Gigabyte GA-K8NE user manual Serial ATA Bios Setting Utility Introduction, RAID Levels

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English

4-1-4 Serial ATA BIOS Setting Utility Introduction

RAID Levels

RAID (Redundant Array of Independent Disks) is a method of combining two hard disk drives into one logical unit. The advantage of an Array is to provide better performance or data fault tolerance. Fault tolerance is achieved through data redundant operation, where if one drives fails, a mirrored copy of the data can be found on another drive. This can prevent data loss if the operating system fails or hangs. The individual disk drives in an array are called members. The configuration information of each member is recorded in the reserved sector that identifies the drive as a member. All disk members in a formed disk array are recognized as a single physical drive to the operating system.

Hard disk drives can be combined together through a few different methods. The different methods are referred to as different RAID levels. Different RAID levels represent different performance levels, security levels and implementation costs. The RAID levels which the nVIDIA® nForce4 chipset supports are RAID 0, RAID 1, RAID 0+RAID 1 and JBOD.

RAID 0 (Striping)

RAID 0 reads and writes sectors of data interleaved between multiple drives. If any disk member fails, it affects the entire array. The disk array data capacity is equal to the number of drive members times the capacity of the smallest member. The striping block size can be set from 4KB to 64KB. RAID 0 does not support fault tolerance.

RAID 1 (Mirroring)

RAID 1 writes duplicate data onto a pair of drives and reads both sets of data in parallel. If one of the mirrored drives suffers a mechanical failure or does not respond, the remaining drive will continue to function. Due to redundancy, the drive capacity of the array is the capacity of the smallest drive. Under a RAID 1 setup, an extra drive called the spare drive can be attached. Such a drive will be activated to replace a failed drive that is part of a mirrored array. Due to the fault tolerance, if any RAID 1 drive fails, data access will not be affected as long as there are other working drives in the array.

RAID 0+1 (Striping + Mirroring)

RAID 0+1 combines the performance of data striping (RAID 0) and the fault tolerance of disk mirroring (RAID 1). Data is striped across multiple drives and duplicated on another set of drives.

JBOD (Spanning)

A spanning disk array is equal to the sum of the all drives when the drives used are having different capacities. Spanning stores data onto a drive until it is full, then proceeds to store files onto the next drive in the array. When any disk member fails, the failure affects the entire array. JBOD is not really a RAID and does not support fault tolerance.

