Table of Contents CHAPTER 1 Introduction..............................................................................................1-1 Package Check List..................................................................................1-1 Feature Summary......................................................................................1-2 Special Features........................................................................................1-3 Major Components.........................................
Frequency/Voltage Control................................................................3-18 Load Performance Defaults...............................................................3-19 Load Optimized Defaults..................................................................3-19 Set Supervisor/User Password...........................................................3-19 Save & Exit Setup...........................................................................3-20 Exit Without Saving.......................
What is RAID.......................................................................................5-14 Installing Software Drivers....................................................................5-14 New Windows 2000/XP Installation.................................................5-14 Existing Windows 2000/XP/98/ME Installation..................................5-15 Confirming Windows 2000/XP Driver Installation..............................5-15 Confirming Windows 98/ME Driver Installation...............
Chapter 1 This chapter entails the newest technology and rich features on the Photon Extreme motherboard.
Reference 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Introduction....................................................1-1 Package Check List...........................................1-1 Feature Summary...........................................1-2 Special Features.............................................1-3 Major Components........................................1-5 Headers and Connectors................................1-7 Jumpers........................................................1-11 Rear Panel.............
1.1 Introduction Thank you for choosing the ECS KV2 Extreme motherboard. 1.2 Package Check List Motherboard User’s Guide Installation CD SATA Power Cable Top Hat Flash I/O Shield Two Streamlined IDE & FDD Ribbon Cable Two SATA Cable Cross Over Cable The KV2 Extreme is the next generation of high performance motherboard designed to support the AMD K8 processors. This motherboard has an ATX form factor that uses a 6-layer printed circuit board and measures 305 mm x 244 mm.
1.
1.4 Special Features Internal I/O • • • • • • • • • • • • Form Factor • • 1 x 20-pin ATX Power Supply Connector & 4-pin 12 V Connector 1 x Floppy connector- supports 360K ~ 2.88M Bytes, 3 Mode FDDs or LS120 3 x IDE connectors 4 x Serial ATA connectors 2 x USB 2.
Cool operations, cool appearance! SATA RAID! Eliminate data highway roadblocks! Smart LAN! Memory module alert! All the USB 2.0 connectivity you’ll ever need! Dr.
1.5 Major Components 1. CPU socket Socket 939 surface mount, Zero Insertion Force socket for AMD K8 Athlon 64 FX Processor support FSB 1000/800/600/400/200 MHz that allows up to 8 GB/s data transfer rates. 2. Dual channel DDR DIMM sockets These four 184-pin DIMM sockets support up to 4GB system memory using unbuffered PC3200/2700/2100/1600 DDR DIMMs. 3.
6. IEEE 1394a controller The IEEE 1394a controller provides high-speed and flexible PC connectivity to a wide range of peripherals and devices compliant to IEEE 1394a standards. The IEEE 1394a interface allows up to 400Mbps tranfer rates. 7. Flash ROM This 4Mb ROM contains the programmable BIOS program. 8. Super I/O (ITE 8705F) controller This Super I/O provides the commonly used functionality.
1.6 Headers and Connectors 1. ATX12V This connector supplies the CPU operation voltage (Vcore). Don’t forget to connect the 4-pin ATX 12V connector, otherwise the system cannot boot up. 2. ATX 1 (ATXPWR, 20 pin) AC power cord should only be connected to your power supply until after ATX power cable and other related devices are firmly connected to the motherboard. Make sure that your ATX12V power supply could provide 8A of 12V and at least 1A on the +5V standby.
3. IDE 1/2 (IDE1/IDE2 Connectors, 40-1 pin, Green and White) These are supported by VIA8237 South Bridge. Please connect the first hard disk to IDE 1 and connect the CD-ROM to IDE 2. The streamline IDE cable must be the same side with the Pin 1. 4. CASFAN1 (Case Fan Connector, 3 pin) This connector allows you to link with the cooling fan on the system case to lower the system temperature. 5.
9. SATA 1/2 (Serial ATA Connectors, 7 pin, Orange) These next generation connectors are delivered by VIA 8237 South Bridge support the thin Serial ATA cables for Serial ATA hard disks. The current Serial ATA interface allows up to 150MB/s data transfer rate, faster than the standard parallel ATA with 133MB/s (UltraATA 133) Attach the 10-1 pin 1394 cable plug from the device to this connector. You may also connect a 1394-compliant internal hard disk to this connector. 12.
These Serial ATA connectors support SATA hard disks that you may configure as a RAID set. Through the onboard SiS180 RAID controller you may create a RAID 0, RAID 1, RAID 0+1, or multiRAID configuration together with the RAID ATA133 connector. 14. FDD1 (Floppy Connector, 34-1 pin, Black) Please connect the floppy drive ribbon cables to FDD. It supports 360K, 12M, 720K, 1.44M and 2.88M bytes floppy disk types. 15. CDIN1 (CD In Connector, 4 pin) Connect CD-ROM or DVD-ROM audio out to the connector. 16.
1.7 Jumpers 1. JP1 (Clear CMOS) This jumper allows you to clear the Real Time Clock (RTC) RAM in CMOS. You can clear the CMOS memory of date, time, and system setup parameters by erasing the CMOS RTC RAM data. Before clearing the CMOS data, make sure to turn the system off.
