Exploring storage class memory with key value stores

INFLOW '13 Pub Date : 2013-11-03 DOI:10.1145/2527792.2527799

Katelin Bailey, Peter Hornyack, L. Ceze, S. Gribble, H. Levy

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引用次数: 49

Abstract

In the near future, new storage-class memory (SCM) technologies -- such as phase-change memory and memristors -- will radically change the nature of long-term storage. These devices will be cheap, non-volatile, byte addressable, and near DRAM density and speed. While SCM offers enormous opportunities, profiting from them will require new storage systems specifically designed for SCM's properties. This paper presents Echo, a persistent key-value storage system designed to leverage the advantages and address the challenges of SCM. The goals of Echo include high performance for both small and large data objects, recoverability after failure, and scalability on multicore systems. Echo achieves its goals through the use of a two-level memory design targeted for memory systems containing both DRAM and SCM, exploitation of SCM's byte addressability for fine-grained transactions in non-volatile memory, and the use of snapshot isolation for concurrency, consistency, and versioning. Our evaluation demonstrates that Echo's SCM-centric design achieves the durability guarantees of the best disk-based stores with the performance characteristics approaching the best in-memory key-value stores.

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使用键值存储探索存储类内存

在不久的将来，新的存储级存储器(SCM)技术——如相变存储器和忆阻器——将从根本上改变长期存储的性质。这些设备将是廉价的、非易失性的、字节可寻址的，并且接近DRAM的密度和速度。虽然SCM提供了巨大的机会，但从中获利将需要专门为SCM的属性设计的新存储系统。本文介绍了Echo，一个持久的键值存储系统，旨在利用SCM的优势和解决挑战。Echo的目标包括小型和大型数据对象的高性能、故障后的可恢复性以及多核系统上的可伸缩性。Echo通过使用针对包含DRAM和SCM的内存系统的两级内存设计来实现其目标，利用SCM的字节可寻址性来处理非易失性内存中的细粒度事务，并使用快照隔离来实现并发性、一致性和版本控制。我们的评估表明，Echo以scm为中心的设计实现了最佳基于磁盘存储的持久性保证，其性能特征接近最佳内存中键值存储。

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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INFLOW '13

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