EVENODD-Reference-Cited by-同舟云学术

EVENODD

Published:1994-04 Issue:2 Volume:22 Page:245-254
ISSN:0163-5964
Container-title:ACM SIGARCH Computer Architecture News
language:en
Short-container-title:SIGARCH Comput. Archit. News

Author:

Blaum M.¹,Brady J.²,Bruck J.¹,Menon J.¹

Affiliation:

1. IBM Almaden Research Center, San Jose, CA

2. IBM SSD, San Jose, CA

Abstract

We present a novel method, that we call EVENODD, for tolerating up to two disk failures in RAID architectures. EVENODD is the first known scheme for tolerating double disk failures that is optimal with regard to both storage and performance. EVENODD employs the addition of only two redundant disks and consists of simple exclusive-OR computations. A major advantage of EVENODD is that it only requires parity hardware, which is typically present in standard RAID-5 controllers. Hence, EVENODD can be implemented on standard RAID-5 controllers without any hardware changes. The only previously known scheme that employes optimal redundant storage (i.e. two extra disks) is based on Reed-Solomon (RS) error-correcting codes, requires computation over finite fields and results in a more complex implementation. For example, we show that the number of exclusive-OR operations involved in implementing EVENODD in a disk array with 15 disks is about 50% of the number required when using the RS scheme.

Publisher

Association for Computing Machinery (ACM)

Link

https://dl.acm.org/doi/pdf/10.1145/192007.192033

Reference17 articles.

1. M. Blaum "A Class of Byte-Correcting Array Codes " IBM Research Report RJ 5652 May 1987. M. Blaum "A Class of Byte-Correcting Array Codes " IBM Research Report RJ 5652 May 1987.

2. Method and Means for Encoding and Rebuilding Data Contents of up to 2 Unavailable DASDs in an Array of DASDs;Blaum M.;Patent,1993

3. New Array Codes for Multiple Phased Burst Correction;Blaum M.;IEEE Trans. on Information Theory

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