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Preface Copyright This publication, including all photographs, illustrations and software, is protected under international copyright laws, with all rights reserved. Neither this manual, nor any of the material contained herein, may be reproduced without written consent of the author. Version 1.0b Disclaimer The information in this document is subject to change without notice.
Cet appareil numérique de la classe B respecte toutes les exigences du Réglement sur le matériel brouilieur du Canada. About the Manual The manual consists of the following: Chapter 1 Describes features of the motherboard. Introducing the Motherboard Go to page Describes installation of motherboard Chapter 2 components.
Motherboard Components................4 7 7 7 7 7 Chapter 2 Installing the Motherboard Safety Precautions..................7 Choosing a Computer Case...............7 Installing the Motherboard in a Case............7 Checking Jumper Settings.................8 Setting Jumpers................8 Checking Jumper Settings..............9 Jumper Settings................9 Connecting Case Components...............10 Front Panel Connector..............11 Installing Hardware...................12...
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Load Optimized Defaults.............47 Set Password................47 Save & Exit Setup Option.............48 Exit Without Saving..............48 Chapter 4 49 49 49 49 Using the Motherboard Software About the Software CD-ROM..............49 Auto-installing under Windows 98/ME/2000/XP........49 Running Setup................50 Manual Installation..................52 Utility Software Reference...............52 Chapter 5...
150. SiS964 provide dual independent IDE channels and each of them support PIO mode 0,1,2,3,4 and multiword DMA mode 0,1,2 and UltraDMA 133/100/66. The 661GX/800-M motherboard is equipped with advanced full set of I/O ports in the rear panel, including PS/2 mouse and keyboard connectors, COM1, VGA1, LPT1, four USB ports, one optional LAN port, and audio jacks for microphone, line-in and line-out.
Audio • 16-bit Stereo full-duplex CODEC with 48KHz sampling rate • Compliant with AC’97 2.3 specifications • High quality differential CD input • Supports double sampling rate (96KHz) of DVD audio playback • Direct Sound 3D compatible Introducing the Motherboard...
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Four USB ports • One LAN port (optional) • Audio jacks for microphone, line-in and line-out BIOS Firmware This motherboard uses Award BIOS that enables users to configure many system features including the following: • Power management • Wake-up alarms •...
Motherboard Components Introducing the Motherboard...
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18 PCI1~PCI3 32-bit add-on card slots 19 AGP1 Accelerated Graphics Port slot 20 AUDIO1 Front panel audio header 21 ATX2 Auxiliary 4-pin power connector This concludes Chapter 1. The next chapter explains how to install the motherboard. Introducing the Motherboard...
Most cases have a choice of I/O templates in the rear panel. Make sure that the I/O template in the case matches the I/O ports installed on the rear edge of the motherboard. This motherboard carries a Micro ATX form factor of 244 x 244 mm. Choose a case that accommodates this form factor.
Do not over-tighten the screws as this can stress the motherboard. Checking Jumper Settings This section explains how to set jumpers for correct configuration of the motherboard. Setting Jumpers Use the motherboard jumpers to set system configuration options. Jumpers with more than one pin are numbered.
Checking Jumper Settings The following illustration shows the location of the motherboard jumpers. Pin 1 is labeled. Jumper Settings Type Jumper Description Setting (default) 1-2: NORMAL 2-3: CLEAR 3-pin CLEAR CMOS Before clearing the CMOS, make sure to turn off the system.
Connecting Case Components After you have installed the motherboard into a case, you can begin con- necting the motherboard components. Refer to the following: Connect the CPU cooling fan cable to CPUFAN1. Connect the case cooling fan connector to CASFAN1.
FP PWR/SLP *MSG LED+ HD_LED_N Hard disk LED- FP PWR/SLP *MSG LED- RST_SW_N Reset Switch PWR_SW_P Power Switch RST_SW_P Reset Switch PWR_SW_N Power Switch RSVD Reserved 10 Key No pin * MSG LED (dual color or single color) Installing the Motherboard...
You may be able to change these settings by making changes to jumpers on the motherboard, or changing the settings in the system Setup Utility. We strongly recommend that you do not over-clock processors or other components to run faster than their rated speed.
This motherboard has a Socket 478 processor socket. When choosing a processor, consider the performance requirements of the system. Performance is based on the processor design, the clock speed and system bus frequency of the processor, and the quantity of internal cache memory and external cache memory.
