Reliable performance analysis of a multicore multithreaded system-on-chip

S. Schliecker, Mircea Negrean, G. Nicolescu, P. Paulin, R. Ernst
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引用次数: 45

Abstract

Formal performance analysis is now regularly applied in the design of distributed embedded systems such as automotive electronics, where it greatly contributes to an improved predictability and platform robustness of complex networked systems. Even though it might be highly beneficial also in MpSoC design, formal performance analysis could not easily be applied so far, because the classical task communication model does not cover processor-memory traffic, which is an integral part of MpSoC timing. Introducing memory accesses as individual transactions under the classical model has shown to be inefficient, and previous approaches work well only under strict orthogonalization of different traffic streams. Recent research has presented extensions of the classical task model and a corresponding analysis that covers performance implications of shared memory traffic. In this paper we present a multithreaded multiprocessors platform and multimedia application. We conduct performance analysis using the new analysis options and specifically benchmark the quality of the available approach. Our experiments show that corner case coverage can now be supplied with a very high accuracy, allowing to quickly investigate architectural alternatives.
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多核多线程片上系统的可靠性能分析
正式的性能分析现在经常应用于分布式嵌入式系统的设计中,例如汽车电子,它极大地提高了复杂网络系统的可预测性和平台鲁棒性。尽管它可能在MpSoC设计中也非常有益,但到目前为止,正式的性能分析还不能很容易地应用,因为经典的任务通信模型不包括处理器-内存流量,这是MpSoC时序的一个组成部分。在经典模型下,将内存访问作为单个事务引入是低效的,而且以前的方法只有在不同流量流的严格正交化下才能很好地工作。最近的研究提出了经典任务模型的扩展和相应的分析,涵盖了共享内存流量的性能影响。本文提出了一个多线程多处理器平台和多媒体应用。我们使用新的分析选项进行性能分析,并特别对可用方法的质量进行基准测试。我们的实验表明,角落案例覆盖现在可以以非常高的精度提供,允许快速调查架构替代方案。
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