1.8 Rear Panel 1. PS/2 mouse port This 6-pin connector is for connecting PS/2 mouse. 2. Parallel port This 25-pin port connects a parallel printer, a scanner, or other devices. 3. RJ-45 port This port allows connection to a Local Area Network (LAN) through a network hub. It supports up to 10/100Mbps transfer rate. 4. RJ-45 port This port allows connection to a Local Area Network (LAN) through a network hub. It supports up to Gigabit tranfer rate. 5.
Chapter 2 This chapter explains the hardware setup procedure for this motherboard, such as installing the CPU, memory modules, expansion cards, as well as the jumpers
Reference 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 Installing the CPU..............................................2-1 Installing the CPU cooling FAN.........................2-1 Installing Memory Module.................................2-1 Connecting IDE, Floppy and SATA cable...........2-3 Installing Motherboard in a case.........................2-3 Connecting IDE, Floppy & SATA Device...........2-4 Installing Expansion cards...................................2-4 Connecting the Power supply cable...............
2.1 Installing the CPU 1. Angling the rod to 65-degree may feel tight, continue to pull the rod to 90degree angle. 2. Position the CPU above the socket such that its notched or marked corner matches the socket corner near the base of the lever, while making sure that the CPU is parallel to the socket. Then insert the CPU into the socket. Actual angle Warning: If the CPU does not fit, please change the insert orientation. Do not force the CPU into the socket. 3.
Table A: DDR (memory module) QVL (Qualified Vendor List) The following DDR400 memory modules have been tested and qualified for use with this motherboard.
Table C: Recommended dual-channel DDR configurations DDR1 DDR2 √ √ √ Notes: √ DDR3 DDR4 √ √ √ √ Dual Channel √ √ √ 2.5 Installing Motherboard in a case 1. Place the motherboard over the mounting brackets. 2. Secure the motherboard with screws where appropriate. 1. When using dual channel mode, install only same (same density, DRAM technology and DRAM bus width) module for each deal channel. 2. Please note that those types not in the Table B will not boot up. 3.
2.6 Connecting IDE, Floppy & SATA Device 2.7 Installing Expansion cards 1. If installing two IDE devices on the same ribbon cable, one device must be set to “master” and the other to “slave.” Check the accompanying documents for the master/slave settings of IDE Devices, ie.: the hard disk and CD-ROM drives and then set their jumper caps accordingly. 2. Mount the drives in the case. 3. Connect the floppy disk ribbon cable and power cable. 4. Connect the IDE ribbon cable and power cable. 1.
2.8 Connecting the Power supply cable The ATX power connector is keyed for proper insertion. There are two connectors 4-pin and 20-pin ATX power cable. The plastic clip on the power connector should lock over the plastic tab on the motherboard power connector. 20-pin ATX power connector 4-pin ATX power connector 2.9 Powering up Turn on the power to the monitor and the computer. If necessary, format your hard disk drive and install an operating system.
Chapter 3 In this chapter, you will learn how to adjust the BIOS (Basic Input and Output System) setup menus. It provides information on the system’s configuration status and options to setup system parameters.
Reference 3.1 3.2 Entering the BIOS Setup Menu..........................3-1 Updating and Recovering the BIOS....................3-1 3.2-1 Using AWARD Flash to update your BIOS............3-1 3.2-2 Using ECS EZ Flash to update your BIOS...........3-2 3.2-3 Using ECS Top-Hat Flash to recover your BIOS..3-3 3.3 The Main Menu.................................................3-3 3.3-1 Standard CMOS Features........................................3-3 3.3-2 Advanced BIOS Features.................................
3.1 Entering the BIOS Setup Menu 3.2 Updating and Recovering the BIOS When you power on the system, BIOS enters the Power-On Self Test (POST) routines. POST is a series of built-in diagnostics performed by the BIOS. After the POST routines are completed, the following message appears: A standard configuration has already been set in the Setup Utility. However, if you encounter a configuration error or you need a better performance. You could attempt to update or recover your system BIOS.
6. Type the filename of the new BIOS in the “File Name to Program” text box. Follow the onscreen directions to update the motherboard BIOS. 7. When the installation is complete, remove the floppy diskette from the diskette drive and restart your computer. If your motherboard has a Flash BIOS jumper, reset the jumper to protect the newly installed BIOS from being overwritten. 3.
3.2-3 Using ECS Top-Hat Flash to recover your BIOS 3.3 The Main Menu The ECS Top-Hat Flash kit allow you to restore BIOS from ECS website (www.ecs.com.tw) or ECS support CD, in case you current BIOS on the motherboard or get corrupted, please follow the procedures below to recover your BIOS. 1. Please find the BIOS ROM located on your motherboard. (Figure A) 2. Find the cut edge corner on the Flash ROM. (Figure B) 3. Find the cute edge corner on the Top Hat Flash. (Figure C) 4.
changes to the Windows Date and Time Properties utility. IDE Devices [None] Your computer has two IDE channels (Primary and Secondary) and each channel can be installed with one or two devices (Master and Slave). Use these items to configure each device on the IDE channel.
Halt On [All, But Keyboard] ATA 66/100 IDE Cable Msg (Enabled) This item defines the operation of the system POST (Power On Self Test) routine. You can use this item to select which types of errors in the POST are sufficient to halt the system. Enables or disables the ATA 66/100 IDE Cable Msg. This message will appear during reboot when you use 40-pin cable on your 66/100 hard disks.
searches for an operating system at start-up time. must elapse before a held-down key begins generating repeat characters Boot Other Device [Enabled] Security Option [Setup] When enabled, the system searches all other possible locations for an operating system if it fails to find one in the devices specified under the First, Second, and Third boot devices.
