Intel FSB800 (PC2700), FSB800 / DDR333 (PC2700), FSB533 Supports AGP Card 3.3V Protection

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Installation

3-8 Supports AGP Card 3.3V Protection

The Intel® 865PE chipset supports 1.5 volt AGP graphics cards only. Using a 3.3 volt AGP card in an Intel® 865PE chipset-based board might damage the chipset on an 865PE-equipped mainboard. However, this mainboard features a protection function that prevents the system from powering on when a 3.3V AGP card is inadvertently inserted into the AGP slot.

If this happens, we recommend you to follow these steps:

Step 1: Remove the 3.3V AGP card from the AGP slot.

Step 2: Unplug the ATX/ATX12V power cable.

Step 3: Insert a 1.5V AGP card into the AGP slot.

Step 4: Wait for 5 ~ 7 seconds and then plug in the ATX/ATX12V power cord again (or turn on the ATX/ATX12V power switch) to turn on your system.

Note: There should be an interval of 5 ~ 7 seconds between unplugging and plugging in the power cord, or turning the ATX/ATX12V power supply on and off.

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Contents User’s Manual TrademarkDisclaimer of Warranties Port Frequently Asked Questions Table of Contents Appendix Appendix a Section Award Bios SetupSection Driver Installation Appendix BLeft Blank Package Contents IntroductionIntel Pentium 4 processors Chipset ComponentsHardware Monitoring Accelerated Graphics Port AGPUltra ATA/66/100 LAN OptionalSerial ATA IEEE1394 OptionalMainboard Form-Factor CPUShield Connector Power-On/Off RemoteSystem Block Diagram System Block DiagramLeft Blank Features Mainboard FeaturesBios Codec=JKHAI =JKHAI Installation InstallationMainboard Layout Easy Installation Procedure CPU InstallationInstallation Jumper Settings System Memory Configuration Memory LayoutInstallation Dimm Module Installation Center KEY Zone 2.5 V DramInstalling an Expansion Card Expansion SlotsAGP Card Installation Caution Connectors Jcpufan / Jpwrfan / JsysfanFDD CD-INAUX-IN Spdifin VCC GND Spdifout SATA1 / SATA2 Serial ATA Connectors LED1 80 Port Debug LED RST HdledPwrled PwonModem-Ring Power on Function STR Suspend To RAM Function Supports AGP Card 3.3V Protection Bios Setup Main MenuStandard Cmos Setup Standard Cmos SetupAdvanced Bios Features Bios Features SetupVirus Warning Bios Bios Advanced Chipset Features Dram SPDBios Integrated Peripherals Integrated PeripheralsOnChip IDE Device On-Chip Serial ATA Setting Compatible Mode Onboard PCI Device Setup Midi Port Address Onboard I/O Chip Setup Bios Power Management Setup Bios Power Management Bios Reload Global Timer Events PCI PIRQA-D#PNP/PCI Configuration SM BUS PC Health Status Vbatv Power Bios Features CPU FSB/SPEEDBios By subtle tuning item AGP/PCI subtle tuning Auto AGP-FSB*2/3 PCI-FSB/3Clock Generation for EMI Defaults Menu Password Disabled Supervisor/User Password SettingEnter Password Exit Without Saving Exiting BiosSave & Exit Setup Intel Springdale Series 865 Chipset Driver Drivers InstallationEasy Driver Installation Media Audio Configuation Brief Guide Drivers Installation Speaker output Drivers Installation Pdif Volume ControlDrivers Installation Microphone Xear 3DXear 3D 5.1 Virtual Speaker Sfifter Drivers Installation Drivers Installation Information Update Your System Bios AppendixKey in File Name to save previous Bios to file Eeprom Bios Remover Appendix BLeft Blank Appendix C Ghost 7 Quick User’s Guide OptionalAppendix Appendix Appendix Appendix Appendix Appendix Appendix How to Reinstall Windows in 2 Minutes # Backup Appendix Recover CD Appendix D Post CodesDefault value instead Program writes allocation for AMD K5 CPU If password is set, ask for password

DDR266 (PC2100), DDR333 (PC2700), DDR400 (PC3200), FSB400 (PC2100), FSB800 / DDR400 (PC3200) specifications

Intel's FSB800 (PC2700) and FSB800 (PC3200) represent important milestones in memory technology, providing enhanced data transfer speeds and improved performance for computing systems. The FSB, or Front Side Bus, is a critical component that connects the CPU to the memory, affecting both system efficiency and speed.

FSB800 (PC2700) offers a bus speed of 800 MHz, supporting DDR (Double Data Rate) memory. It operates at PC2700 specifications, which allow for a data transfer rate of 2.7 GB/s. This configuration is particularly advantageous for users requiring improved multitasking capabilities and faster data processing. The technology behind FSB800 also facilitates advanced power management, contributing to energy efficiency while maintaining high-performance levels.

On the other hand, FSB800 (PC3200) ups the ante with compatibility for DDR400 memory. This arrangement fundamentally increases the data transfer capabilities to 3.2 GB/s, making it suitable for more demanding applications such as gaming, video editing, and other resource-heavy tasks. The ability to leverage higher memory speeds not only enhances responsiveness but also allows for better handling of larger datasets.

FSB400 (PC2100) represents an earlier generation of Intel's bus technology, running at 400 MHz and supporting DDR266 memory. Although it has lower performance specifications, it still offers a reliable platform for basic computing tasks and is widely used in budget systems. This early iteration laid the groundwork for subsequent advancements in memory technology.

DDR400 (PC3200) is a prominent feature in high-performance desktops and workstations. It operates at a data transfer rate of 3.2 GB/s, maximizing the data paths between memory and processors. This level of performance is essential for high-fidelity graphics and complex computing processes, making it a popular choice among enthusiasts and professionals alike.

Lastly, FSB800 / DDR333 (PC2700) serves as a versatile option, particularly for systems that benefit from a balanced approach to speed and stability. By supporting DDR333, this configuration ensures adequate memory performance without overwhelming the system's architecture.

In summary, these various configurations provided by Intel—FSB800 (PC2700), FSB800 (PC3200), FSB400 (PC2100), and DDR400 (PC3200)—underscore significant advancements in memory speed and efficiency, catering to an array of computing needs from basic tasks to high-performance demands. With each iteration, Intel has focused on enhancing data transfer rates, supporting multitasking capabilities, and improving overall system responsiveness, solidifying its role as a leader in memory technology.