使用路径配置文件改进数据流分析

Proceedings of the ACM SIGPLAN 1998 conference on Programming language design and implementation Pub Date : 1998-05-01 DOI:10.1145/277650.277665

Glenn Ammons, J. Larus

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引用次数: 112

摘要

数据流分析通过控制流图中的路径计算其解。这些路径——无论可行或不可行，大量执行或很少执行——对解决方案的贡献都是一样的。然而，程序只执行其潜在路径的一小部分，而且，程序的执行时间和成本集中在热路径的一个小得多的子集上。本文提出了一种分析和优化程序的新方法，提高了热路径数据流分析的精度。我们的技术识别和复制热路径，创建热路径图，其中这些路径是隔离的。流分析后，对图进行简化，以消除不必要的重复路径。在SPEC95基准测试的实验中，路径限定识别出的非局部常数(动态加权)是Wegman-Zadek条件常数算法的2- 112倍，后者转化为具有恒定结果的1- 7%的动态指令。

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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Improving data-flow analysis with path profiles

Data-flow analysis computes its solutions over the paths in a control-flow graph. These paths---whether feasible or infeasible, heavily or rarely executed---contribute equally to a solution. However, programs execute only a small fraction of their potential paths and, moreover, programs' execution time and cost is concentrated in a far smaller subset of hot paths.This paper describes a new approach to analyzing and optimizing programs, which improves the precision of data flow analysis along hot paths. Our technique identifies and duplicates hot paths, creating a hot path graph in which these paths are isolated. After flow analysis, the graph is reduced to eliminate unnecessary duplicates of unprofitable paths. In experiments on SPEC95 benchmarks, path qualification identified 2--112 times more non-local constants (weighted dynamically) than the Wegman-Zadek conditional constant algorithm, which translated into 1--7% more dynamic instructions with constant results.

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Proceedings of the ACM SIGPLAN 1998 conference on Programming language design and implementation

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