128 MB to 1 GB of memory; total memory capacity is 2 GB. Do not remove any memory module from its antistatic packaging until you are ready to install it on the motherboard. Handle the modules only by their edges. Do not touch the components or metal parts. Always wear a grounding strap when you handle the modules.
About IDE Devices Your motherboard has a primary and secondary IDE channel interface (IDE1 and IDE2). An IDE ribbon cable supporting two IDE devices is bundled with the motherboard. You must orient the cable connector so that the pin1 (color) edge of the cable correspoinds to the pin 1 of the I/O port connector.
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To install the Serial ATA (SATA) hard drives, use the SATA cable that supports the Serial ATA protocol. This SATA cable comes with an SATA power cable. You can connect either end of the SATA cable to the SATA hard drive or the connector on the motherboard. SATA cable...
Installing a Floppy Diskette Drive The motherboard has a floppy diskette drive (FDD) interface and ships with a diskette drive ribbon cable that supports one or two floppy diskette drives. You can install a 5.25-inch drive and a 3.5-inch drive with various capacities. The floppy diskette drive cable has one type of connector for a 5.25-inch drive and another type of connector for a 3.5-inch drive.
Installing Add-on Cards The slots on this motherboard are designed to hold expansion cards and connect them to the system bus. Expansion slots are a means of adding or enhancing the motherboard’s features and capabilities. With these efficient facilities, you can increase the motherboard’s capabili- ties by adding hardware that performs tasks that are not part of the basic system.
For some add-on cards, for example graphics adapters and network adapt- ers, you have to install drivers and software before you can begin using the add-on card. Connecting Optional Devices Refer to the following for information on connecting the motherboard’s optional devices: Installing the Motherboard...
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(150 MB/s), simpler disk drive cabling and easier PC assembly. It eliminates limitations of the current Parallel ATA interface. But maintains register compatibility and software compatibility with Parallel ATA. Signal Name Signal Name Signal Name Function Ground Ground Ground Installing the Motherboard...
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USB3/USB4: Front Panel USB header The motherboard has four USB ports installed on the rear edge I/O port array. Additionally, some computer cases have USB ports at the front of the case. If you have this kind of case, use auxiliary USB connector to connect the front-mounted ports to the motherboard.
Connecting I/O Devices The backplane of the motherboard has the following I/O ports: PS2 Mouse Use the upper PS/2 port to connect a PS/2 pointing device. PS2 Keyboard Use the lower PS/2 port to connect a PS/2 keyboard. Parallel Port (LPT1) Use LPT1 to connect printers or other parallel communications devices.
About the Setup Utility The computer uses the latest Award BIOS with support for Windows Plug and Play. The CMOS chip on the motherboard contains the ROM setup instructions for configuring the motherboard BIOS. The BIOS (Basic Input and Output System) Setup Utility displays the system’s configura- tion status and provides you with options to set system parameters.
Press DEL to enter SETUP Pressing the delete key accesses the BIOS Setup Utility: Phoenix-AwardBIOS CMOS Setup Utility: Standard CMOS Features Frequency/Voltage Control Advanced BIOS Features Load Fail-Safe Defaults Advanced Chipset Features Load Optimized Defaults Integrated Peripherals Set Password Power Management Setup Save &...
Updating the BIOS You can download and install updated BIOS for this motherboard from the manufacturer’s Web site. New BIOS provides support for new peripherals, improvements in performance, or fixes for known bugs. Install new BIOS as follows: If your motherboard has a BIOS protection jumper, change the setting to allow BIOS flashing.
Your computer has two IDE channels (Primary and Secondary) and each channel can be installed with one or two devices (Master and Slave). In addition, this motherboard supports two SATA channels and each channel allows one SATA device to be installed. Use these items to configure each device on the IDE channel.
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Floppy 3 mode refers to a 3.5-inch diskette with a capacity of 1.2 MB. Floppy 3 mode is sometimes used in Japan. Video (EGA/VGA) This item defines the video mode of the system. This motherboard has a built-in VGA graphics system; you must leave this item at the default value. Halt On (All Errors) This item defines the operation of the system POST (Power On Self Test) routine.
