在条带阵列中实现性能最大化

[1990] Proceedings. The 17th Annual International Symposium on Computer Architecture Pub Date : 1990-05-01 DOI:10.1145/325164.325158

Peter M. Chen, D. Patterson

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引用次数: 240

摘要

磁盘速度的提高没有跟上处理器和内存速度的提高。纠正由此导致的速度不匹配的一种方法是在许多磁盘上分条数据。作者讨论了如何将数据分条以从磁盘获得最大性能。具体来说，它们检查如何选择条带化单元，即每个磁盘上逻辑连续数据的数量。对给定工作负载范围确定最佳分条单元的规则进行了综合。它显示了条带化单元的选择如何仅取决于两个参数:(1)在任何给定时间磁盘系统中未完成请求的数量，以及(2)磁盘的平均定位时间*数据传输速率。作者推导出了这两个参数的函数式，并给出了最佳分条装置的方程;他们还展示了如何在不事先了解工作负载的情况下选择条带化单元。

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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Maximizing performance in a striped disk array

Improvements in disk speeds have not kept up with improvements in processor and memory speeds. One way to correct the resulting speed mismatch is to stripe data across many disks. The authors address how to stripe data to get maximum performance from the disks. Specifically, they examine how to choose the striping unit, that is, the amount of logically contiguous data on each disk. Rules for determining the best striping unit for a given range of workloads are synthesized. It is shown how the choice of striping unit depends on only two parameters: (1) the number of outstanding requests in the disk system at any given time, and (2) the average positioning time*data transfer rate of the disks. The authors derive an equation for the optimal striping unit as a function of these two parameters; they also show how to choose the striping unit without prior knowledge about the workload.<>

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[1990] Proceedings. The 17th Annual International Symposium on Computer Architecture

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