Gigabyte GA-K8NE-RH user manual Installing the RAID drivers, Cd bootdrv Menu

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Installing the RAID drivers

To install operating system onto a serial ATA hard disk successfully, you need to install the SATA controller driver during OS installation. Without the driver, the hard disk may not be recognized during the Windows setup process. First of all, copy the driver for the SATA controller from the motherboard driver CD-ROM to a floppy disk. See the instructions below about how to copy the driver in MS-DOS mode(Note1). Prepare a startup disk that has CD-ROM support and a blank formatted floppy disk.

Step 1: Insert the prepared startup disk and motherboard driver CD-ROM in your system. Boot from the

startup disk. Once at the A:\> prompt, change to the CD-ROM drive (example: D:\>). At the D:\> prompt, type the following two commands. Press ENTER after each command (Fig.1):

cd bootdrv

menu

Step 2: When the controller menu (Fig.2) appears, remove the startup disk and insert the blank formatted disk. Select the controller driver by pressing the corresponding letter from the menu. Your system will then automatically zip and transfer this driver file to the floppy disk. Press 0 to exit when finished.

English

Fig.1

Fig. 2

Step 3: After completing the steps, boot from the Windows installation disk to install the RAID drivers. Press F6 as soon as you see the "Press F6 if you need to install a third party SCSI or RAID driver" message, then supply serial ATA controller driver by this floppy disk. Follow the on-screen instructions to complete the installation.

(Each time you add a new hard drive to a RAID array, the RAID driver will have to be installed under Windows once for that hard drive. After that, the driver will not have to be installed.)

(Note 1): For users without a startup disk.

Use an alternative system and insert the GIGABYTE motherboard drive CD-ROM. From the CD- ROM drive (example: D:\) double click the MENU.exe file in the BootDrv folder. A command prompt window will open similar to that in Fig. 2.

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Appendix

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Contents GA-K8NE-RH Motherboard Product Manual Classification CopyrightTable of Contents Drivers Installation Item Checklist GA-K8NE-RH Motherboard Layout Block Diagram Preparing Your Computer Considerations Prior to InstallationInstallation Notices Instances of Non-WarrantyALC850 Codec UAJ Feature SummaryUse of licensed Award Bios Installation of the CPU Installation of the CPU and HeatsinkInstallation of the Heatsink Installation of MemoryDDR1 DDR2 DDR3 Installation of Expansion Cards I/O Back Panel Introduction Side Speaker Out Connectors IntroductionATX12V / ATX Power Connector FDD FDD Connector Cpufan / Sysfan Cooler Fan Power ConnectorSATAII01 / SATAII23 Serial ATA Connector IDE1 / IDE2 IDE ConnectorFpanel Front Panel Jumper Pwrled Faudio Front Audio Panel ConnectorUSB1 / FUSB2 / FUSB3 Front USB Connector Cdin CD In ConnectorCI Chassis Intrusion, Case Open Comb Comb ConnectorClrcmos Clear Cmos BAT BatteryEnglish Main Menu Status Page Setup Menu / Option Page Setup MenuF12 For Boot Menu Main Menu For example Bios Ver. FDh„ PnP/PCI Configuration „ Standard Cmos Features„ Advanced Bios Features „ Power Management SetupIDE Channel 2/3/4/5 Master TimeIDE Channel 0 Master, Slave, IDE Channel 1 Master, Slave Halt on Floppy 3 Mode Support for Japan AreaDrive a / Drive B Boot Up Floppy Seek Hard Disk Boot PriorityFirst / Second / Third Boot Device Init Display First Password CheckOn-Chip IDE Channel1 IDE DMA transfer accessIntegrated Peripherals On-Chip IDE Channel0NV Serial-ATA IDE Prefetch ModeOn-Chip MAC Lan NV IDE/SATA RAID functionOn-Chip USB Parallel Port ModeECP Mode Use DMA Onboard Parallel PortUSB Resume from Suspend PME Event Wake UpModem Ring On KB Power on Function Power-On by AlarmPower On By Mouse Power On By KeyboardPnP/PCI Configurations DDR25V PC Health StatusCase Opened Reset Case Open StatusCurrent CPU Temperature CPU Warning TemperatureTemp Limit of High Speed Default temperature 60oC Temp of FAN turn off Default temperature 0oCTemp Limit of Low Speed Default temperature 20oC Temp Limit of Mid Speed Default temperature 50oCCPU Frequency MB Intelligent TweakerM.I.THT Frequency ratio Write Recovery Time Twr DDR clock/Timing ModeRAS# to CAS# delay Trcd Row to Row delay TrrdAsync Latency value Write-to-Read Delay TwtrRefresh Rate Tref Read Preamble valueTop Performance Set Supervisor/User Password Exit Without Saving Save & Exit SetupInstall Chipset Drivers Drivers InstallationSoftware Information Software ApplicationContact Us Hardware InformationEnglish Unique Software Utilities User Interface Overview EasyTune 5 IntroductionSystem requirements Xpress Recovery2 IntroductionHow to use the Xpress Recovery2 Limitations Main Screen of Xpress Recovery2Precautions Before You Begin Flash Bios Method IntroductionMethod 1 Q-FlashTMUtility Task menu for Q-Flash utility Exploring the Q-FlashTM / Dual Bios utility screenTask menu for Dual Bios utility Entering the Q-FlashTMutilitySteps Using the Q-FlashTMutilityYou can repeat to Part Two English Exploring the Q-FlashTMutility screenBios file becomes F4 after updating Congratulation!! You have updated Bios successfullyMethods and steps Method 2 @BIOSTM UtilityEnglish RAID Levels Serial ATA Bios Setting Utility IntroductionEntering the RAID Bios Setup Configuring the Nvidia RAID BiosAssigning the Disks Using the Define a New Array WindowSelecting the RAID Mode Selecting the Striping Block SizeYES Completing the RAID Bios SetupArray 2 Nvidia Mirror 76.33G Cd bootdrv Menu Installing the RAID drivers5 2- / 4- / 6- / 8- Channel Audio Function Introduction Introduction of audio connectorsStereo Speakers Connection and Settings Channel Audio Setup English Step Troubleshooting English English Taiwan Headquarters Contact UsChina Shanghai

