Renaissance: benchmarking suite for parallel applications on the JVM

Proceedings of the 40th ACM SIGPLAN Conference on Programming Language Design and Implementation Pub Date : 2019-06-08 DOI:10.1145/3314221.3314637

Aleksandar Prokopec, Andrea Rosà, David Leopoldseder, Gilles Duboscq, P. Tůma, Martin Studener, L. Bulej, Y. Zheng, A. Villazón, Doug Simon, Thomas Würthinger, Walter Binder

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引用次数: 81

Abstract

Established benchmark suites for the Java Virtual Machine (JVM), such as DaCapo, ScalaBench, and SPECjvm2008, lack workloads that take advantage of the parallel programming abstractions and concurrency primitives offered by the JVM and the Java Class Library. However, such workloads are fundamental for understanding the way in which modern applications and data-processing frameworks use the JVM's concurrency features, and for validating new just-in-time (JIT) compiler optimizations that enable more efficient execution of such workloads. We present Renaissance, a new benchmark suite composed of modern, real-world, concurrent, and object-oriented workloads that exercise various concurrency primitives of the JVM. We show that the use of concurrency primitives in these workloads reveals optimization opportunities that were not visible with the existing workloads. We use Renaissance to compare performance of two state-of-the-art, production-quality JIT compilers (HotSpot C2 and Graal), and show that the performance differences are more significant than on existing suites such as DaCapo and SPECjvm2008. We also use Renaissance to expose four new compiler optimizations, and we analyze the behavior of several existing ones. We use Renaissance to compare performance of two state-of-the-art, production-quality JIT compilers (HotSpot C2 and Graal), and show that the performance differences are more significant than on existing suites such as DaCapo and SPECjvm2008. We also use Renaissance to expose four new compiler optimizations, and we analyze the behavior of several existing ones.

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Renaissance: JVM上并行应用程序的基准测试套件

为Java虚拟机(JVM)建立的基准套件，如DaCapo、scalabbench和SPECjvm2008，缺乏利用JVM和Java类库提供的并行编程抽象和并发原语的工作负载。但是，这些工作负载对于理解现代应用程序和数据处理框架使用JVM的并发特性的方式，以及验证新的即时(JIT)编译器优化(支持更有效地执行这些工作负载)至关重要。我们介绍了Renaissance，这是一个新的基准套件，由现代的、真实的、并发的和面向对象的工作负载组成，可以执行JVM的各种并发原语。我们展示了在这些工作负载中使用并发原语揭示了在现有工作负载中不可见的优化机会。我们使用Renaissance来比较两种最先进的、生产质量的JIT编译器(HotSpot C2和Graal)的性能，并表明性能差异比现有套件(如DaCapo和SPECjvm2008)更显著。我们还使用Renaissance公开了四个新的编译器优化，并分析了几个现有的编译器的行为。我们使用Renaissance来比较两种最先进的、生产质量的JIT编译器(HotSpot C2和Graal)的性能，并表明性能差异比现有套件(如DaCapo和SPECjvm2008)更显著。我们还使用Renaissance公开了四个新的编译器优化，并分析了几个现有的编译器的行为。

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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Proceedings of the 40th ACM SIGPLAN Conference on Programming Language Design and Implementation

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