Using multiple physical disks has the following advantages over using a single physical disk:

Placing data on multiple physical disks (striping) allows input/output (I/O) operations to occur simultaneously and improve performance.

Storing redundant data on multiple physical disks using mirroring or parity supports reconstruction of lost data if an error occurs, even if that error is the failure of a physical disk.

Each RAID level provides different performance and protection. You should select a RAID level based on the type of application, access, fault tolerance, and data you are storing.

The storage array supports RAID levels 0, 1, 5, 6, and 10. The maximum number of physical disks that can be used in a disk group depends on the RAID level:

96 for RAID 0, 1 and 10

30 for RAID 5 and 6.

RAID Level Usage

To ensure best performance, you should select an optimal RAID level when you create a system physical disk. The optimal RAID level for your disk array depends on:

Number of physical disks in the disk array

Capacity of the physical disks in the disk array

Need for redundant access to the data (fault tolerance)

Disk performance requirements

RAID 0

RAID 0 uses disk striping to provide high data throughput, especially for large files in an environment that requires no data redundancy. RAID 0 breaks the data down into segments and writes each segment to a separate physical disk. I/O performance is greatly improved by spreading the I/O load across many physical disks. Although it offers the best performance of any RAID level, RAID 0 lacks data redundancy. Choose this option only for non-critical data, because failure of one physical disk results in the loss of all data. Examples of RAID 0 applications include video editing, image editing, prepress applications, or any application requiring high bandwidth.

Planning: MD3200 Series Storage Array Terms and Concepts

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Dell MD3220, MD3200 owner manual RAID Level Usage, Raid