3.3-3 Advanced Chipset Features AGP & P2P Bridge Control (Press Enter) These items define critical timing parameters of the mainboard. You should leave the items on this page at their default values unless you are very familiar with the technical specifications of your system hardware. If you change the values incorrectly, this may cause fatal errors or instability into your system.
AGP Driving Control (Auto) This item is used to signal driving current on AGP cards to auto or manual. Some AGP cards need stronger than normal driving current in order to operate. We recommend that you set this item to the default. • AGP Driving Value: When AGP Driving Control is to set Manual, use this item to set the AGP current driving value. AGP Fast Write (Disabled) This item lets you enable or disable the caching of display data for the video memory of the processor.
strobe). It is recommended that you leave this item at the default value. The 2T setting requires faster memory that specifically supports this mode. Upstream/Downstream LDT Bus Width (16 bit) This item specifies the RAS# to CAS# delay to Rd/Wr command to the same bank. The LDT bus (Lighting Data Transport) is the bus between the North and South Bridge, and boosts no less that 6.4 GB/sec on a 16 bit upstream and a 16 bit downstream dataflow.
Init Display First (PCI Slot) Use this item to specify whether your graphics adapter is installed in one of the PCI slots or is integrated on the motherboard 3.3-4 Integrated Peripherals These options display items that define the operation of peripheral components on the system’s input/output ports.
IDE Prefetch Mode (Enabled) The onboard IDE drive interface supports IDE prefetching, for faster drive access. If you install a primary and secondary add-in IDE interface, set this field to Disabled if the interface does not support prefetching. Primary/Secondary Master/Slave PIO (Auto) Each IDE channel supports a master device and a slave device. These four items let you assign the kind of PIO (Programmed Input/Output) was used by the IDE devices.
OnChip USB Controller (All Enabled) Enable this item if you plan to use the Universal Serial Bus ports on this motherboard. USB 2.0 Support (Enabled) Enable this item if your system supports USB 2.0. USB Legacy Support (Enabled) This item allows the BIOS to interact with a USB keyboard or mouse to work with MSDOS based utilities and non-Windows modes.
Parallel Port Mode (ECP) Enables you to set the data transfer protocol for your parallel port. There are four options: SPP (Standard Parallel Port), EPP (Enhanced Parallel Port), ECP (Extended Capabilities Port) and ECP+EPP. SPP allows data output only. Extended Capabilities Port (ECP) and Enhanced Parallel Port (EPP) are bi-directional modes, allowing both data input and output. ECP and EPP modes are only supported with EPP- and ECP-aware peripherals. 3.
HDD Power Down [Disabled] to hold the power button down for four seconds to cause a software power down. The IDE hard drive will spin down if it is not accessed within a specified length of time. Run VGABIOS if S3 Resume [Auto] Suspend Mode [Disabled] The CPU clock will be stopped and the video signal will be suspended if no Power Management events occur for a specified length of time. Full power function will return when a Power Management event is detected.
PS2KB Wakeup Select (Hot key) This option allows you to set hot key combination to turn on the system by keyboard. PS2KB/MS Wakeup from S1-S3 (Disabled) This option enables you to allow keyboard or mouse activity to awaken the system from power saving mode. • Power Button Lock for S3 (Disabled): When this item is disabled, power button will not be locked. PowerOn by PCI Card (Enabled) Use this item to enable PCI activity to wakeup the system from a power saving mode.
IRQs Activity Monitoring (Press Enter) This screen enables you to set IRQs that will resume the system from a power saving mode.
Resources Controlled By [Auto(ESCD)] 3.3-7 PC Health Status You should leave this item at the default Auto (ESCD). Under this setting, the system dynamically allocates resources to Plug and Play devices as they are required. On motherboards that support hardware monitoring, this item lets you monitor the parameters for critical voltages, temperatures and fan speeds.
3.3-8 Frequency/Voltage Control Auto Detect PCI/DIMM Clk (Enabled) This item enables you to set the clock speed and system bus for your system. The clock speed and system bus are determined by the kind of processor you have installed in your system. Phoenix-AwardBIOS CMOS Setup Utility Frequency/Voltage Control DIMM Voltage Adjust AGP Voltage Regulator Auto Detect PCI Clk Spread Spectrum Async AGP clock control Hammer Fid control Hammer Vid control CPU Clock Turbo Performance [2.60V] [1.
3.3-9 Load Performance Defaults This option opens a dialog box that lets you install performance defaults for all appropriate items in the Setup Utility: Press and the to install the defaults. Press and then to not install the defaults. If you want to make your system for greater effectiveness, then install the performance defaults. If you only want to install performance defaults for a specific option, select and display that option, and then press .
Supervisor Password has higher priority than User Password. You can use Supervisor Password when booting the system or entering BIOS Setup to modify all settings. Also you can use User Password when booting the system or entering BIOS Setup but can not modify any setting if Supervisor Password is enabled. 3.3-12 Save & Exit Setup Highlight this item and press to save the changes that you have made in the Setup Utility and exit the Setup Utility.
Chapter 4 This chapter delivers contents of the ECS support CD.
Reference 4.1 4.2 4.3 4.4 4.5 4.6 Software CD Information...................................4-1 Running the Software CD..................................4-1 Setup Tab..........................................................4-1 Application Tab..................................................4-2 Read Me Tab....................................................4-2 Software Utilities Introduction............................
