通过Zone Append实现ZNS ssd的高性能RAID

Proceedings of the 14th ACM SIGOPS Asia-Pacific Workshop on Systems Pub Date : 2023-08-24 DOI:10.1145/3609510.3609810

Qiuping Wang, P. Lee

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引用次数: 0

摘要

分区命名空间(ZNS)提供了分区追加原语，通过分区内并行性来提高ZNS ssd的写性能。然而，让Zone Append对多个ZNS ssd组成的RAID阵列有效是很重要的，因为Zone Append将地址管理转移到ZNS ssd上，并要求主机专门管理多个驱动器上的RAID条带。我们提出了ZNS ssd的高性能软件RAID层ZapRAID，通过谨慎地使用Zone Append来实现高写并行性和轻量级的条带管理。ZapRAID的核心思想是基于组的数据布局，在多个条带组之间进行粗粒度排序，这样它就可以在每个组的基础上使用小尺寸的元数据进行条带管理。我们的原型评估表明，与使用Zone write原语相比，ZapRAID实现了2.34倍的写入吞吐量增益。

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ZapRAID: Toward High-Performance RAID for ZNS SSDs via Zone Append

Zoned Namespace (ZNS) provides the Zone Append primitive to boost the write performance of ZNS SSDs via intrazone parallelism. However, making Zone Append effective for a RAID array of multiple ZNS SSDs is non-trivial, since Zone Append offloads address management to ZNS SSDs and requires hosts to dedicatedly manage RAID stripes across multiple drives. We propose ZapRAID, a high-performance software RAID layer for ZNS SSDs by carefully using Zone Append to achieve high write parallelism and lightweight stripe management. ZapRAID's core idea is a group-based data layout with coarse-grained ordering across multiple groups of stripes, such that it can use small-size metadata for stripe management on a per-group basis. Our prototype evaluation shows that ZapRAID achieves a 2.34x write throughput gain compared with using the Zone Write primitive.

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Proceedings of the 14th ACM SIGOPS Asia-Pacific Workshop on Systems

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