通过冗余实现固态硬盘的高性能和低延迟

INFLOW '13 Pub Date : 2013-11-03 DOI:10.1145/2527792.2527798

Dimitris Skourtis, D. Achlioptas, C. Maltzahn, S. Brandt

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引用次数: 2

摘要

固态硬盘在企业存储系统中越来越流行，扮演着大缓存和永久存储的角色。虽然ssd提供比硬盘更快的随机访问，但它们在读/写工作负载下的性能变化很大，经常超过硬盘(例如，一次读需要100ms)。许多混合工作负载的系统具有低延迟需求，或者需要可预测的性能和保证。在这种情况下，ssd的性能差异对可预测性和原始性能都是一个问题。在本文中，我们提出了一种基于冗余的设计，通过物理隔离读和写，为读/写工作负载下的读提供高性能和低延迟。更具体地说，读实现了只读性能，而写的性能至少和以前一样好。我们使用微基准测试和真实跟踪来评估我们的设计，说明固态驱动器中读写分离的性能优势。

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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High performance & low latency in solid-state drives through redundancy

Solid-state drives are becoming increasingly popular in enterprise storage systems, playing the role of large caches and permanent storage. Although SSDs provide faster random access than hard-drives, their performance under read/write workloads is highly variable often exceeding that of hard-drives (e.g., taking 100ms for a single read). Many systems with mixed workloads have low latency requirements, or require predictable performance and guarantees. In such cases, the performance variance of SSDs becomes a problem for both predictability and raw performance. In this paper, we propose a design based on redundancy, which provides high performance and low latency for reads under read/write workloads by physically separating reads from writes. More specifically, reads achieve read-only performance while writes perform at least as good as before. We evaluate our design using micro-benchmarks and real traces, illustrating the performance benefits of read/write separation in solid-state drives.

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INFLOW '13

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