提高磁盘阵列RM2的写I/O性能，允许双磁盘故障

Proceedings International Conference on Parallel Processing Pub Date : 2002-08-18 DOI:10.1109/ICPP.2002.1040876

Y. Nam, D. Kim, Tae-Young Choe, Chan-Ik Park

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引用次数: 10

摘要

随着内部磁盘数量的增加和磁盘容量的快速增长，存储系统更容易出现双盘故障。因此，对像RAID6这样可靠的存储系统的需求将变得越来越重要。然而，RAID6架构，如RM2、P+Q、偶数-奇数和DATUM，由于更新与用户数据相关的两个不同的奇偶校验数据，传统上存在写I/O性能较低的问题。为了克服如此低的写I/O性能，我们提出了一种增强的RM2架构，它将RM2(著名的RAID6架构之一)与延迟奇偶更新(LPU)技术相结合。广泛的性能评估表明，在各种I/O工作负载下，所建议的架构的写I/O性能大约是RM2的两倍，可靠性几乎没有下降。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Enhancing write I/O performance of disk array RM2 tolerating double disk failures

With a large number of internal disks and the rapid growth of disk capacity, storage systems become more susceptible to double disk failures. Thus, the need for such reliable storage systems as RAID6 is expected to gain in importance. However RAID6 architectures such as RM2, P+Q, EVEN-ODD, and DATUM traditionally suffer from a low write I/O performance caused by updating two distinctive parity data associated with user data. To overcome such a low write I/O performance, we propose an enhanced RM2 architecture which combines RM2, one of the well-known RAID6 architectures, with a Lazy Parity Update (LPU) technique. Extensive performance evaluations reveal that the write I/O performance of the proposed architecture is about two times higher than that of RM2 under various I/O workloads with little degradation in reliability.

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Proceedings International Conference on Parallel Processing

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