Intel user manual Driver Installation, Intel\Inf, Sound\Realtek, Vgadriver Setup, INTEL\VGA\865

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any Lan signal automatically resumes the system. You must enable this item using the power management page of the setup utility.

4.6.5Clear CMOS (Clear RTC RAM) (Jp6)

This jumper allows you to clear the Real Time clock (RTC) RAM in CMOS. You can clear the CMOS memory of data, time, and system setup parameters by crasing the CMOS RTC RAM data. The RAM data in CMOS that include system setup information such as system passwords is powered by the onboard button cell battery.

1.Turn OFF the computer and unplug the power cord.

2.Move the jumper cap from Pin 1-2 (default) to pin 2-3 keep the cap on pin 2-3 for about 5-10 seconds, then move the cap back to pins 1-2.

3.Plug the power cord and turn on the computer

4.Hold down the <DEL> key during the boot process and enter BIOS setup to re-enter data. Note 1: Except when clearing RTC RAM, never remove the cap on CLRTC1 jumper default position removing the cap will cause system boot failure!

Note 2: you do not need to clear to clear the RTC when the system hangs due to over clocking. For system failure due to overclocking, use the C.P.R (CPU Parameter Recall) feature shut down and reboots the system so BIOS can automatically reset parameter settings to default values.

4.6.6ATX power connectors (20-pin PW1, 4-Pin PW2)

These connectors connect to an ATX 12V power supply. The plugs from the power supply are designed to fit these connectors in only one orientation. Find the proper orientation and push down firmly until the connectors completely fit. In addition to the 20-pin PW1 connector, connect the 4-pin ATX +12V power plug to provide sufficient power to the CPU.

Note1: Make sure that your ATX 12V power supply can provide at least 15A on the +12V lead and at least 2A on the +5V standby lead (+5VSB). The minimum recommended wattage is 300W or above for a fully configured system. The system may become unstable and may experience difficulty powering up if the power supply is inadequate.

Note2: Do not forget to connect the 20-Pin ATXPWR1 and 4-pin ATX12V1 power plugs. Failure to do so may cause severe damage to the CPU or mother board!

Chapter 5 Driver Installation

1.1Installation Directory

The utility CD is supplied with that main board the connects contained in it are showed as below:

Directory

Driver

OS

 

 

 

INTEL\INF\

Intel chipset software

Windows 9X

 

 

Windows 2000/XP

 

 

Windows NT4.0

SOUND\REALTEK\

Realtek AC’97 Audio driver

Windows 9X

 

 

Windows 2000/XP

 

 

Windows NT4.0

INTEL\usb2.0\865\

VGADRIVER SETUP

Windows 9X

 

 

Windows 2000/XP

 

 

Windows NT4.0

INTEL\VGA\865\

VGA driver setup

Windows 9X

 

 

Windows 2000/XP

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Contents Package Contents IntroductionInstallation Jp6 Clear Cmos Jumper settingAudio Front panel Jumper setting Sata PIN Jumper setting ConnectorsCPU Installation Memory installationAGP Card Installation IDE Devices InstallationOther Device Installation INTEL\INF\ Driver InstallationVgadriver Setup SOUND\REALTEK\Windows NT4.0 Bios Setup Main menu Phoenix Award Bios Cmos Setup UtilityAdvance Bios Features Advanced Chipset FeaturesIntegrated peripherals Load optimized Defaults Power Management SetupPnP/PCI Configurations Change PasswordSave Exit & Without Save Exit Setup

865 specifications

The Intel 865 chipset, introduced in early 2004, played a significant role in the evolution of computer architecture, particularly during the transition towards more advanced processing needs and increased graphical performance. This chipset was designed primarily for Intel Pentium 4 and Intel Celeron processors, making it compatible with a wide range of systems aimed at both mainstream and enthusiast users.

One of the main features of the Intel 865 chipset is its support for dual-channel DDR memory, which effectively doubled the available memory bandwidth compared to single-channel configurations. This enhancement was crucial for improving system performance, particularly in tasks demanding high memory throughput, such as gaming and content creation. The chipset supported DDR400 memory, allowing users to enjoy faster data transfer rates and improved multitasking capabilities.

Another important technological advancement within the Intel 865 chipset is its integrated AGP 8X slot. This provided extensive support for high-end graphics cards, ensuring users had access to the necessary bandwidth for demanding graphical applications and games. The chipset's architecture was designed to maximize performance by reducing latency and improving overall system responsiveness.

The Intel 865 also included Intel’s Enhanced Memory 2 Technology, which offered greater flexibility in memory options. Users could utilize memory modules with different configurations while still benefiting from optimal performance levels. This feature was particularly advantageous for users who sought to upgrade their systems without replacing all existing memory components.

In terms of connectivity, the Intel 865 showcased support for the Intel Fast Ethernet controller, providing efficient networking capabilities for home and office environments. Additionally, it featured support for Serial ATA (SATA), an advancement over the older Parallel ATA technology, allowing for faster data transfer rates, improved storage options, and better overall system performance.

The chipset also offered Intel’s Advanced Configuration and Power Interface (ACPI), streamlining power management by allowing the operating system to control the amount of power that each component used. This feature resulted in better energy efficiency and longer battery life for laptops and mobile devices.

In summary, the Intel 865 chipset marked a pivotal point for desktop and mobile computing, providing significant improvements in memory management, graphics performance, and power efficiency. Its comprehensive feature set and compatibility with a variety of systems have left a lasting legacy in the evolution of computing technology.