We present a novel method, that we call EVENODD, for tolerating up to two disk failures in RAID architectures. EVENODD employs the addition of only two redundant disks and consists of simple exclusive-OR computations. This redundant storage is optimal, in the sense that two failed disks cannot be retrieved with less than two redundant disks. 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 most commonly used scheme that employes optimal redundant storage (i.e., two extra disks) is based on Reed-Solomon (RS) error-correcting codes. This scheme requires computation ...
In recent years commercial Redundant Arrays of Inexpensive Disks systems have gained considerable ap...
In this paper, we propose an architectural approach, Supplementary Partial Parity (SPP), to addressi...
In recent years commercial Redundant Arrays of Inexpensive Disks (RAID) systems have become increasi...
We present a novel method, that we call EVENODD, for tolerating up to two disk failures in RAID arch...
Abstruct- We present a novel method, that we call EVENODD, for tolerating up to two disk failures in...
An error correcting code is a technique of adding extra information to a message such that it can be...
AbstractReliability is a major concern in the design of large disk arrays. In this paper, we examine...
During the past decade, advances in processor and memory technology have given rise to increases in ...
We present ˆB a novel data layout method for tolerating multiple disk failures within disk arrays. I...
In distributed storage systems that use coding, the issue of minimizing the communication required...
EVENODD: An optimal scheme for tolerating double disk failures in RAID architecture
When we use a disk, we sometimes wish it to be faster; I/O operations are slow and thus can be the b...
There has been an explosion in the amount of generated data in the past decade. Online access to the...
Existing parity RAID is a redundancy code capable of correcting any single self-ide tifying failure....
We present DATUM, a novel method for tolerating multi-ple disk failures in disk arrays. DATUM is the...
In recent years commercial Redundant Arrays of Inexpensive Disks systems have gained considerable ap...
In this paper, we propose an architectural approach, Supplementary Partial Parity (SPP), to addressi...
In recent years commercial Redundant Arrays of Inexpensive Disks (RAID) systems have become increasi...
We present a novel method, that we call EVENODD, for tolerating up to two disk failures in RAID arch...
Abstruct- We present a novel method, that we call EVENODD, for tolerating up to two disk failures in...
An error correcting code is a technique of adding extra information to a message such that it can be...
AbstractReliability is a major concern in the design of large disk arrays. In this paper, we examine...
During the past decade, advances in processor and memory technology have given rise to increases in ...
We present ˆB a novel data layout method for tolerating multiple disk failures within disk arrays. I...
In distributed storage systems that use coding, the issue of minimizing the communication required...
EVENODD: An optimal scheme for tolerating double disk failures in RAID architecture
When we use a disk, we sometimes wish it to be faster; I/O operations are slow and thus can be the b...
There has been an explosion in the amount of generated data in the past decade. Online access to the...
Existing parity RAID is a redundancy code capable of correcting any single self-ide tifying failure....
We present DATUM, a novel method for tolerating multi-ple disk failures in disk arrays. DATUM is the...
In recent years commercial Redundant Arrays of Inexpensive Disks systems have gained considerable ap...
In this paper, we propose an architectural approach, Supplementary Partial Parity (SPP), to addressi...
In recent years commercial Redundant Arrays of Inexpensive Disks (RAID) systems have become increasi...