区域分析:数据流分析的并行消除方法

Proceedings of 1994 IEEE International Conference on Computer Languages (ICCL'94) Pub Date : 1994-05-16 DOI:10.1109/ICCL.1994.288395

Yong-Fong Lee, B. Ryder, M. Fiuczynski

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引用次数: 26

摘要

并行数据流分析方法提供了在编译时比顺序技术更有效地计算有关程序的详细语义信息的希望。由于缺乏对区间大小的控制，以前关于并行消去方法的工作受到了阻碍;这可能会妨碍这些方法的有效并行执行。为了克服这一问题，我们设计了一种新的数据流分析消去方法——区域分析法。区域分析强调流图划分，以便在更有效的并行算法中实现更好的负载平衡。本文提出了区域分析的设计方法，并得到了一些实证结果，这些结果表明:由实际程序导出的流程图中普遍存在大区间;区域分析相对于并行Allen-Cocke区间分析的性能改进。我们的实现分析了在Sequent Symmetry S81上运行的Perfect benchmark和netlib程序。

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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Region analysis: a parallel elimination method for data flow analysis

Parallel data flow analysis methods offer the promise of calculating detailed semantic information about a program at compile-time more efficiently than sequential techniques. Previous work on parallel elimination methods has been hampered by the lack of control over interval size; this can prohibit effective parallel execution of these methods. To overcome this problem, we have designed the region analysis method, a new elimination method for data flow analysis. Region analysis emphasizes flow graph partitioning to enable better load balancing in a more effective parallel algorithm. We present the design of region analysis and the empirical results we have obtained that indicate: the prevalence of large intervals in flow graphs derived from real programs; and the performance improvement of region analysis over parallel Allen-Cocke interval analysis. Our implementation analyzed programs from the Perfect Benchmarks and netlib running on a Sequent Symmetry S81.<>

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Proceedings of 1994 IEEE International Conference on Computer Languages (ICCL'94)

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