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Raid

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1. What does RAID stand for?
Redundancy Array of Inexpensive (or independent) Disks. 2. When would we use RAID?
If reliability and data redundancy is important to you, if you take backups you will need to restore those backups and those backups can be hours or days old, resulting in data loss. RAID allows you to survive a drive loss without data loss and in many cases without any downtime. It is also useful if you’re having disk IO issues, where applications are waiting on the disk to perform tasks. Allows you to read and write data from multiple drives. The hardware RAID card will include additional memory to be used as cache, reducing the strain put on the physical hardware and increase overall performance. 3. Define the following types of RAID a) RAID 0- (Striping) Taking any number of disks and striping data across all of them. Greatly increases speeds, as your reading and writing multiple disks at a time. Offers no redundancy but can be used for cache and other purposes where speed and reliability/data loss does not matter. b) RAID 1- (Mirroring) generally used with a pair of disks, though could be done with more, and would identically mirror/copy the data equally across all the drives in the array. The point of RAID 1 is primarily for redundancy, as you can completely lose a drive, but still stay up and running off the additional drive(s). c) RAID 5- (striping/distributive Parity) Requires the use of at least three drives. And will take the idea of RAID 0, striping the data across multiple drives to increase performance, but also adds the aspect of redundancy by distributing parity information across the disks. Significantly improved read performance, , but write performance is largely dependent on the RAID controller used, due to the need to calculate the parity data and write it across all the disks. Very good option for a standard web

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