Advanced BIOS Features This option defines advanced information about your system. Phoenix-AwardBIOS CMOS Setup Utility Advanced BIOS Features CPU Feature [Press Enter] Item Help Hard Disk Boot Priority [Press Enter] CPU L1&L2 Cache [Enabled] Menu Level Hyper-Threading Technology [Enabled] Quick Power On Self Test [Enabled] First Boot Device [Floppy]...
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TM2 Bus VID (0.8375V) This item helps you to set the voltage of the throttled performance that will be initiated when the on die sensor goes from not hot to hot. Please note that this item will appear automatically if it supports TM2. Limit CPUID MaxVal (Disabled) This item can support Prescott CPUs for old OS.
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Swap Floppy Drive (Disabled) If you have two floppy diskette drives in your system, this item allows you to swap the assigned drive letters so that drive A becomes drive B, and drive B becomes drive A. Boot Up Floppy Seek (Disabled) If this item is enabled, it checks the size of the floppy disk drives at start-up time.
Advanced Chipset Features These items define critical timing parameters of the motherboard. 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, you may introduce fatal errors or recurring instability into your system.
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• RAS Precharge Time (tRP) (3T): This is the duration of the time interval during which the Row Address Strobe signal to a DRAM is held low during normal Read and Write Cycles. This is the munimum interval between com- pleting one read or write and starting another from the same (non-page mode) DRAM.
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OnChip AGP Control (Press Enter) Scroll to this item and press <Enter> to view the following screen: Phoenix-AwardBIOS CMOS Setup Utility Onchip AGP Control VGA Sahre Memory Size [32MB] Item Help Menu Level : Move Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help F5:Previous Values F6:Fail-Safe Defaults F7:Optimized Defaults...
Internal PCI/IDE (Both) Use these items to enable or disable the internal PCI IDE channels that are integrated on the motherboard. IDE 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.
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IDE DMA transfer access (Enabled) This item allows you to enabled the transfer access of the IDE DMA then burst onto the PCI bus and nonburstable transactions do not. IDE Burst Mode (Enabled) This option, when enabled will instruct the system to send every write transaction to the write buffer.
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SIS 10/100M ETHERNET (Enabled) This option allows you to control the onboard LAN. SiS Serial ATA Controller (Enabled) This item allows you to control the SiS Serial ATA controller. SiS Serial ATA Mode (IDE) This item allows you to change SiS Serial ATA mode. Press <Esc>...
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It also improves the speed of access to IDE devices. 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. Using BIOS...
If you want an incoming call on a modem to automatically resume the system from a power- saving mode, use this item to specify the interrupt request line (IRQ) that is used by the modem. You might have to connect the fax/modem to the motherboard Wake On Modem connector for this feature to work.
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HDD Off After (Disabled) The IDE hard drive will spin down if it is not accessed within a specified length of time. Options are from 1 Min to 15 Min and Disable. Power Button Override (Instant Off) Under ACPI (Advanced Configuration and Power management Interface) you can create a software power down.
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• Resmue by MACPME (Enabled): Use this item to enable MAC activity to wakeup the system from a power saving mode. Resume by PCI PME (Enabled) This item specifies whether the system will be awakened from power saving modes when activity or input signal of the specified hardware peripheral or component is detected.
These options configure how PnP (Plug and Play) and PCI expansion cards operate in your system. Both the ISA and PCI buses on the motherboard use system IRQs (Interrupt ReQuests) and DMAs (Direct Memory Access). You must set up the IRQ and DMA assign- ments correctly through the PnP/PCI Configurations Setup utility for the motherboard to work properly.
IRQ Resources The submenu allows you to individually assign an interrupt type for interrupts IRQ-3 to IRQ-15. Phoenix-AwardBIOS CMOS Setup Utility PnP/PCI Configurations IRQ-3 assigned to [PCI Device] Item Help IRQ-4 assigned to [PCI Device] IRQ-5 assigned to [PCI Device] Menu Level IRQ-7 assigned to [PCI Device]...
Enables you to set the maximum temperature the system can reach before powering down. System Component Characteristics These items allow end users and technicians to monitor data provided by the BIOS on this motherboard. You cannot make changes to these fields. • CPU Core Voltage •...
Frequency/Voltage Control 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 CPU Clock Ratio [0X]...
