English

Using the "Define a New Array" Window

If necessary, press the tab key to move from field to field until the appropriate field is highlighted.

Selecting the RAID Mode

By default, this is set to Mirroring. To change to a different RAID mode, press the down arrow key until the mode that you want appears in the RAID Mode box - either Mirroring, Striping, Spanning, or Stripe Mirroring.

Selecting the Striping Block Size

Striping block size is given in kilobytes, and affects how data is arranged on the disk. It is recommended to leave this value at the default Optimal, which is 64KB, but the values can be between 4 KB and 128 KB.

Assigning the Disks

The disks that you enabled from the RAID Config BIOS setup page appear in the Free Disks block. These are the drives that are available for use as RAID array disks. To designate a free disk to be used as a RAID array disk,

1. Tab to the Free Disks section. The first disk in the list is selected.

2. Move it from the Free Disks block to the Array Disks block by pressing the rightarrow key ( ). The first disk in the list is moved, and the next disk in the list is selected and ready to be moved.

3. Continue pressing the right-arrow key ( ) until all the disks that you want to use as RAID array disks appear in the Array Disks block.

NVIDIA RAID Utility Jan 12 2005

- Define a New Array -

RAID Mode: Mirroring

Striping Block: Optimal

Free Disks

 

Array Disks

Loc

Disk Model Name

Loc

Disk Model Name

 

 

1.0.M

Maxtor 6Y080M0

[

] Add 1.1.M

Maxtor 6Y080M0

[

] Del

 

[ESC] Quit [F6] Back [F7] Finish

[TAB] Navigate

[ ] Select [ENTER] Popup

GA-K8NE-RH Motherboard

- 68 -

Page 68
Image 68
Gigabyte GA-K8NE-RH Using the Define a New Array Window, Selecting the RAID Mode, Selecting the Striping Block Size

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.