GA-K8NE-RH specifications

The Gigabyte GA-K8NE-RH is a reliable motherboard designed for AMD processors, specifically catering to the Socket 754 form factor. Released during a time when AMD's Athlon 64 processors were gaining popularity, the GA-K8NE-RH stands out for its remarkable performance and a range of features that appealed to both gamers and general users alike.

One of the main highlights of the GA-K8NE-RH is its ability to support AMD’s 64-bit processing technology, allowing users to take full advantage of the enhanced performance capabilities of Athlon 64 CPUs. This motherboard supports memory configurations with up to 4GB of DDR memory, utilizing dual-channel architecture. This dual-channel setup not only boosts memory bandwidth but also improves overall system performance, making it ideal for multitasking and memory-intensive applications.

The GA-K8NE-RH is built on the nForce3 250 chipset, which features an integrated NVIDIA graphics processing unit. This allows for a more streamlined graphic performance, making it suitable for casual gaming and multimedia applications. Furthermore, the integrated Gigabit Ethernet ensures high-speed network connectivity, essential for online gaming and downloading large files.

This motherboard also includes multiple IDE and SATA connectors. With support for SATA II, users can benefit from faster data transfer rates compared to traditional IDE connections. Additionally, the inclusion of RAID support enables users to set up disk redundancy for improved data security or enhanced read/write speeds, depending on their setup.

In terms of audio capabilities, the GA-K8NE-RH features a built-in 6-channel audio codec, providing clear sound quality for an immersive multimedia experience. The onboard PCI Express and PCI slots offer ample expansion opportunities for graphics cards, sound cards, or additional peripherals, making it a flexible choice for various builds.

Moreover, Gigabyte's renowned durability features ensure that the GA-K8NE-RH remains a dependable choice for enthusiasts. The motherboard is equipped with a range of capacitors and solid-state components that contribute to its longevity and stability.

Overall, the Gigabyte GA-K8NE-RH is a well-rounded motherboard that provides excellent performance and versatility for users looking to build a capable AMD-based system. With a combination of stable performance, advanced features, and support for various technologies, it remains an appealing option for users seeking value and reliability in their computing experience.
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