High-level modeling approach for analyzing the effects of traffic models on power and throughput in mesh-based NoCs

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Koohi, S ; Sharif University of Technology | 2008

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Type of Document: Article
DOI: 10.1109/VLSI.2008.40
Publisher: 2008
Abstract:
Traffic models exert different message flows in a network and have a considerable effect on power consumption through different applications. So a good power analysis should consider traffic models. In this paper we present power and throughput models in terms of traffic rate parameters for the most popular traffic models, i.e. Uniform, Local, HotSpot and First Matrix Transpose (FMT) as a permutational traffic model. We also select Mesh topology as the most prominent NoC topology and validate the presented models by comparing our results against simulation results from Synopsys Power Compiler and Modelsim From the comparison, we show that our modeling approach leads to average error of 2% for power and 2.8% for throughput modeling. © 2008 IEEE
Keywords:
Electric network topology ; Operations research ; Topology ; Average errors ; High-level modeling ; Hot spotting ; International conferences ; Matrix transpose ; Mesh topologies ; Message flows ; Modeling approaches ; Modelsim ; Power analysis ; Power consumption (CE) ; Simulation results ; Synopsys (CO) ; Throughput modeling ; Traffic modelling ; Traffic rates ; VLSI designs ; Throughput
Source: Proceedings of the IEEE International Frequency Control Symposium and Exposition, 4 January 2008 through 8 January 2008, Hyderabad ; 2008 , Pages 415-420 ; 0769530834 (ISBN); 9780769530833 (ISBN)
URL: https://ieeexplore.ieee.org/document/4450536