Detecting Coarse - Grain Parallelism Using an Interprocedural Parallelizing Compiler

Mary W. Hall, Saman P. Amarasinghe, Brian R. Murphy, Shih-Wei Liao, M. Lam
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引用次数: 181

Abstract

This paper presents an extensive empirical evaluation of an interprocedural parallelizing compiler, developed as part of the Stanford SUIF compiler system. The system incorporates a comprehensive and integrated collection of analyses, including privatization and reduction recognition for both array and scalar variables, and symbolic analysis of array subscripts. The interprocedural analysis framework is designed to provide analysis results nearly as precise as full inlining but without its associated costs. Experimentation with this system shows that it is capable of detecting coarser granularity of parallelism than previously possible. Specifically, it can parallelize loops that span numerous procedures and hundreds of lines of codes, frequently requiring modifications to array data structures such as privatization and reduction transformations. Measurements from several standard benchmark suites demonstrate that an integrated combination of interprocedural analyses can substantially advance the capability of automatic parallelization technology.
使用程序间并行化编译器检测粗粒度并行性
本文提出了一个广泛的程序间并行编译器的经验评估,开发作为斯坦福大学SUIF编译器系统的一部分。该系统包括全面和综合的分析收集,包括数组和标量变量的私有化和减少识别,以及数组下标的符号分析。程序间分析框架旨在提供几乎与全内联一样精确的分析结果,但没有相关的成本。实验表明,该系统能够检测到比以前更粗粒度的并行性。具体地说,它可以并行化跨越许多过程和数百行代码的循环,经常需要修改数组数据结构,例如私有化和简化转换。来自几个标准基准测试套件的测量表明,程序间分析的集成组合可以大大提高自动并行化技术的能力。
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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