FS2: dynamic data replication in free disk space for improving disk performance and energy consumption

Hai Huang, Wanda Hung, K. Shin
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引用次数: 200

Abstract

Disk performance is increasingly limited by its head positioning latencies, i.e., seek time and rotational delay. To reduce the head positioning latencies, we propose a novel technique that dynamically places copies of data in file system's free blocks according to the disk access patterns observed at runtime. As one or more replicas can now be accessed in addition to their original data block, choosing the "nearest" replica that provides fastest access can significantly improve performance for disk I/O operations.We implemented and evaluated a prototype based on the popular Ext2 file system. In our prototype, since the file system layout is modified only by using the free/unused disk space (hence the name Free Space File System, or FS2), users are completely oblivious to how the file system layout is modified in the background; they will only notice performance improvements over time. For a wide range of workloads running under Linux, FS2 is shown to reduce disk access time by 41--68% (as a result of a 37--78% shorter seek time and a 31--68% shorter rotational delay) making a 16--34% overall user-perceived performance improvement. The reduced disk access time also leads to a 40--71% energy savings per access.
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FS2:利用空闲磁盘空间进行动态数据复制,提高磁盘性能和能耗
磁盘性能越来越受到磁头定位延迟的限制,即寻道时间和旋转延迟。为了减少磁头定位延迟,我们提出了一种新技术,根据在运行时观察到的磁盘访问模式,动态地将数据副本放置在文件系统的空闲块中。由于现在除了原始数据块之外还可以访问一个或多个副本,因此选择提供最快访问的“最近”副本可以显著提高磁盘I/O操作的性能。我们基于流行的Ext2文件系统实现并评估了一个原型。在我们的原型中,由于文件系统布局仅通过使用空闲/未使用的磁盘空间来修改(因此称为free space file system,或FS2),用户完全不知道文件系统布局是如何在后台被修改的;随着时间的推移,他们只会注意到性能的提高。对于在Linux下运行的各种工作负载,FS2显示可以将磁盘访问时间减少41- 68%(由于寻道时间缩短了37- 78%,旋转延迟缩短了31- 68%),从而使总体用户感知的性能提高了16- 34%。减少的磁盘访问时间还导致每次访问节省40- 71%的能源。
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