Brief Announcement: Performance Prediction for Coarse-Grained Locking

V. Aksenov, Dan Alistarh, P. Kuznetsov
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引用次数: 5

Abstract

A standard design pattern found in many concurrent data structures, such as hash tables or ordered containers, is an alternation of parallelizable sections that incur no data conflicts and critical sections that must run sequentially and are protected with locks. A lock can be viewed as a queue that arbitrates the order in which the critical sections are executed, and a natural question is whether we can use stochastic analysis to predict the resulting throughput. As a preliminary evidence to the affirmative, we describe a simple model that can be used to predict the throughput of coarse-grained lock-based algorithms. We show that our model works well for CLH lock, and we expect it to work for other popular lock designs such as TTAS, MCS, etc.
简要公告:粗粒度锁的性能预测
在许多并发数据结构(如哈希表或有序容器)中发现的一个标准设计模式是,交替使用不会产生数据冲突的可并行区和必须按顺序运行并受锁保护的临界区。锁可以被看作是一个队列,它决定了执行临界区的顺序,一个自然的问题是我们是否可以使用随机分析来预测结果吞吐量。作为肯定的初步证据,我们描述了一个简单的模型,可用于预测粗粒度基于锁的算法的吞吐量。我们表明,我们的模型适用于CLH锁,我们希望它适用于其他流行的锁设计,如TTAS, MCS等。
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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