A systematic evaluation of emerging mesh-like CMP NoCs

2015 ACM/IEEE Symposium on Architectures for Networking and Communications Systems (ANCS) Pub Date : 2015-05-07 DOI:10.1109/ANCS.2015.7110129

Antonis Psathakis, Vassilis D. Papaefstathiou, Nikolaos Chrysos, Fabien Chaix, E. Vasilakis, D. Pnevmatikatos, M. Katevenis

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引用次数: 14

Abstract

This paper studies alternative Network-on-Chip architectures for emerging many-core chip multiprocessors, by exploring the following design options on mesh-based networks: Multiple physical networks (P), cores concentration (C), express channels (X), it widths (W), and virtual channels (V). We exhaustively evaluate all combinations of the afore-mentioned parameters (P, C, X, W, V), using the energy-throughput ratio (ETR) as a metric to classify network congurations. Our experimental results show that, on one hand, with an appropriate selection of parameters (V,W), an optimized baseline 2D mesh offers the best possible ETR for NoCs with up to a few tens of cores (64-core NoC). More complicated networks, using concentration and express channels, can reduce the zero-load latency, but do not necessarily help to improve ETR. On the other hand, for larger CMPs, a 2D mesh with multiple physical networks is a better option: once optimized, this architectural choice can reduce the ETR by up to 46% for 256 cores.

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新兴网状CMP noc的系统评价

本文通过探索基于网格的网络上的以下设计选项，研究了新兴多核芯片多处理器的备选片上网络架构:多个物理网络(P)，核心浓度(C)，快速通道(X)，它的宽度(W)和虚拟通道(V)。我们详尽地评估了上述参数(P, C, X, W, V)的所有组合，使用能量-吞吐量比(ETR)作为分类网络配置的度量。我们的实验结果表明，一方面，通过适当的参数选择(V,W)，优化的基线2D网格为多达几十核的NoC(64核NoC)提供了最佳的ETR。更复杂的网络，使用集中和快速通道，可以减少零负载延迟，但不一定有助于提高ETR。另一方面，对于较大的cmp，具有多个物理网络的2D网格是更好的选择:一旦优化，这种架构选择可以将256核的ETR降低高达46%。

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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来源期刊

2015 ACM/IEEE Symposium on Architectures for Networking and Communications Systems (ANCS)

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