagnostic byte to determine if battery power is OK and CMOS checksum is OK. Verify CMOS checksum manually by reading storage area.
Checkpoint Description 33 Initializes the silent boot module. Set the window for displaying text information. 37 Displaying sign-on message, CPU information, setup key message, and any OEM specific information. 38 Initializes different devices through DIM. See DIM Code Checkpoints section of document for more information. 39 Initializes DMAC-1 & DMAC-2. 3A Initialize RTC date/time. 3B Test for total memory installed in the system. Also, Check for DEL or ESC keys to limit memory test.
Checkpoint Description A9 Wait for user input at configuration display if needed. AA Uninstall POST INT1Ch vector and INT09h vector. De-initializes the ADM module. AB Prepare BBS for Int 19 boot. AC End of POST initialization of chipset registers. B1 Save system context for ACPI. 00 Passes control to OS Loader (typically INT19h).