企业存储系统请求调度的实证评价与改进

Deng Zhou, Vania Fang, T. Xie, Wen Pan, R. Kesavan, Tony Lin, N. Patel
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摘要

由于文献中关于企业存储系统文件级请求调度的报道很少,因此我们对各种调度因素如何影响性能没有足够的了解。此外,我们对如何增强请求调度以适应工作负载和硬件资源的变化特征缺乏很好的理解。为了回答这些问题,我们首先基于WAFL®构建了一个请求调度器原型,WAFL®是一种运行在全球众多企业存储系统上的主流文件系统。接下来,我们使用原型来定量测量各种调度配置对NetApp®企业级存储系统性能的影响。已经做了一些观察。例如,我们发现为了提高性能,在某些工作负载中应该提高写请求和非抢占重启请求的优先级。受这些观察结果的启发,我们进一步提出了两种调度增强启发式算法,称为SORD(面向大小的请求调度)和QATS(队列深度感知时间切片)。最后,我们通过在基于hdd和全闪存平台上使用SPC-1和SFS2014生成的工作负载进行广泛的实验来评估它们。实验结果表明,在某些工作负载下,两者的结合可以显著降低平均请求延迟。
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Empirical Evaluation and Enhancement of Enterprise Storage System Request Scheduling
Since little has been reported in the literature concerning enterprise storage system file-level request scheduling, we do not have enough knowledge about how various scheduling factors affect performance. Moreover, we are in lack of a good understanding on how to enhance request scheduling to adapt to the changing characteristics of workloads and hardware resources. To answer these questions, we first build a request scheduler prototype based on WAFL®, a mainstream file system running on numerous enterprise storage systems worldwide. Next, we use the prototype to quantitatively measure the impact of various scheduling configurations on performance on a NetApp®'s enterprise-class storage system. Several observations have been made. For example, we discover that in order to improve performance, the priority of write requests and non-preempted restarted requests should be boosted in some workloads. Inspired by these observations, we further propose two scheduling enhancement heuristics called SORD (size-oriented request dispatching) and QATS (queue-depth aware time slicing). Finally, we evaluate them by conducting a wide range of experiments using workloads generated by SPC-1 and SFS2014 on both HDD-based and all-flash platforms. Experimental results show that the combination of the two can noticeably reduce average request latency under some workloads.
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