Load Fail-Safe Defaults Option This option opens a dialog box that lets you install fail-safe defaults for all appropriate items in the Setup Utility: Press <Y> and then <Enter> to install the defaults. Press <N> and then <Enter> to not install the defaults.
If you have made settings that you do not want to save, use the “Exit Without Saving” item and press <Y> to discard any changes you have made. This concludes Chapter 3. Refer to the next chapter for information on the software supplied with the motherboard. Using BIOS...
Using the Motherboard Software About the Software CD-ROM 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.
Displays the path for all software and drivers available on the CD. Running Setup Follow these instructions to install device drivers and software for the motherboard: Click Setup. The installation program begins: The following screens are examples only. The screens and driver lists will be different according to the motherboard you are installing.
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Follow the instructions on the screen to install the items. Drivers and software are automatically installed in sequence. Follow the onscreen instruc- tions, confirm commands and allow the computer to restart a few times to complete the installation. Using the Motherboard Software...
Please refer to the support CD for available software. AMI/AWARD Flash Memory Utility This utility lets you erase the system BIOS stored on a Flash Memory chip on the motherboard, and lets you copy an updated version of the BIOS to the chip. Proceed with caution when using this program.
Chapter 5 SiS 964 SATA RAID Setup Guide Introduction for SiS964 SATA RAID Function The 964 S-ATA controller only support two serial ATA on two independent ports. The Serial ATA RAID is designed to provide a cost-effective, high performance RAID solution that adds performance and/or reliability to PC desktops and/or servers using Serial ATA/150 hard disks.
JBOD: (Just a Bunch of Drives). Also known as “Spanning”. Two or more hard drives are required. Several hard disk types configured as a single hard disk. The hard drives are simply hooked up in series. This expands the capacity of your drive and results in a useable total capacity.
Confirming Windows 98/Me Driver Installation From Windows 98/Me, open the Control Panel from “My Computer” followed by the System icon. Choose the “Device Manager” tab. Click the “+” in front of “IDE ATA/ATAPI Controllers” hardware type. The driver “SiS 180 IDE Dual Channel” and “SiS 180 IDE/RAID Controller” should appear.
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Create RAID • SIS 964 controller support RAID 0, RAID 1 and JBOD. Creating a RAID 0 (Stripe) Array for Performance • SIS 180 enables users to create striped arrays with 2, 3, or 4 drives. • SIS 964 only supports 2 SATA drivers to create a stripe array. To create an array for best performance, follow these steps: Press <A>...
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Use < ↑ > < ↓ > to select disk, and press <Enter> to select disk, <Q> to exit. When you press <Enter> 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.
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Press <Q> again to exit this BIOS utility and the red message frame will show. Press <Y> and <Enter> to save changes. Once the array has been created, you will need to FDISK and format the array as if it were a new single hard drive. Creating a RAID 1 (Mirror) Array SIS 964/180 enables users to create Mirror arrays with 2 drives only.
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Use < ↑ > < ↓ > to select disk, and press <Enter> to select disk, <Q> to exit. When you press <Enter> on the disk you wanted, the RAID Type will be changed from Single to RAID 1. The same as RAID 0, the disk you select first will be the SOURCE disk.
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Press <Q> 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 <Y> and <Enter> to save changes. Once the array has been created, you will need to FDISK and format the array as if it were a new single hard drive.
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Press <Q> again to exit this BIOS utility and the red message frame will show as the same age as the creation of the RAID 0 array. Press <Y> and <Enter> to save changes. Once the array has been created, you will need to FDISK and format the array as if it were a new single hard drive.
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Caractéristiques Processeur Le 661GX/800-M utilise un type de socket 478 broches de Pentium 4 présentant les caractéristiques s uivantes : • Reçoit des processeurs Intel P4 • Support un bus système (FSB) de 800/533/400MHz • Supporte le CPU de technologie “Hyper-Threading” La technologie “Hyper-Threading”...
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Graphique • Intégré dans un moteur 256 bits 3D hautes performances • Moteur d’installation en triangle VLIW au format de virgule flottante en 32 bits intégré • Pipeline de rendu 2 pixels intégré et 4 unités de texture • Prend en charge une vitesse d’horloge de moteur 3D allant jusqu’à133 Options d’Extensions La carte mère est livrée avec les options d’extensions suivantes: •...
