Scheduling Algorithms for Handling Updates in Shingled Magnetic Recording

2013 IEEE Eighth International Conference on Networking, Architecture and Storage Pub Date : 2013-07-17 DOI:10.1109/NAS.2013.33

K. S. Venkataraman, Tong Zhang, Wenzhe Zhao, Hongbin Sun, Nanning Zheng

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引用次数: 3

Abstract

Shingled recording has recently emerged as one promising candidate to sustain the historical growth of magnetic recording storage areal density. However, since the convenient update-in-place feature is no longer available in shingled recording, many sectors must be read and written back in order to update one sector. This leads to a significant update-induced latency overhead and makes conventional hard disk drive scheduling algorithms perform poorly. This paper concerns with the development of appropriate scheduling algorithms for shingled recording based hard disk drives. We first present a simple partial-update scheduling algorithm that can naturally embrace the update latency issue and achieves significant gains over conventional scheduling algorithms. We enhance this algorithm by incorporating a shortest update first policy, which can further reduce the update response time on an average by 70%. Finally, motivated by abundant workload spatial and temporal locality, we develop a spatio-temporal band coalescing scheme that can achieve an additional reduction of update response time of up to 96.8%.

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瓦式磁记录中处理更新的调度算法

瓦板记录最近成为一种有希望的候选人，以维持磁记录存储面密度的历史增长。然而，由于便利的就地更新功能在带状记录中不再可用，因此必须读取和写回许多扇区才能更新一个扇区。这将导致由更新引起的显著延迟开销，并使传统的硬盘驱动器调度算法表现不佳。本文研究了基于带状记录的硬盘驱动器的调度算法的发展。我们首先提出了一个简单的部分更新调度算法，它可以自然地解决更新延迟问题，并且比传统的调度算法取得了显著的进步。我们通过结合最短更新优先策略来增强该算法，该策略可以进一步将更新响应时间平均减少70%。最后，在工作负载丰富的时空局部性的激励下，我们开发了一种时空波段合并方案，该方案可将更新响应时间额外减少96.8%。

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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2013 IEEE Eighth International Conference on Networking, Architecture and Storage

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