4.1 Software CD Information 4.3 Setup Tab The support software CD-ROM that is included in the motherboard package contains all the drivers and utility programs needed to properly run the bundled products. Below you can find a brief description of each software program, and the location for your motherboard version. More information on some programs is available in a README file, located in the same directory as the software. The setup tab shows three buttons - Setup, Browse CD, Exit.
2. Click Next. The following screen appears: 4. Follow the instructions on the screen to install the items. Drivers and software are automatically installed in sequence. Follow the onscreen instructions, confirm commands and allow the computer to restart a few times to complete the installation. Browse CD button: The Browse CD button is the standard Windows Exit button: 3. Check the box next to the items you want to install. The default options are recommended.
erase the current BIOS and fail to write a new BIOS, or write a new WinCinema BIOS that is incorrect, your system will malfunction. Refer to Chapter 3 “Using BIOS” for more information. WinFlash Utility The AWARD WinFlash utility is a Windows version of the DOS Award BIOS flash writer utility. The utility enables you to flash the system BIOS stored on a Flash Memory chip on the motherboard while in a Windows environment. This utility is currently available for WINXP\ME\2000\ 98SE.
Pro Magic This amazing software not only provides users with convenient and instant restoration of your computer, but also restores within seconds important data back to the preferred state at a specific point in time. Pro Magic also combines several other functions including anti-virus, backup, uninstall software and multi-booting to satisfy all your system protection needs.
other is to update a new BIOS. EZ-Flash only supports under Windors 2000/XP. MyPic User can build their own BIOS image which will display a customized picture at the boot-up time. MyPic only supports Windows 2000/XP which is an application to make a rom file.
Chapter 5 In this chapter, you will learn how to create Serial ATA/Ultra RAID and the type of RAID we support.
Reference 5.1 VIA RAID Configurations.................................5-1 5.1-1 Install the Serial ATA (SATA) hard disks.............5-1 5.1-2 Entering VIA Tech RAID BIOS Utility...................5-2 5.1-3 Create Array..............................................................5-3 5.1-4 RAID 0 for performance...........................................5-3 5.1-5 RAID 1 for data protection.....................................5-4 5.1-6 Delete Array............................................................
5.1 VIA RAID Configurations JBOD will not increase any performance or data security. The motherboard includes a high performance Serial ATA RAID controller integrated in the VIA VT8237 Southbridge chipset. It supports RAID 0, RAID 1 and JBOD with two independent Serial ATA channels. RAID: (Redundant Array of Independent Disk Drives) use jointly several hard drives to increase data transfer rates and data security.
new Serial ATA cable (4-conductor) which supports the Serial ATA protocol and a Serial ATA power cable. iii Either end of the Serial ATA data cable can be connected to the SATA hard disk or the SATA connector on the motherboard. 1 2 3 4 5 6 7 Install the Serial ATA hard disks into the drive bays. Connect one end of the Serial ATA cable to the motherboard’s primary Serial ATA connector (SATA1). Connect the other end of Serial ATA cable to the master Serial ATA hard disk.
F1 ↑↓ Enter ESC View Array Move to the next item Confirm the selection Exit 5.1-4 RAID 0 for performance 1 Select the second option item Array Mode, then press the key. The RAID system setting pop-up menu appears. 2 Select RAID 0 for performance from the menu and press . From this point, you may choose to auto-configure the RAID array by selecting Auto Setup for Performance or manually configure the RAID array for stripped sets.
Use arrao keys to move selection bar on items and press to select. 5 2 Select RAID 1 for data protection from the menu and press . Select next task from pop-up menu. The task Create only creates the mirrored set without creating a backup. Create and duplicate creates both mirrored set and backup. 3 Select task and press . The screen returns to Create Array menu items.
5.1-7 Select Boot Array 1 Press “Y” to confirm or “N” to return to the configuration options. 5.1-6 Delete Array 1 2 In the VIA RAID BIOS utility main menu, select Delete Array then press the key. The focus is directed to the list of channel used for IDE RAID arrays. Press the key to select a RAID array to delete. The following confirmation message appears. 2 In the VIA RAID BIOS utility main menu, select Boot Array then press the key.
. Serial Number View 5.1-8 1 In the VIA RAID BIOS utility main menu, select Serial Number View then press the key. The focus is directed to the list of channel used for IDE RAID arrays. Move the selection bar on each item and the serial number is displayed at the bottom of the screen. This option is useful for identifying same model disks. 5.
5.1-10 Rebuild Broken RAID 1 Array When booting up the system, BIOS will detect if any member disk drives of RAID has failed or is absent. If BIOS detects any disk drive failures or missing disk drives, the status of the array will be marked as broken. If BIOS detects a broken RAID 1 array but there is a spare hard drive available for rebuilding the broken array, the spare hard drive will automatically become the mirroring drive. BIOS will show a main interface just like a duplicated RAID 1.
2. Destroy the Mirroring Relationship: This item cancels the data mirroring relationship of the broken array. For broken RAID 1 arrays, the data on the surviving disk will remain after the destroy operation. However, Destroy the Mirroring Relationship is not recommended because the data on the remaining disk will be lost when the hard drive is used to create another RAID 1 array. Highlight the target hard drive and press , a warning message will appear.
