Reconfiguring Parallel State Machine Replication

E. Alchieri, F. Dotti, O. Mendizabal, F. Pedone
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引用次数: 22

Abstract

State Machine Replication (SMR) is a well-known technique to implement fault-tolerant systems. In SMR, servers are replicated and client requests are deterministically executed in the same order by all replicas. To improve performance in multi-processor systems, some approaches have proposed to parallelize the execution of non-conflicting requests. Such approaches perform remarkably well in workloads dominated by non-conflicting requests. Conflicting requests introduce expensive synchronization and result in considerable performance loss. Current approaches to parallel SMR define the degree of parallelism statically. However, it is often difficult to predict the best degree of parallelism for a workload and workloads experience variations that change their best degree of parallelism. This paper proposes a protocol to reconfigure the degree of parallelism in parallel SMR on-the-fly. Experiments show the gains due to reconfiguration and shed some light on the behavior of parallel and reconfigurable SMR.
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重新配置并行状态机复制
状态机复制(SMR)是一种众所周知的实现容错系统的技术。在SMR中,服务器被复制,所有副本以相同的顺序确定地执行客户端请求。为了提高多处理器系统的性能,人们提出了一些方法来并行化非冲突请求的执行。这种方法在由无冲突请求主导的工作负载中表现得非常好。冲突的请求引入了昂贵的同步,并导致相当大的性能损失。当前的并行SMR方法静态地定义并行度。然而,通常很难预测工作负载的最佳并行度,并且工作负载经历的变化会改变其最佳并行度。本文提出了一种动态重构并行SMR并行度的协议。实验显示了重构所带来的增益,并揭示了并行和可重构SMR的行为。
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