Power Reduction of Multiple Disks Using Dynamic Cache Resizing and Speed Control

Le Cai, Yung-Hsiang Lu
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引用次数: 19

Abstract

This paper presents an energy-conservation method for multiple disks and their cache memory. Our method periodically resizes the cache memory and controls the rotation speeds under performance constraints. The cache memory stores the data from the disks for reuse. Enlarging the cache memory reduces disk accesses and disk utilization. This allows the disks to reduce their speeds and conserve energy because the disks' power consumption is quadratic to their speeds. However, the cache memory itself consumes power to retain data. Shrinking cache memory can save memory power while increasing disk accesses and degrading performance. Choosing proper cache sizes and rotation speeds can reduce the energy consumption of both memory and disks with satisfactory performance. We model cache resizing and speed setting as an optimization problem with minimizing the power consumption as objective and limiting disk utilization as constraints. We compare our method with the methods resizing cache based on request rates. The simulation results show that our method achieves better energy-savings while limiting disk access latency
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使用动态缓存调整大小和速度控制的多磁盘功耗降低
提出了一种多磁盘及其缓存的节能方法。我们的方法定期调整缓存内存大小,并在性能限制下控制旋转速度。缓存存储器存储磁盘上的数据,以便重用。增大缓存容量可以减少磁盘访问,降低磁盘利用率。这允许磁盘降低其速度并节省能量,因为磁盘的功耗是其速度的二次元。但是,高速缓存本身需要消耗电力来保存数据。缩小缓存内存可以节省内存功率,但增加磁盘访问并降低性能。选择合适的缓存大小和旋转速度可以在性能满意的情况下减少内存和磁盘的能耗。我们将缓存大小调整和速度设置建模为一个优化问题,以最小化功耗为目标,限制磁盘利用率为约束。我们将我们的方法与基于请求速率调整缓存大小的方法进行比较。仿真结果表明,该方法在限制磁盘访问延迟的同时,实现了较好的节能效果
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