5 6 from the list that appears on Windows XP Setup screen, press the key. Press to continue with installation or if you need to specify any additional devices to be installed, do so at this time. Once all devices are specified, press to continue with installation. From the Windows XP Setup screen press the key. Setup will now load all device files and the continue the Windows XP installation.
The InstallShield Wizard will begin automatically for installation. Click on the Next button to proceed the installation in the welcoming window. 5.3 Using VIA RAID Tool Once the installation is complete, go to Start---> Programs---> VIA---> raid_tool.exe to enable VIA RAID Tool. Put a check mark in the check box to install the feature you want. Then click Next button to proceed the installation. After the software is finished installation, it will automatically started every time Windows is initiated.
The main interface is divided into two windows and the toolbar above contain the main functions. Click on these toolbar buttons to execute their specific functions. The left windowpane displays the controller and disk drives and the right windowpane displays the details of the controller or disk drives. The available features are as following: Click on or button to determine the viewing type of left windowpane. There are two viewing types: By controllers and by device.
You may also use the same Array 0--RAID 1. 5-12 or button to view the statuses of Click on the plus (+) symbol next to Array 0; RAID 1 to see the details of each disk.
5.4 Introduction for SiS180 RAID Function The 180 S-ATA controller is a hybrid solution that combines two independent SATA ports and one Ultra ATA port for support of up to two Serial ATA (Serial ATA RAID) and two Ultra ATA (Ultra ATA RAID) drives. 5.
5.7 What is RAID? This section will give you an overview about the RAID system and introduce the basic background and glossary which you need to know before using “SiS RAID Controller Application”. 1. RAID: (Redundant Array of Independent Disk Drives) use jointly several hard drives to increase data transfer rates and data security. It depends on the number of drives present and RAID function you select to fulfill the security or performance purposes or both. 2. RAID 0: Also known as “Stripping”.
that appears on screen, and then press the Enter key. 5. Press Enter to continue with installation or if you need to specify any additional devices to be installed, do so at this time. Once all devices are specified, Press Enter to continue with installation. 6. From the Windows 2000/XP Setup screen, press the Enter key. Setup will now load all device files and then continue the Windows 2000/XP installation. 7. Please install the driver package again (ex. SiS RAID driver v1.
5.9-2 Create RAID ♦ SIS 180 controller support RAID 0, RAID 1, JBOD and RAID 0+1. 5.9-3 Creating a RAID 0 (Stripe) Array for Performance 3. You can press key to select the boot disk on the 180 controller. The yellow highlight will show on the disk and you can switch it to select the disk you wanted. Press “Enter” key to select it and the selected boot device will be marked by “*”. The default boot device will be set as Disk 1. 4. Press to display the RAID setup menu below.
8. Besides, you also can select <2>Manual Create, see following steps. 4. Press <1>-<5> keys and to select Block Size. (Default:64K) 5. Use < > < > to select disk, and press to select disk, to exit. When you press on the disk you wanted, the RAID Type will be changed from Single to RAID 0. An the disk you select first will be the SOURCE disk. 6. Next, you will see a message “Split the SOURCE(DISK x) data to RAID disks?”.
. 7. Starting splitting action, the following frame will be shown. 8. After all steps finished, press , until escape the setup menu and RAID 0 array will be show on the top of the main frame. 5-18 9. Press again to exit this BIOS utility and the red message frame will show. Press and to save changes. 10. Once the array has been created, you will need to FDISK and format the array as if it were a new single hard drive.
5.9-4 Creating a RAID 1 (Mirror) Array ♦ SIS180 enables users to create Mirror arrays with 2 drives only. To create a Mirror array, follow these steps: 1. Press to start creating a RAID array. 2. Press <3> and to select Mirror. 3. You will have two selections to create a RAID 1 array. The default value is <1>. If you select <1>Auto Create, you can create a RAID 1 array faster and easier. The result after creating will be show on step 7.
6. Starting duplicating action, the following frame will be showing. 8. Press again to exit this BIOS utility and the red message frame will show as the same as the creation of the RAID 0 array. Press and to save changes. 9. Once the array has been created, you will need to FDISK and format the array as if it were a new single hard drive. 5.9-5 Creating a JBOD Array ♦ SIS180 enables users to create JBOD arrays with 2, 3, or 4 drives. To create an JBOD array, follow these steps: 7.
on step 5. Besides, you also can select <2>Manual Create, see following steps. 4. Use < > < > to select disk, and press to select disk, to exit. When you press on the disk you wanted, the RAID Type will be changed from Single to JBOD. 5. After all steps finished, press until escape the setup menu and JBOD array will be show on the top of the main frame. 6.
5. Use < > < > to select disk, and press to select disk. to exit. When you press on the disk you wanted, the RAID Type will be changed from Single to RAID 0+1. 3. You will have two selections to create a RAID 0+1 array. The default value is <1>. If you select <1>Auto Create, you can create a RAID 0+1 array faster and easier. The result after creating will be show on step 6. Besides, you also can select <2>Manual Create, see following steps. 4.
7. Press again to exit this BIOS utility and the red message frame will show as the same as the creation of the RAID 0 array. Press and to save changes. Remark: On DOS, it can’t support RAID 0+1 function. So you can’t use FDISK to format the array as if it were a new single hard driver. If you want to format this single hard driver, you must need to use disk manager of OS to format it.