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Leistungsmerkmale Prozessor Das 661GX/800-M verwendet einen 478-Pin Sockel von Pentium 4 mit den folgenden Eigenschaften: • Nimmt Intel P4 Prozessoren auf • Unterstützt einen Systembus (FSB) mit 800/533/400 MHz • Unterstützt eine CPU mit „Hyper-Threading” Technologie Bei der „Hyper-Threading” Technologie „denkt“ das Betriebssystem, dass es an zwei Prozessoren angeschlossen ist.
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• Vier USB-Anschlüsse • Ein LAN-Anschluss (optional) • Audiobuchse für Mikrofon, Line-In und Line-Out • BIOS-Firmware Das Motherboard verwendet Award BIOS, das es Benutzern gestattet, viele Systemfunktionen inkl. der Folgenden zu konfigurieren: Energieverwaltung • Aufweckfunktionen • CPU-Parameter • CPU- und Arbeitsspeicherfrequenz •...
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Caratteristiche Processore 661GX/800-M si avvale di una presa a 478 pin per Pentium 4 che offre le seguenti caratteris- tiche: Alloggia processori Intel P4 • Supporta un bus di sistema (FSB) fino a 800/533/400 MHz • Supporta CPU con tecnologia “Hyper Threading” •...
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Grafica • Motore 3D a 256 bit a elevate prestazioni incorporato • Motore triangle setup con architettura VLIW a virgola mobile a 32 bit integra- • Pipeline di rendering a 2 pixel e 4 unità texture • Supporto di velocità di clock del motore 3D fino a 133 MHz Opzioni d’espansione La scheda madre è...
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Características Procesador La 661GX/800-M usa un tipo de zócalo de 478-pin de Pentium 4 que tiene las sigtes. carac- terísticas: • Acomoda procesadores Intel P4 • Soporta un sistema de bus (FSB) de 800/533/400MHz • Soporta CPU de tecnología “Hyper-Threading” La tecnología “Hyper-Threading”...
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Graphics • Una motor 3 D de 256-bit de alto rendimiento incorporado • Motor de setup triangular VLIW de formato de punto flotante de 32-bit incoporado • Líneas en tubo de rendición de 2 pixel incorporado y 4 unidades de tex- tura •...
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Características Processador O 661GX/800-M usa um tipo de ficha de 478 pinos do Pentium 4 que possui as seguintes características: • Acomoda processadores Intel Intel P4 • Suporta um bus sistema (FSB) de 800/533/400MHz • Suporta CPU de tecnologia “Hyper-Threading” A tecnologia “Hyper-Threading”...
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Gráficos • Incorporado com dispositivo 3D de 256 bits de elevada performance • Incorporado com dispositivo de configuração triangular VLIW com formato de ponto flutuante de 32 bit • Incorporado com 2 redes de fusão de pixels e 4 unidades de textura •...
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특징 프로세서 661GX/800-M 은 478 핀 소켓 타입 팬티엄 4 를 사용하며 다음과 같은 특징 을 지닌다: • Intel P4프로세서 사용 • 800/533/400 MHz시스템 버스(FSB) 지원 • " Hyper-Threading "기술 CPU 지원 "Hyper-Threading(HT)" 기술은 운영체제로 하여금 두 개의 프로세서에 연결된 것으 로...
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그래픽 • 고 성능 256 비트 3D 엔진 내장 • 32 비트 플로팅 포인트 포맷 VLIW 트라이앵글 셋업 엔진 내장 • 2 개의 픽셀 랜더링 파이프라인 및 4 개의 텍스처 유닛 내장 • 최대 133 MHz 3D 엔진 클록 속도 지원 확장...
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Характеристики Процессор Плата 661GX/800-M построена на базе 478-пинового сокета типа Pentium 4 и обладает следующими свойствами: • Размещает процессоры Intel P4 • Поддерживает системные шины (FSB) с частотой 800/533/400MHz • Поддерживает технологию CPU “Hyper-Threading” Технология “Hyper-Threading” «убеждает» операционную систему в том, что в машине имеется...
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• Поддержка режима двойного сэмплирования (96KHz) при прослушивании аудио-DVD • Совместимость с Direct Sound 3D Графика • Встроенный скоростной 256-битный движок 3D • Интегрированный 32-битовый модуль VLIW triangle setup для вычислений в режиме плавающей запятой • Встроенный 2-пиксельный движок рендеринга с 4 текстурными единицами...
