面向PGAS编程模型的异构体系结构NoC仿真

M-SCOPES Pub Date : 2013-06-19 DOI:10.1145/2463596.2463606
Sascha Roloff, A. Weichslgartner, Jan Heisswolf, Frank Hannig, J. Teich
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引用次数: 2

摘要

多核和多核系统变得越来越主流,因此引入了新的通信基础设施,如片上网络(NoC)和新的编程语言,如IBM的X10及其分区的全局地址空间(PGAS)。在本文中,我们提出了一个基于X10的模拟器,它能够模拟发生在X10程序内部的网络流量。这种整体方法可以同时模拟功能和指示的流量,而纯网络模拟器通常只使用合成流量或跟踪。我们将解释如何从X10运行时提取通信开销,以及如何模拟NoC行为。在实验中,我们表明所提出的模拟器比基于systemc的模拟器快10倍,同时保持了较高的精度。此外,我们提出了质量和仿真速度的权衡,通过使用不同的仿真模式的一组真实世界的并行应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NoC simulation in heterogeneous architectures for PGAS programming model
Multi- and many-core systems become more and more mainstream and therefore new communication infrastructures like Networks-on-Chip (NoC) and new programming languages like IBM's X10 with its partitioned global address space (PGAS) are introduced. In this paper we present an X10-based simulator, which is capable to simulate the network traffic that occurs inside the X10 program. This holistic approach enables to simulate the functionality and the indicated traffic together, in contrast to pure network simulators where usually only synthetic traffic or traces are used. We explain how the communication overhead is extracted from the X10 run-time and how to simulate the NoC behavior. In experiments we show that the proposed simulator is up to 10 x faster than a comparable SystemC-based simulator and at the same time preserves high accuracy. Furthermore, we present a quality and simulation speed tradeoff by using different simulation modes for a set of real world parallel applications.
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