嵌入式应用的可扩展分布式SystemC仿真

Kai Huang, Iuliana Bacivarov, Fabian Hugelshofer, L. Thiele
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引用次数: 49

摘要

作为一种高效的系统级建模语言和仿真平台,SystemC越来越受欢迎。然而,单线程仿真内核阻碍了其性能的进步,使其无法发挥现代多核机器的潜力。现代嵌入式应用程序变得越来越复杂,这进一步加剧了这种情况。在本文中,我们提出了一种技术,该技术在不修改SystemC仿真内核的情况下支持任意数量的SystemC仿真的地理分布。该技术适用于分布函数和近似时间的TLM仿真。我们将该技术集成到一个完整的MPSoC设计空间探索框架中,所获得的改进是有希望的。
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Scalably distributed SystemC simulation for embedded applications
SystemC becomes popular as an efficient system-level modelling language and simulation platform. However, the sole-thread simulation kernel obstacles its performance progress from the potential of modern multi-core machines. This is further aggravated by modern embedded applications that are getting more complex. In this paper, we propose a technique which supports the geographical distribution of an arbitrary number of SystemC simulations, without modifying the SystemC simulation kernel. This technique is suited to distribute functional and approximated-timed TLM simulation. We integrate this technique into a complete MPSoC design space exploration framework and the improvement gained is promising.
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