通过统计仿真对超标量处理器进行建模

Proceedings 2001 International Conference on Parallel Architectures and Compilation Techniques Pub Date : 2001-09-08 DOI:10.1109/PACT.2001.953284

Sébastien Nussbaum, James E. Smith

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引用次数: 203

摘要

统计仿真是一种对超标量处理器进行快速性能评估的技术。首先，从程序的单个详细模拟中收集固有的统计信息。然后使用此信息生成合成指令跟踪，该跟踪将连同缓存和分支预测统计信息一起提供给简单的处理器模型。由于模拟的概率性质，它很快收敛到一个性能率。该方法的简单性和仿真速度使其适用于快速的设计空间探索;因此，它是传统详细模拟的一个很好的补充。针对不同的建模复杂度，对该技术的准确性进行了评估。详细研究了误差和收敛性。简单的指令模型与详细的仿真相比，平均误差为8%。更详细的指令模型将误差降低到5%，但需要大约三倍的时间才能收敛。

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Modeling superscalar processors via statistical simulation

Statistical simulation is a technique for fast performance evaluation of superscalar processors. First, intrinsic statistical information is collected from a single detailed simulation of a program. This information is then used to generate a synthetic instruction trace that is fed to a simple processor model, along with cache and branch prediction statistics. Because of the probabilistic nature of the simulation, it quickly converges to a performance rate. The simplicity and simulation speed make it useful for fast design space exploration; as such, it is a good complement to conventional detailed simulation. The accuracy of this technique is evaluated for different levels of modeling complexity. Both errors and convergence properties are studied in detail. A simple instruction model yields an average error of 8% compared with detailed simulation. A more detailed instruction model reduces the error to 5% but requires about three times as long to converge.

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Proceedings 2001 International Conference on Parallel Architectures and Compilation Techniques

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