可优雅降解的磁盘阵列

[1991] Digest of Papers. Fault-Tolerant Computing: The Twenty-First International Symposium Pub Date : 1991-06-25 DOI:10.1109/FTCS.1991.146692

A. Reddy, P. Banerjee

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引用次数: 37

摘要

解决了当系统中的一个磁盘发生故障时，不受功能磁盘100%负载增加影响的容错磁盘阵列的设计问题。提出了一种结合奇偶校验方案和传统双拷贝方法的优点，并在提供容错方面提供多种选择的技术。提出了解决这一问题的理论框架，并提出了一些建设性的技术。通过使用与早期方法相同数量的硬件，但使用更好的数据组织和不同的重构技术，系统在故障期间产生更好的性能。合并两个奇偶校验组作为一种重新配置策略具有许多好处，例如减少硬件开销和提高可靠性。将块设计和所提出的重构策略相结合，可以产生高可靠性的磁盘阵列，其开销与先前方法相同或更少，并且在故障期间具有更好的性能。

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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Gracefully degradable disk arrays

The problem of designing fault-tolerant disk arrays that are not susceptible to 100% load increases on the functional disks when one of the disks in the system fails is addressed. A technique that combines the advantages of parity schemes and the traditional dual copy methods and offers a wide variety of options in providing fault-tolerance is proposed. A theoretical framework for solving the problem is presented and a number of constructive techniques are proposed. By utilizing the same amount of hardware as the earlier methods but with a better data organization and a different reconstruction technique, the system yields better performance during a failure. Merging two parity groups as a reconfiguration strategy is shown to have a number of benefits, such as reduced hardware overhead and improved reliability. A combination of block designs and the proposed reconfiguration strategy results in a highly reliable disk array with the same or less overhead as the earlier approaches and better performance during a failure.<>

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[1991] Digest of Papers. Fault-Tolerant Computing: The Twenty-First International Symposium

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