Two-dimensional RAID arrays maintain separate row and column parities for all their disks. Depending on their organization, they can tolerate between two and three concurrent disk failures without losing any data. We propose to enhance the robustness of these arrays by replacing a small fraction of these drives with storage class memory devices, and demonstrate how such a pairing is several times more reliable than relying on conventional disks alone, or simply augmenting popular redundant layouts. Depending on the ratio of the failure rates of these two devices, the substitution can double or even triple the mean time to data loss (MTTDL) of each array
We present ˆB a novel data layout method for tolerating multiple disk failures within disk arrays. I...
We present DATUM, a novel method for tolerating multi-ple disk failures in disk arrays. DATUM is the...
In this work we present a new data layout and associated scheduling policies to improve RAID reliabi...
Two-dimensional RAID arrays maintain separate row and column parities for all their disks. Depending...
Abstract — Two-dimensional RAID arrays maintain separate row and column parities for all their disks...
Storage class memories (SCMs) constitute an emerging class of non-volatile storage devices that prom...
Abstract—Disk failure rates vary so widely among different makes and models that designing storage s...
We propose increasing the survivability of data stored in two-dimensional RAID arrays by causing the...
Abstract—We present a general method for estimating the risk of data loss in arbitrary two-dimension...
Today's computer systems entrust the bulk of their data to disk drives. This data must be reliably s...
Abstract — RAID has long been established as an effective way to provide highly reliable as well as ...
Existing parity RAID is a redundancy code capable of correcting any single self-ide tifying failure....
Abstract—As the prices of magnetic storage continue to decrease, the cost of replacing failed disks ...
Abstract: Disk arrays were proposed in the 1980s as a way to use parallelism between multiple disks ...
Disk arrays are commonly designed to ensure that stored data will always be able to withstand a disk...
We present ˆB a novel data layout method for tolerating multiple disk failures within disk arrays. I...
We present DATUM, a novel method for tolerating multi-ple disk failures in disk arrays. DATUM is the...
In this work we present a new data layout and associated scheduling policies to improve RAID reliabi...
Two-dimensional RAID arrays maintain separate row and column parities for all their disks. Depending...
Abstract — Two-dimensional RAID arrays maintain separate row and column parities for all their disks...
Storage class memories (SCMs) constitute an emerging class of non-volatile storage devices that prom...
Abstract—Disk failure rates vary so widely among different makes and models that designing storage s...
We propose increasing the survivability of data stored in two-dimensional RAID arrays by causing the...
Abstract—We present a general method for estimating the risk of data loss in arbitrary two-dimension...
Today's computer systems entrust the bulk of their data to disk drives. This data must be reliably s...
Abstract — RAID has long been established as an effective way to provide highly reliable as well as ...
Existing parity RAID is a redundancy code capable of correcting any single self-ide tifying failure....
Abstract—As the prices of magnetic storage continue to decrease, the cost of replacing failed disks ...
Abstract: Disk arrays were proposed in the 1980s as a way to use parallelism between multiple disks ...
Disk arrays are commonly designed to ensure that stored data will always be able to withstand a disk...
We present ˆB a novel data layout method for tolerating multiple disk failures within disk arrays. I...
We present DATUM, a novel method for tolerating multi-ple disk failures in disk arrays. DATUM is the...
In this work we present a new data layout and associated scheduling policies to improve RAID reliabi...