GA-K8NE Motherboard

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Contents GA-K8NE Motherboard Copyright Product Manual ClassificationTable of Contents Drivers Installation GA-K8NE Motherboard Layout Block Diagram Page Instances of Non-Warranty Considerations Prior to InstallationInstallation Notices Preparing Your ComputerFeature Summary ALC850 Codec UAJUse of licensed Award Bios Installation of the CPU and Heatsink Installation of the CPUInstallation of the Heatsink Installation of Memory Installation of Expansion Cards I/O Back Panel Introduction Connectors Introduction Side Speaker OutATX12V / ATX Power Connector Cpufan / Sysfan Cooler Fan Power Connector FDD FDD ConnectorIDE1 / IDE2 IDE Connector SATAII01 / SATAII23 Serial ATA ConnectorFpanel Front Panel Jumper Faudio Front Audio Panel Connector Cdin CD In ConnectorUSB1 / FUSB2 / FUSB3 Front USB Connector Comb Comb ConnectorCI Chassis Intrusion, Case Open Clrcmos Clear CmosBAT Battery English Status Page Setup Menu / Option Page Setup Menu Main MenuMain Menu For example Bios Ver. D6 „ Save & Exit Setup „ Set Supervisor Password„ Set User Password „ Exit Without SavingTime IDE Channel 0 Master/Slave IDE Channel 1 Master/SlaveHalt on Floppy 3 Mode Support for Japan AreaDrive a / Drive B Boot Up Floppy Seek Hard Disk Boot PriorityFirst / Second / Third Boot Device Password Check Init Display FirstOn-Chip IDE Channel0 IDE DMA transfer accessIntegrated Peripherals On-Chip IDE Channel1IDE/SATA RAID function On-Chip LAN Boot ROMOn-Chip MAC Lan IDE Primary Master RAIDOn-Chip USB IDE Prefetch ModeParallel Port Mode USB Memory TypeModem Ring On ECP Mode Use DMAPME Event Wake Up Power On By Keyboard Power-On by AlarmPower On By Mouse USB Resume from SuspendPnP/PCI Configurations Current VoltageV Vcore / DDR25V / +3.3V / +12V Current CPU TemperatureCPU Warning Temperature Current CPU/SYSTEM FAN Speed RPMPcie Clock CPU FrequencyCPU Spread Spectrum K8 CPU Clock RatioDDR voltage control Chipset core PCI-E voltageHT-Link voltage control Load Optimized Defaults Save & Exit Setup Exit Without SavingDrivers Installation Install Chipset DriversSoftware Application Software InformationHardware Information Contact UsEnglish User Interface Overview Unique Software UtilitiesEasyTune 5 Introduction How to use the Xpress Recovery Xpress Recovery IntroductionWhat is Xpress Recovery ? F9 For Xpress Recovery Press F9 during powering on the computer. Text ModeRemove Backup Image  Remove backup image. Are you sure? Y/N Exit and RestartBefore You Begin Flash Bios Method IntroductionMethod 1 Q-FlashTMUtility Entering the Q-FlashTMutility Exploring the Q-FlashTM / Dual Bios utility screenTask menu for Dual Bios utility Task menu for Q-Flash utilityUsing the Q-FlashTMutility StepsYou can repeat to 4 to flash the backup BIOS, too Part Two Exploring the Q-FlashTMutility screen Task menu for Q-FlashTMutility FlashTMutility barCongratulation!! You have updated Bios successfully Bios file becomes F4 after updatingMethod 2 @BIOSTM Utility Methods and stepsEnglish Serial ATA Bios Setting Utility Introduction RAID LevelsConfiguring the Nvidia RAID Bios Entering the RAID Bios SetupSelecting the Striping Block Size Using the Define a New Array WindowSelecting the RAID Mode Assigning the DisksCompleting the RAID Bios Setup YESArray 2 Nvidia Mirror 76.33G Installing the RAID drivers Cd bootdrv Menu5 2- / 4- / 6- / 8- ChannelAudio Function Introduction Introduction of audio connectorsStereo Speakers Connection and Settings Channel Audio Setup English Step Jack-Sensing and UAJ Introduction English Troubleshooting English English English English Contact Us Taiwan HeadquartersChina Shanghai
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GA-K8NE specifications

The Gigabyte GA-K8NE is a motherboard that stands out in the realm of Socket 754-based systems, catering primarily to AMD's Athlon 64 and Sempron processors. Renowned for its stability and reliability, the GA-K8NE is ideal for users seeking to build a budget-friendly yet robust computing solution.

One of the main features of the GA-K8NE is its support for single-channel DDR400 memory, accommodating up to 2GB of RAM. This allows for decent multitasking capabilities, making it suitable for various applications from basic computing tasks to more demanding multimedia processing. The motherboard features two DIMM slots, ensuring flexibility in memory upgrades.

In terms of connectivity, the GA-K8NE is equipped with an array of PCI slots, including a PCI Express x16 slot for dedicated graphics cards. The inclusion of a Gigabit Ethernet controller enables high-speed internet access, essential for both gaming and media streaming. Additionally, users can take advantage of multiple USB 2.0 ports for peripheral connectivity, enhancing overall usability.

The GA-K8NE also includes a variety of storage options, featuring four SATA connectors for modern hard drives along with PATA options for legacy devices. This versatility ensures that users can integrate both contemporary and older storage technologies seamlessly.

When it comes to audio, the motherboard is integrated with Realtek's ALC655 chipset, providing 6-channel audio output. This feature enriches the multimedia experience, making it suitable for home theater setups or gaming applications where sound quality is paramount.

Another notable technology included in the GA-K8NE is Gigabyte's patented DualBIOS technology, which provides an extra layer of security against BIOS failures. Should a primary BIOS be corrupted, the backup BIOS can auto-recover, ensuring reliable system operation and peace of mind for users.

With its balance of performance, capacity for upgradeability, and key features like robust audio and solid networking capabilities, the Gigabyte GA-K8NE remains a commendable choice for budget-conscious users looking to build a capable home or office PC. Its combination of technological advancements and practical features makes it a noteworthy option in the competitive motherboard market.
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