利用非外部接口实现快速复制存储

Aishwarya Ganesan, R. Alagappan, Anthony Rebello, A. Arpaci-Dusseau, Remzi H. Arpaci-Dusseau
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引用次数: 0

摘要

是否某些存储接口比其他存储接口提供更高的性能?能否识别并利用这些接口来实现存储系统的高性能?本文通过识别非外部性(存储接口的一种属性)来肯定地回答这些问题。非外部化(nilext)接口可以修改存储系统内的状态,但不会将其效果或系统状态立即外部化到外部世界。因此,存储系统可以延迟应用next操作,从而提高性能。在本文中,我们将利用nilext接口来构建高性能复制存储。我们实现了Skyros,这是一种可感知next的复制协议,它通过延迟排序和执行操作来提供高性能,直到它们的效果被外部化。我们展示了利用无外部性提供了显著的好处:对于许多工作负载,Skyros提供了比标准的基于共识的复制更高的性能。例如,Skyros提供了3倍的低延迟,同时提供了与吞吐量优化的Paxos相同的高吞吐量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploiting Nil-external Interfaces for Fast Replicated Storage
Do some storage interfaces enable higher performance than others? Can one identify and exploit such interfaces to realize high performance in storage systems? This article answers these questions in the affirmative by identifying nil-externality, a property of storage interfaces. A nil-externalizing (nilext) interface may modify state within a storage system but does not externalize its effects or system state immediately to the outside world. As a result, a storage system can apply nilext operations lazily, improving performance. In this article, we take advantage of nilext interfaces to build high-performance replicated storage. We implement Skyros, a nilext-aware replication protocol that offers high performance by deferring ordering and executing operations until their effects are externalized. We show that exploiting nil-externality offers significant benefit: For many workloads, Skyros provides higher performance than standard consensus-based replication. For example, Skyros offers 3× lower latency while providing the same high throughput offered by throughput-optimized Paxos.
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