企业存储系统防碎片化

R. Kesavan, Matthew Curtis-Maury, V. Devadas, K. Mishra
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引用次数: 6

摘要

随着文件系统的老化,它可能会经历多种形式的碎片。文件系统中可用空间的碎片会降低写性能和随后的读性能。客户端操作和内部操作(如重复数据删除)都可能对单个文件的布局造成碎片化,这也会影响文件读取性能。允许子块粒度寻址的文件系统可能会收集块内部碎片,从而导致空闲空间的浪费。类似地,当文件系统将一组块作为单个大对象写入对象存储时,也会出现空间浪费,因为组成块可能在不同的时间变得空闲。碎片的影响还取决于底层存储介质。本文研究了NetApp®WAFL®文件系统中的每种碎片形式,并解释了文件系统如何利用存储虚拟化层进行碎片整理技术,从而有效地物理重新定位块,包括只读快照中的块。本文分析了这些技术在减少碎片和提高跨各种存储介质的整体性能方面的有效性。
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Countering Fragmentation in an Enterprise Storage System
As a file system ages, it can experience multiple forms of fragmentation. Fragmentation of the free space in the file system can lower write performance and subsequent read performance. Client operations as well as internal operations, such as deduplication, can fragment the layout of an individual file, which also impacts file read performance. File systems that allow sub-block granular addressing can gather intra-block fragmentation, which leads to wasted free space. Similarly, wasted space can also occur when a file system writes a collection of blocks out to object storage as a single large object, because the constituent blocks can become free at different times. The impact of fragmentation also depends on the underlying storage media. This article studies each form of fragmentation in the NetApp® WAFL®file system, and explains how the file system leverages a storage virtualization layer for defragmentation techniques that physically relocate blocks efficiently, including those in read-only snapshots. The article analyzes the effectiveness of these techniques at reducing fragmentation and improving overall performance across various storage media.
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