ATOM:通过硬件日志记录在非易失性内存中的原子持久性

2017 IEEE International Symposium on High Performance Computer Architecture (HPCA) Pub Date : 2017-05-08 DOI:10.1109/HPCA.2017.50

A. Joshi, V. Nagarajan, Stratis Viglas, M. Cintra

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引用次数: 104

摘要

非易失性内存(NVM)正在成为存储持久数据的快速字节寻址替代方案。确保NVM中的原子持久性需要日志记录。现有的技术建议软件日志要么使用流存储作为撤销日志，要么依赖于clflush和mfence的组合作为重做日志。这些技术不是最优的，因为它们浪费宝贵的执行周期来实现日志记录，而日志记录基本上是一种数据移动操作。我们提出ATOM，这是一种基于撤销日志的硬件日志管理器，它在关键路径之外执行日志操作。我们介绍了ATOM背后的设计原则和优化其性能的两种技术。我们的结果表明，与基线撤销日志设计相比，ATOM在微基准测试中实现了27%到33%的改进，在TPC-C中实现了60%的改进。

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ATOM: Atomic Durability in Non-volatile Memory through Hardware Logging

Non-volatile memory (NVM) is emerging as a fast byte-addressable alternative for storing persistent data. Ensuring atomic durability in NVM requires logging. Existing techniques have proposed software logging either by using streaming stores for an undo log, or, by relying on the combination of clflush and mfence for a redo log. These techniques are suboptimal because they waste precious execution cycles to implement logging, which is fundamentally a data movement operation. We propose ATOM, a hardware log manager based on undo logging that performs the logging operation out of the critical path. We present the design principles behind ATOM and two techniques to optimize its performance. Our results show that ATOM achieves an improvement of 27% to 33% for micro-benchmarks and 60% for TPC-C over a baseline undo log design.

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2017 IEEE International Symposium on High Performance Computer Architecture (HPCA)

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