Using binary translation in event driven simulation for fast and flexible MPSoC simulation

M. Gligor, Nicolas Fournel, F. Pétrot
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引用次数: 73

Abstract

In this paper, we investigate the use of instruction set simulators (ISS) based on binary translation to accelerate full timed multiprocessor system simulation at transaction level. To have an accurate timing behavior, we had to firstly solve timing issues in processor modeling, secondly define fast and precise cache models, and thirdly solve the synchronization issues due to the different models of computation used in the ISSes and in the rest of the system. We present an integration solution that covers these issues and detail its implementation. We have experimented our proposal using processors models provided by the QEMU framework to replace the existing ISSes and SystemC TLM as simulation environment for the whole platform. This approach proposes a range of solutions trading off simulation speed versus accuracy. The experiments show that even for the most precise configuration, the simulation speedup is still significant.
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在事件驱动仿真中使用二进制转换实现快速灵活的MPSoC仿真
本文研究了基于二进制转换的指令集模拟器(ISS)在事务级加速全时多处理器系统仿真的方法。为了获得准确的计时行为,我们必须首先解决处理器建模中的计时问题,其次定义快速精确的缓存模型,第三解决由于isse和系统其他部分使用的不同计算模型而导致的同步问题。我们提供了一个集成解决方案,涵盖了这些问题并详细介绍了其实现。我们使用QEMU框架提供的处理器模型来替代现有的isse和SystemC TLM作为整个平台的仿真环境,对我们的建议进行了实验。这种方法提出了一系列解决方案,以权衡模拟速度与准确性。实验表明,即使对于最精确的配置,仿真加速仍然是显著的。
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