Static timing analysis for modeling QoS in networks-on-chip |
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| Authors: | Evgeni KrimerAuthor Vitae Isaac KeslassyAuthor Vitae |
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| Affiliation: | a Department of Electrical and Computer Engineering, University of Texas at Austin, Austin, TX 78712, USAb Department of Electrical Engineering, Technion — Israel Institute of Technology, Haifa 32000, Israel |
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| Abstract: | Networks-on-chip (NoCs) are used in a growing number of SoCs and multi-core processors. Because messages compete for the NoC’s shared resources, quality of service and resource allocation are major concerns for system designers. In particular, a model for the properties of packet delivery through the network is desirable. We present a methodology for packet-level static timing analysis in NoCs. Our methodology quickly and accurately gauges the performance parameters of a virtual-channel wormhole NoC without simulation. The network model can handle any topology, link capacities, and buffer sizes. It provides per-flow delay analysis that is orders-of-magnitude faster than simulation while being significantly more accurate than prior static modeling techniques. Using a carefully derived and reduced Markov chain, the model can statically represent the dynamic network state. Usage of the model in a placement optimization problem is shown as an example application. |
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| Keywords: | Network-on-chip Wormhole routing/switching Virtual channels Static-timing-analysis Analytical model Quality of service |
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