Statistical simulation of chip multiprocessors running multi-program workloads

Davy Genbrugge, L. Eeckhout
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引用次数: 18

Abstract

This paper explores statistical simulation as a fast simulation technique for driving chip multiprocessor (CMP) design space exploration. The idea of statistical simulation is to measure a number of important program execution characteristics, generate a synthetic trace, and simulate that synthetic trace. The important benefit is that a synthetic trace is very small compared to real program traces. This paper advances statistical simulation by modeling shared resources, such as shared caches and off-chip bandwidth. This is done (i) by collecting cache set access probabilities and per-set LRU stack depth profiles, and (ii) by modeling a programpsilas time-varying execution behavior in the synthetic trace. The key benefit is that the statistical profile is independent of a given cache configuration and the amount of multiprocessing, which enables statistical simulation to model conflict behavior in shared caches when multiple programs are co-executing on a CMP. We demonstrate that statistical simulation is both accurate and fast with average IPC prediction errors of less than 5.5% and simulation speedups of 40X to 70X compared to the detailed simulation of 100M-instruction traces. This makes statistical simulation a viable tool for CMP design space exploration.
芯片多处理器运行多程序工作负载的统计模拟
本文探讨了统计仿真作为一种驱动芯片多处理器(CMP)设计空间探索的快速仿真技术。统计模拟的思想是度量许多重要的程序执行特征,生成合成跟踪,并模拟该合成跟踪。重要的好处是,与真正的程序跟踪相比,合成跟踪非常小。本文通过对共享资源(如共享缓存和片外带宽)的建模来推进统计仿真。这是通过(i)收集缓存集访问概率和每集LRU堆栈深度概况,以及(ii)通过在合成跟踪中对程序的时变执行行为进行建模来完成的。关键的好处是,统计概要文件独立于给定的缓存配置和多处理数量,这使得当多个程序在CMP上共同执行时,可以对共享缓存中的冲突行为进行统计模拟。我们证明了统计模拟既准确又快速,平均IPC预测误差小于5.5%,与100m指令迹线的详细模拟相比,模拟速度为40X至70X。这使得统计模拟成为CMP设计空间探索的可行工具。
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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