CPU Chipset Mémoire • • • • • • Socket 939 pour processeur AMD Athlon 64 FX Interface de CPU HyperTransport de Haute performance Vitesse de transfert de 2000/1600/1200/800/400 MT/s VIA K8T800 PRO & 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 • • Architecture mémoire DDR double canal 4 x sockets DIMM DDR 184 broches prenant en charge jusqu’à 4 Go Prend en charge les SDRAM DDR sans mémoire tampon DDR400/333/266/200 1 x logement AGP 8X/4X 5 x logements PCI • Options d’extension • • Stockag
Français E/S interne • • Facteur de Forme • • • • • • • • • • • • 1 x Connecteur d’alimentation ATX 20 broches & Connecteur 12 V 4 broches 1 x connecteur de lecteur de disquette- prenant en charge 360K ~ 2,88M octets, 3 Lecteurs de disquettes Modes ou LS120 3 x connecteurs IDE 4 x connecteurs ATA Série 2 x embases USB 2.
CPU • • • Sockel 939 für AMD Athlon 64 FX Prozessor Hochleistungs-HyperTransport-CPU-Schnittstelle Übertragungsgeschwindigkeiten: 2000/1600/1200/800/400 MT/s IEEE 1394a • • VIA VT6307 IEEE1394a Controller Unterstützt 2 x IEEE1394a Anschlüsse Chipsatz • • • VIA K8T800 PRO & 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 Audio • • Realtek ALC655 6-Kanal Audio CODEC Entspricht AC’97 2.
Deutsch Internes I/O Formfaktor • • • • • • • • • • • • 1 x 20-Pin ATX Netzteilanschluss & 4-Pin 12 V Anschluss 1 x Floppylaufwerkanschluss, unterstützt 360K ~ 2.88M Bytes, 3 Modus Festplatten oder LS120 3 x IDE Anschlüsse 4 x Seriell ATA Anschluss 2 x USB 2.
Presa 939 per processore AMD Athlon 64 FX Interfaccia per CPU HyperTransport ad elevata prestazione Velocità di trasferimento 2000/1600/1200/800/400 MT/s CPU • • • Chipset • • • Memoria • • • Dual-channel DDR memory architecture 4 x 184-pin DDR DIMM socket che supportano sino a 4 GB Supporta DDR400/333/266/200 unbuffered DDR SDRAM Opzioni d’espansione • • 1 x slot AGP 8X/4X 5 x slot PCI Deposito • Supportato da VIA8237 - 4 x dispositivi Ultra DMA133/100/66 - 2 x dispositivi SATA - configurazion
I/O interno • Italiano • • • • • • • • • • 1 x connettore di alimentazione 20-pin ATX e connettore 4-pin da 12 V 1 x connettore floppy - supporta 360K ~ 2.88M Byte, 3 Mode FDDs o LS120 3 x connettori IDE 4 x connettori seriali ATA 2 x supporti header USB 2.
CPU • • • Socket 939 para procesador AMD Athlon 64 FX Interfaz HyperTransport CPU de Alto Rendimiento Índice de transferencia de 2000/1600/1200/800/400 MT/s IEEE 1394a • • Controlador VIA VT6307 IEEE1394a Soporta 2 x conectores IEEE1394a Chipset • • • VIA K8T800 PRO & 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 Audio • • Realtek ALC655 6-channel audio CODEC Conforme con la especificación AC’97 2.
I/O Interno Español Factor de Forma • • • • • • • • • • 1 x Conector de Suministro 20-pin ATX & Conector 4-pin 12 V 1 x conector Floppy - soporta 360K ~ 2.88M Bytes, FDD de 3 Modos o LS120 3 x conectores IDE 4 x conectores Serial ATA 2 x cabezales USB 2.
CPU Chipset Memória Opções de expansão Armazenamento • • • • • • Tomada de parede 939 para processador AMD Athlon 64 FX Interface CPU HyperTransport de alta performance Taxa de transferência de 2000/1600/1200/800/400 MT/s VIA K8T800 PRO & 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 • • • Arquitectura de memória DDR bicanal 4 x Tomada de parede 184 pinos DDR DIMM suporta até 4 GB Suporta DDR400/333/266/200 sem buffers DDR SDRAM • • 1 x Ranhura AGP 8X/4X 5 x Ranhuras PCI • Suportado por
I/O interno • • Português • • • • • • • • • • Coeficiente de Forma • • 1 x Conector de Fonte de Alimentação 20 pinos ATX & Conector 4 pinos 12 V 1 x Conector flexível - suporta 360K ~ 2.88M Bytes, FDDs de 3 Modos ou LS120 3 x Conectores IDE 4 x Conectores de série ATA 2 x Colector USB 2.
プロセッサ • • • チップセット • • • メモリ • • • AMD Athlon 64 FXプロセッサ用のSocket 939 高性能HyperTransport CPU インターフェース 転送率が2000/1600/1200/800/400 MT/s VIA K8T800 PRO & 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 デュアルチャネルDDRメモリのアーキテクチャ 4つの184ピンDDR DIMMソケットで最大4 GBまでサ ポート DDR400/333/266/200 非バッファーDDR SDRAMをサポート 拡張スロット • • 1つのAGP 8X/4X スロット 5つのPCI スロット 保存装置 • VIA8237チップセットがサポートするのは - 4つのUltra DMA133/100/66 デバイス - 2つのSATA デバイス - RAID 0とRAID 1 構成 SiS180がサポートするのは - 2つのUltra DMA133/100/66 デバイス - 2つのSATA デバイス
内部入出力 • • 日本語 • • • 寸法 • • • • • • • • • 1 つの20ピンATX 電源サプライコネクタと4ピン12 V コネ クタ 1つのフロッピーディスクドライブコネクタ、360Kから 2.88Mバイトの3 Mode FDDとLS120をサポート 3つのIDEコネクタ 4つのシリアルATAコネクタ 2つのUSB 2.
