Raid Explained
RAID stands for Redundant Arrayof Inexpensive (or sometimes "Independent") Disks. RAID isa method of combining multiple hard disks in a single logical unit tooffer high availability, performance or a combination of both. Thisprovides better resilience and performance than a single disk drive.
The benefits of RAID explained
Provides real-time data recovery with uninterrupted access when a hard drive fails
Increases system uptime and network availability
Protects against data loss
Multiple drives working in parallel increases system performance
Software RAID
Many operating systems provide functionality for implementing software based RAID systems. Thesoftware RAID systems generate the RAID algorithms using the server CPU,this can severely limit the RAID performance. Should a server failthe whole RAID system is lost. Cheap to implement and only need asingle SCSI controller.
Hardware RAID
All RAID algorithms are generated on the RAID controller board, thus freeing the server CPU. Allows fullbenefits and data protection of RAID. More robust and fault tolerantthan software RAID. Requires dedicated RAID controller to work.
RAID levels
Various RAID levels exist these are 0, 1, 2, 3, 4, 5, 6, 7, 10, & 0+1. The levels of RAID protectionvaries with the RAID level selected RAID levels 0 & 1 are nottechnically RAID as they have no redundancy in the event of drivefailure. The most common RAID levels are shown below. RAIDlevels 2, 4, 6, 7 & 0+1 are a combination of the other RAID levelsshown.
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