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Help Center/ Elastic Volume Service/ Best Practices/ RAID Array Creation with EVS Disks/ Overview of Using EVS Disks to Create a RAID Array

Overview of Using EVS Disks to Create a RAID Array

Updated on 2024-09-14 GMT+08:00

Redundant Array of Independent Disks (RAID) is a technology that combines multiple physical disks into one or more logical units for the purposes of data redundancy and performance improvement.

NOTE:

In this document, Elastic Volume Service (EVS) disks instead of physical disks are used to create RAID arrays. The working principles are the same.

This document uses CentOS 7.5 as the sample OS to describe how to create a RAID 10 array with four EVS disks. A RAID 10 array consists of RAID 0 and RAID 1 arrays. In this example, EVS disks are used to create a mirroring array (RAID 1) and then create a RAID 0 array to store data in stripes. At least four EVS disks are required. The resource information is as follows:

Introduction to Common RAID Arrays

Table 1 Introduction to common RAID arrays

RAID Level

Description

Read/Write Performance

Security

Disk Usage

Min. Number of Disks Required

RAID 0

RAID 0 stores data on multiple disks, implementing parallel read/write and providing the fastest read/write speed.

Parallel read/write from multiple disks achieves high performance.

Worst

No redundancy capability. If one disk is damaged, the data of the entire RAID array is unavailable.

100%

2

RAID 1

RAID 1 implements data redundancy based on data mirroring. Half of the disk capacity in the RAID array is used, and the other half is used for mirroring to provide data backup.

Read performance: Same as a single disk

Write performance: Data needs to be written into two disks. The write performance is lower than that of a single disk.

Highest

Provides full backup of disk data. If a disk in the RAID array fails, the system automatically uses the data on the mirror disk.

50%

2

RAID 01

RAID 01 combines RAID 0 and RAID 1, in which half disks are first grouped into RAID 0 stripes and then used together with the other half to set up a RAID 1 array.

Read performance: Same as RAID 0

Write performance: Same as RAID 1

The security of RAID 01 is lower than that of RAID 10.

50%

4

RAID 10

RAID 10 combines RAID 1 and RAID 0, in which half disks are first set up as a RAID 1 array and then used together with the other half to create RAID 0 stripes.

Read performance: Same as RAID 0

Write performance: Same as RAID 1

The security performance of RAID 10 is the same as that of RAID 1.

50%

4

RAID 5

RAID 5 does not specify a dedicated parity disk and consists of block-level striping with parity information distributed among the disks.

Read performance: Same as RAID 0

Write performance: Because parity data needs to be written into disks, the write performance is lower than that of a single disk.

The security of RAID 5 is lower than that of RAID 10.

66.7%

3

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