• • • • • • AMD 애슬론 64 FX 프로세서를 위한 소켓 939 고성능의 HyperTransport CPU 인터페이스 전송 속도 2000/1600/1200/800/400 MT/s VIA K8T800 PRO & 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 • • • 듀얼 채널 DDR 메모리 아키텍처 4 x 184 핀 DDR DIMM 소켓, 최대 4 GB 지원 DDR400/333/266/200 unbuffered DDR SDRAM 지원 확장 옵션 • • 1 x AGP 8X/4X 슬롯 5 x PCI 슬롯 저장 • VIA8237 지원 - 4 x Ultra DMA133/100/66 장치 - 2 x SATA 장치 - RAID 0 및 RAID 1 구성 SiS180 지원 - 2 x Ultra DMA133/100/66 장치 - 2 x SATA 장치 - RAID 0, RAID 1, RAID 0+1 구성 CPU 칩셋 메모리 • IEE
내부 I/O 한국어 규격 • • • • • • • • • • • • 1 x 20 핀 ATX 파워 써플라이 커넥터 및 4 핀 12 V 커넥터 1 x 플로피 커넥터- 360K ~ 2.88M Bytes, 3 모드 FDD 또 는 LS120 지원 3 x IDE 커넥터 4 x 시리얼 ATA 커넥터 2 x USB 2.
㆗央處理器 晶片組 記憶體 • • • • • • AMD Athlon 64 FX 處理器用Socket 939 高效能HyperTransport CPU介面 傳輸速率2000/1600/1200/800/400 MT/s VIA K8T800 PRO & 8237 北橋晶片: VIA K8T800 PRO 南橋晶片: VIA 8237 ‧ 雙通道DDR 記憶體架構 ‧ 4個184針DDR DIMM 插槽支援㉃4 GB ‧ 支援DDR400/333/266/200 無緩衝DDR SDRAM 擴充槽 ‧ 1個AGP 8X/4X 槽 ‧ 5個PCI槽 儲存裝置 ‧ 以VIA8237晶片支援 - 4個Ultra DMA133/100/66 裝置 - 2個SATA 裝置 - 支援RAID 0及RAID 1 設定 ‧以 SiS180支援 - 2個Ultra DMA133/100/66 裝置 - 2個 SATA 裝置 - 支援RAID 0、RAID 1、及 RAID 0+1 設定 IEEE 1394a • • VIA VT6307 IEEE1394a 控制器 支援2個IEEE1394a 連接器
內部輸出入 介面 • • 繁體㆗文 • • • • • • • • • • 主機板尺寸 • • 1個20針ATX 電源供應器連接器及1個4針12 V連接器 1個軟碟機連接器,可支援360K㉃2.88M位元組之3 Mode 軟碟機及LS120軟碟機 3個IDE連接器 4個序列ATA 連接器 2個USB 2.
• • • • • • 用于AMD Athlon 64 FX 处理器的 Socket 939 插座 高性能超级传输(HyperTransport)CPU 接口 传输速率 2000/1600/1200/800/400 MT/s VIA K8T800 PRO & 8237 北桥:VIA K8T800 PRO 南桥:VIA 8237 • • • 双通道 DDR 内存架构 4 个 184 线 DDR DIMM 插槽,内存最大可支持 4 GB 持 DDR400/333/266/200非缓冲DDR SDRAM 扩展选项 • • 1 个 AGP 8X/4X 插槽 5 个 PCI 插槽 存储 • 支持 VIA8237 - 4 个 Ultra DMA133/100/66 设备 - 2 个 SATA 设备 - RAID 0 和 RAID 1 配置 支持 SiS180 - 2 个 Ultra DMA133/100/66 设备 - 2 个 SATA 设备 - RAID 0, RAID 1, RAID 0+1 配置 CPU 芯片组 内存 • IEEE 1394a • • VIA VT6307 IEEE13
集成 I/O 简体中文 外形 • • • • • • • • • • • • • • 1 个 20 针 ATX 电源接口和 1 个 4 针 12 V 接口 1 个软驱接口- 支持 360K ~ 2.88M 字节,3 Mode FDD 或 LS120 3 个 IDE 接口 4 个串行 ATA 接口 2 个 USB 2.
• Разъем 939 для процессоров AMD Athlon 64 FX Интерфейс HyperTransport CPU с высокой пропускной способностью Скорость передачи данных 2000/1600/1200/800/400 MT/сек Чипсет • • • VIA K8T800 PRO и 8237 Северный мост: VIA K8T800 PRO Южный мост: VIA 8237 Память • • Архитектура памяти Dual-channel DDR • Поддержка DDR400/333/266/200 и небуферизуемой памяти DDR SDRAM CPU • • 4 184-штырьковых разъема DDR DIMM с поддержкой до 4 ГБ памяти Возможности расширения • • 1 разъем AGP 8X/4X 5 разъемов PCI Мас
Стандарт Внутренние гнезда входа/ выхода • • • • • • • • 1 20-штырьковое гнездо питания ATX и 4-штырьковое гнездо 12 V 1 гнездо подключения накопителя НГМД с поддержкой форматов 360K ~ 2.88MБ, 3 формата FDD или LS120 3 гнезда IDE 4 гнезд Serial ATA 2 гнезда USB 2.