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Cechy Procesor Płyta główna 661GX/800-M zaopatrzona jest w 478-nóżkowe gniazdo procesorów typu Pentium 4 i posiada następujące właściwości: • Przystosowana do obsługi procesorów Intel P4 • Obsługuje szynę systemowa (FSB) 800/533/400MHz • Zabezpiecza technologię CPU “Hyper-Threading” Technologia “Hyper-Threading” powoduje, że system "myśli”, że posiada dwa procesory i wykonuje równolegle dwa procesy;...
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Grafika • Wbudowany 256 bitowy, wysokosprawny sterownik 3D • Wbudowany 32-bitowy procesor formatu zmiennoprzecinkowego VLIW triangle setup • Wbudowany dwupikselowy, wizualizujący układ potokowy oraz 4 jednostki teksturowe • Obsługuje zegar sterownika 3D do 133MHz Możliwości rozbudowy Płyta głwna wyposażona jest w następujące gniazda: •...
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Vlastnosti Procesor Základní deska 661GX/800-M využívá 478kolíkovou patici pro procesory Pentium 4 a vyznačuje se následujícími vlastnostmi: • Použití pro procesory Intel P4 s jádrem • Podporuje taktování systémové sběrnice (FSB) na frekvenci 800/533/400 • Podporuje technologii CPU „Hyper-Threading“ Technologie „Hyper-Threading“ umožňuje operačnímu systému pracovat tak, jako by byl připojen ke dvěma procesorům, protože je možné...
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Grafika • Vestavěné vysoce výkonné 256bitové 3D grafické jádro • Vestavěné 32bitové jádro pracující s formátem VLIW s plovoucí desetinnou čárkou • 2 vestavěné pipeline vykreslování obrazových bodů a 4 texturovací jednotky • Podpora taktovací frekvence 133 MHz 3D jádra Možnosti rozšíření...
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Caracteristici Procesorul 661GX/800-M utilizează un procesor Pentium 4 cu 478 de ace având următoarele caracteristici: • Funcţionează cu procesoare Intel P4 • Funcţionează cu bus sistem (FSB) de 800/533/400 MHz • Este compatibilă cu unităţi centrale dotate cu tehnologia „Hyper- Threading”...
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Grafică • Motor 3D pe 256 biţi de înaltă performanţă • Format VLIW de calcul în triunghi în virgulă mobilă, de 32 biţi, incorporat • 2 canale de prelucrare pixeli şi 4 unităţi pentru texturi • Motorul 3D suportă o viteză de bază de până la 133 MHz Opţiuni de extindere Placa de bază...
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Спецификация Процесор 661GX/800-M използва сокет 478-pin за процесори Pentium 4 със следните спецификации: • поддръжка на процесори Intel P4 • поддръжка на системна шина със скорост 800/533/400MHz • поддръжка на процесори с технология “Hyper-Threading" Технологията “Hyper-Threading" позволява да се “излъже” операционната система, че работи...
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Графичен чип • Интегрирано високопроизводително 256-bit 3D графично ядро • интегриран triangle setup engine с 32-bit формат на плаваща запетая VLIW • Интегрирани 2 конвейера и 4 текстурни блока • Честота на 3D графичното ядро – до 133 MHz Възможности за разширяване Дънната...
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Jellemző Processzor A 661GX/800-M egy 478 tűs foglalatú Pentium 4 processzorral működik, amely a következõ jellemzõkkel bír: • Intel P4 processzorokkal működik • 800/533/400 MHz sebességű rendszerbuszt (FSB) támogat • Támogatja a „Hyper-Threading” technológiát használó központi egységeket A „Hyper-Threading” technológia által az operációs rendszer úgy működik, mintha két processzorral rendelkezne, ami két szál párhuzamos futását teszi lehetővé...
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Grafika • Beépített csúcsminõségű, 256 bites 3D motor • Beépített 32 bites VLIW lebegőpontos háromszög számítás • 2 beépített pixelfeldolgozó csõvonal és 4 mintázóegység • Akár 133 MHz órajelű 3D motort támogat Bővítési lehetőségek Az alaplap a következő bővítési lehetőségekkel rendelkezik: •...