Raid 5-Distributed Data Guarding; Advantages - HP StorageWorks 4000s - NAS Administration Manual

Nas 4000s and 9000s administration guide

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Table of Contents

Storage Management Overview

RAID 5—Distributed Data Guarding

Using this method, a block of parity data (rather than redundant data) is calculated for each

stripe from the data that is in all other blocks within that stripe. The blocks of parity data are

distributed over every hard drive within the array, as shown in the figure below. When a hard

drive fails, data on the failed drive can be rebuilt from the parity data and the user data on the

remaining drives. This rebuilt data can be written to an online spare.

This configuration is useful when cost, performance, and data availability are equally

important.

Figure 29: RAID 5 (distributed data guarding) showing parity information (P)

Spreading the parity across all the drives allows more simultaneous read operations and higher

performance than data guarding (RAID 4). If one drive fails, the controller uses the parity data

and the data on the remaining drives to reconstruct data from the failed drive. RAID 5 allows

the system to continue operating with reduced performance until the failed drive is replaced.

However, if more than one drive fails, RAID 5 also fails and all data in the array is lost.

Distributed data guarding uses the equivalent of one drive to store parity information and

requires an array with a minimum of three physical drives. In an array containing three

physical drives, distributed data guarding uses 33 percent of the total logical drive storage

capacity for fault tolerance; a 14 drive configuration uses seven percent.

Note:

array experiencing a drive failure increases with the number of drives in an array. HP recommends

the number of drives in a RAID 5 array not exceed 14.

Advantages

Distributed data guarding offers:

P5,6

Given the reliability of a particular generation of hard drive technology, the probability of an

High read and write performance.

Protection against data loss if one drive fails.

Increased usable storage capacity, since capacity equal to only one physical drive is used

to store parity information.

P1,2

P3,4

P7,8

NAS 4000s and 9000s Administration Guide

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