EVENODD: an efficient scheme for tolerating double disk failures in RAID architecture
Abstract — Two-dimensional RAID arrays maintain separate row and column parities for all their disks...
Deployment of SSDs in enterprise settings is limited by the low erase cycles available on commodity ...
One distinct advantage of Redundant Array of Independent Disks (RAID) is fault tolerance. But the pe...
EVENODD: An optimal scheme for tolerating double disk failures in RAID architecture
Abstruct- We present a novel method, that we call EVENODD, for tolerating up to two disk failures in...
We present a novel method, that we call EVENODD, for tolerating up to two disk failures in RAID arch...
Existing parity RAID is a redundancy code capable of correcting any single self-ide tifying failure....
We present ˆB a novel data layout method for tolerating multiple disk failures within disk arrays. I...
Modern storage systems orchestrate a group of disks to achieve their performance and reliability goa...
We present DATUM, a novel method for tolerating multi-ple disk failures in disk arrays. DATUM is the...
AbstractReliability is a major concern in the design of large disk arrays. In this paper, we examine...
Disk arrays (RAID) have been proposed as a possi-ble approach to solving the emerging I/O bottleneck...
Abstract—We present a general method for estimating the risk of data loss in arbitrary two-dimension...
Abstract—Disk failure rates vary so widely among different makes and models that designing storage s...
Through the use of redundancy, disk arrays can be made single fault tolerant. Disk arrays which prov...
Abstract — Two-dimensional RAID arrays maintain separate row and column parities for all their disks...
Deployment of SSDs in enterprise settings is limited by the low erase cycles available on commodity ...
One distinct advantage of Redundant Array of Independent Disks (RAID) is fault tolerance. But the pe...
EVENODD: An optimal scheme for tolerating double disk failures in RAID architecture
Abstruct- We present a novel method, that we call EVENODD, for tolerating up to two disk failures in...
We present a novel method, that we call EVENODD, for tolerating up to two disk failures in RAID arch...
Existing parity RAID is a redundancy code capable of correcting any single self-ide tifying failure....
We present ˆB a novel data layout method for tolerating multiple disk failures within disk arrays. I...
Modern storage systems orchestrate a group of disks to achieve their performance and reliability goa...
We present DATUM, a novel method for tolerating multi-ple disk failures in disk arrays. DATUM is the...
AbstractReliability is a major concern in the design of large disk arrays. In this paper, we examine...
Disk arrays (RAID) have been proposed as a possi-ble approach to solving the emerging I/O bottleneck...
Abstract—We present a general method for estimating the risk of data loss in arbitrary two-dimension...
Abstract—Disk failure rates vary so widely among different makes and models that designing storage s...
Through the use of redundancy, disk arrays can be made single fault tolerant. Disk arrays which prov...
Abstract — Two-dimensional RAID arrays maintain separate row and column parities for all their disks...
Deployment of SSDs in enterprise settings is limited by the low erase cycles available on commodity ...
One distinct advantage of Redundant Array of Independent Disks (RAID) is fault tolerance. But the pe...