利用磁盘驱动器声学模式进行电源管理

Doron Chen, George Goldberg, R. Kahn, Ronen I. Kat, K. Meth
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引用次数: 11

摘要

降低磁盘驱动器功耗是一项具有挑战性的任务,特别是因为实现它的最流行的方法是关闭空闲磁盘,这有许多不希望看到的副作用。一些硬盘驱动器支持声学模式,这意味着它们可以配置为降低磁盘磁头的加速度和速度。这降低了瞬时功耗,但牺牲了性能。因此,在降低功耗的情况下,输入/输出(I/O)操作可以运行更长时间。这对于功率封顶很有用,因为它可以显著降低磁盘的峰值功耗。我们在几个支持声学管理的磁盘驱动器上进行了实验。大多数这些磁盘驱动器只支持两种模式-安静和正常。我们运行了不同的I/O工作负载,包括SPC-1,以模拟真实的在线事务处理工作负载。我们发现,当使用安静模式时,峰值功率的降低可以达到23%。我们表明,对于某些工作负载,这意味着总体能耗降低了12.5%。在其他工作负载中,我们遇到了相反的现象——总能耗增加了6%以上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Leveraging disk drive acoustic modes for power management
Reduction of disk drive power consumption is a challenging task, particularly since the most prevalent way of achieving it, powering down idle disks, has many undesirable side-effects. Some hard disk drives support acoustic modes, meaning they can be configured to reduce the acceleration and velocity of the disk head. This reduces instantaneous power consumption but sacrifices performance. As a result, input/output (I/O) operations run longer at reduced power. This is useful for power capping since it causes significant reduction in peak power consumption of the disks. We conducted experiments on several disk drives that support acoustic management. Most of these disk drives support only two modes — quiet and normal. We ran different I/O workloads, including SPC-1 to simulate a real-world online transaction processing workload. We found that the reduction in peak power can reach up to 23% when using quiet mode. We show that for some workloads this translates into a reduction of 12.5% in overall energy consumption. In other workloads we encountered the opposite phenomenon-an increase of more than 6% in the overall energy consumption.
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