Multiprocessor performance estimation using hybrid simulation

2008 45th ACM/IEEE Design Automation Conference Pub Date : 2008-06-08 DOI:10.1145/1391469.1391552

L. Gao, K. Karuri, S. Kraemer, R. Leupers, G. Ascheid, H. Meyr

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引用次数: 44

Abstract

With the growing number of programmable processing elements in today's Multiprocessor System-on-Chip (MPSoC) designs, the synergy required for the development of the hardware architecture and the software running on them is also increasing. In MPSoC development environment, changes in the hardware architecture can bring in extensive re-partitioning or re-parallelization of the software architecture. Fast and accurate functional simulation and performance estimation techniques are needed to cope with this co-design problem at the early phases of MPSoC design space exploration. The current paper addresses this issue by introducing a framework which combines hybrid simulation, cache simulation and online trace-driven replay techniques to accurately predict performance of programmable elements in an MPSoC environment. The resulting simulation technique can easily cope with the continuous re-organizations of software architectures during an Instruction Set Simulator (ISS) based design process. Experimental results show that this framework can improve system simulation speed by 3-5X on average while achieving accuracy closely comparable to traditional ISSes.

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基于混合仿真的多处理器性能估计

随着当今多处理器片上系统(MPSoC)设计中可编程处理元件的数量不断增加，硬件架构和运行在其上的软件开发所需的协同作用也在增加。在MPSoC开发环境中，硬件体系结构的变化会导致软件体系结构的重新分区或重新并行化。在MPSoC设计空间探索的早期阶段，需要快速准确的功能仿真和性能评估技术来应对这种协同设计问题。本文通过引入一个框架来解决这个问题，该框架结合了混合仿真、缓存仿真和在线跟踪驱动重放技术，以准确预测MPSoC环境中可编程元件的性能。在基于指令集模拟器(ISS)的设计过程中，所得到的仿真技术可以很容易地处理软件体系结构的不断重组。实验结果表明，该框架可将系统仿真速度平均提高3-5倍，同时达到与传统isse相当的精度。

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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2008 45th ACM/IEEE Design Automation Conference

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