性能与廉价磁盘冗余阵列的成本1

Francesco Quaglia, Bruno Ciciani
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引用次数: 2

摘要

数据冗余已被广泛用于提高关键应用程序的数据可用性,并提出了几种方法来组织磁盘阵列上的冗余数据。数据冗余包括全部数据复制或数据在磁盘阵列上的分布,以及在磁盘故障时可用于恢复丢失数据的奇偶校验信息。在本文中,我们通过使用离散事件模拟模型,在两种磁盘阵列架构之间进行了扩展的比较分析:基于数据复制的廉价磁盘冗余阵列(RAID) 1级架构;以及基于奇偶校验信息使用的RAID 5级架构。比较考虑了性能和成本两个方面。我们通过模拟I/O操作访问的数据大小不同的两种应用程序环境来研究这些体系结构的性能。此外,还考虑了I/O请求的几种调度策略,并研究了对数据的非统一访问对性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance vs. cost of redundant arrays of inexpensive disks1

Data redundancy has been widely used to increase data availability in critical applications and several methods have been proposed to organize redundant data across a disk array. Data redundancy consists of either total data replication or the spreading of the data across the disk array along with parity information which can be used to recover missing data in the event of disk failure. In this paper we present an extended comparative analysis, carried out by using discrete event simulation models, between two disk array architectures: the Redundant Arrays of Inexpensive Disks (RAID) level 1 architecture, based on data replication; and the RAID level 5 architecture, based on the use of parity information. The comparison takes both performance and cost aspects into account. We study the performance of these architectures simulating two application environments characterized by different sizes of the data accessed by I/O operations. In addition, several scheduling policies for I/O requests are considered and the impact of non-uniform access to data on performance is investigated.

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