Cechy Chipset Pamięć • • • • • • • • • Możliwości rozbudowy • • Urządzenia pamięc masowej • Gniazdo 939 dla procesorów AMD Athlon 64 FX Złącze szybkiego transpotu danych HyperTransport CPU Interface Szybkość przesyłania danych 2000/1600/1200/800/400 MT/s VIA K8T800 PRO & 8237 Mostek północny: VIA K8T800 PRO Mostek południowy: VIA 8237 Architektura pamięci dwukanałowej DDR Cztery 184 nóżkowe złącza DDR DIMM obsługujące do 4 GB pamięci Obsługa pamięci typu DDR400/333/266/200 i niebuforowanej pamięci
Wewnętrzne gniazda We/Wy • • • • • • • • • • • • Polski Wymiary • • 1 gniazdo 20-nóżkowe zasilacza ATX i 4-nóżkowe gniazdo zasilania 12 V 1 gniazdo napędu dyskietek, obsługuje formaty 360K ~ 2.88M Bajt, 3 Mode FDD lub LS120 3 złącza IDE 4 złącz Serial ATA 2 złącza USB 2.
CPU • • • Patice 939 pro procesory AMD Athlon 64 FX Vysoce výkonné rozhraní HyperTransport CPU Přenosové rychlosti 2000/1600/1200/800/400 MT/s IEEE 1394a • • Řadič VIA VT6307 IEEE1394a Podpora 2 portů IEEE 1394a Čipová sada • • • VIA K8T800 PRO a 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA8237 Zvuk • • 6kanálový zvukový kodek Realtek ALC655 Splňuje požadavky standardu AC’97 2.
Interní vstupy/ výstupy • • • • • • • • • • • • 1x 20kolíkový napájecí konektor ATX a 4kolíkový konektor 12 V 1x konektor floppy diskových mechanik – podpora 360 kB až 2,88 MB, 3 režimy FDD nebo LS120 3x konektor IDE 4x konektor Serial ATA 2x rozhraní USB 2.
Sumarul caracteristicilor • Unitatea centrală (CPU) •• Soclu 939 pentru procesoare AMD Athlon 64 FX Interfaţă CPU HyperTransport de înaltă performanţă Viteză de transfer de 2000/1600/1200/800/400 MT/s IEEE 1394a • • Controler VIA VT6307 IEEE1394a suportă două conectoare IEEE1394a Set de chipuri • VIA K8T800 PRO şi 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 Audio • • CODEC audio Realtek ALC655 cu 6 canale Compatibil cu specificaţia AC’97 2.
I/O internă • • • • • • • • • • • • Caracteristici • • externe Un conector cu 20 ace pentru alimentare cu energie şi conector de 12 V cu 4 ace Un conector Floppy, pentru dischete de 360 KB–2,88 MB, FDD cu 3 moduri sau LS120 Trei sloturi IDE Patru conectoare ATA seriale Două conectoare USB 2.
Параметри • • • сокет 939 за процесор AMD Athlon 64 FX високопроизводителен интерфейс HyperTransport скорост на обмен на данни 2000/1600/1200/800/400 MT/s Чипсет • VIA K8T800 PRO & 8237 Северен мост: VIA K8T800 PRO Южен мост: VIA 8237 Памет • • • • • • Слотове за разширяване • Възможности • за съхраняване на данни • двуканална архитектура на паметта DDR 4 слота 184-pin DDR DIMM с поддръжка на общ капацитет до 4 GB поддръжка на модули DDR400/333/266/200 небуферирана DDR SDRAM 1 слот AGP 8X/4X 5 сло
Интегриран • Вход/Изход • контролер • • • Размери • • • • • • • • • 1 конектор 20-pin ATX Power Supply и конектор 4-pin 12 V 1 конектор за флопидисково устройство с поддръжка на устройства 360K ~ 2.88M Bytes, 3 Mode или LS120 3 конектора IDE 4 конектора Serial ATA 2 колектора USB 2.
Jellemzők összefoglalása • • IEEE 1394a • • 939 foglalat AMD Athlon 64 FX processzornak Nagy teljesítményű HyperTransport technologiás központi egység interfész 2000/1600/1200/800/400 MT/s átviteli sebesség Lapkakészlet • • • VIA K8T800 PRO és 8237 North Bridge: VIA K8T800 PRO South Bridge: VIA 8237 Audio • • Memória • • • Duál csatornás DDR memória kiépítés Négy 184 tűs DDR DIMM foglalat, maximum 4 GB kapacitással Puffermentes DDR400/333/266/200 DDR SDRAM memóriaegységek támogatása Duál LAN •
Belső I/O • • • • • • • • • • • • Alaki jellemzők • • Egy 20 tűs ATX tápforrás csatlakozó és négytűs 12 V-os csatlakozó Egy floppy meghajtó 360 kB–2,88 MB lemezeknek, 3 üzemmódú FDD meghajtók vagy LS120 Három IDE foglalat Négy soros ATA csatlakozó Két USB 2.
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Declaration of Conformity This device complies with part 15 of the FCC rules. Operation is subject to the following conditions: - This device may not cause harmful interference, and - This device must accept any interference received, including interference that may cause undesired operation. Canadian Department of Communications This class B digital apparatus meets all requirements of the Canadian Interference-causing Equipment Regulations.
