相分类结构

IEEE International Symposium on - ISPASS Performance Analysis of Systems and Software, 2004 Pub Date : 2004-03-10 DOI:10.1109/ISPASS.2004.1291356

Jeremy Lau, Stefan Schoenmackers, B. Calder

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引用次数: 120

摘要

大多数程序都是重复的，在不同的执行时间可以看到类似的行为。所提出的算法自动将这些相似的执行间隔分组为阶段，其中一个阶段中的所有间隔具有同类行为和相似的资源需求。在本文中，我们研究了捕捉相位行为的不同程序结构。目的是比较这些结构的尺寸和精度，以便进行相位分类。我们重点分析独立于底层架构性能指标的程序级结构的频率。这允许在支持相同指令集(ISA)的不同硬件设计中使用相位分类。我们比较了使用基本块、循环分支、过程、操作码、寄存器使用和内存地址信息来指导相位分类。我们比较了这些不同的结构在创建均匀相位方面的能力，并评估了使用这些结构为SimPoint选择模拟点的准确性。

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Structures for phase classification

Most programs are repetitive, where similar behavior can be seen at different execution times. Proposed algorithms automatically group these similar intervals of execution into phases, where all he intervals in a phase have homogeneous behavior and similar resource requirements. In this paper we examine different program structures for capturing phase behavior. The goal is to compare the size and accuracy of these structures for performing phase classification. We focus on profiling the frequency of program level structures that are independent from underlying architecture performance metrics. This allows the phase classification to be used across different hardware designs that support the same instruction set (ISA). We compare using basic blocks, loop branches, procedures, opcodes, register usage, and memory address information for guiding phase classification. We compare these different structures in terms of their ability to create homogeneous phases, and evaluate the accuracy of using these structures to pick simulation points for SimPoint.

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来源期刊

IEEE International Symposium on - ISPASS Performance Analysis of Systems and Software, 2004

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