Flow Maximization for NoC Routing Algorithms
Montpellier(2008)
摘要
In this paper, we apply flow maximization and develop a minimal adaptive routing scheme towards lower average packet latencies in a network-on-chip. The minimal adaptive algorithm allows packets to be forwarded in multiple directions. Typical routing algorithms select the next hop path for each packet and then resolve conflicts between packets that have been selected to have the same next hop path. We propose a novel decision flow which combines routing direction and port arbitration while maximizing flow. Upon a 2-D mesh NoC, our implementation lowers average packet latencies across all packet injection rates of an NoC.
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关键词
network routing,minimal adaptive routing scheme,congestion control,flow maximization,typical routing algorithm,novel decision flow,average packet latency,packet injection rates,minimal adaptive,adaptive routing,minimal adaptive algorithm,2-d mesh,decision flow,noc routing algorithms,network-on-chip,packet injection rate,lower average packet latency,next hop path,stochastic processes,network on a chip,topology,algorithm design and analysis,network on chip,silicon,computer architecture,classification algorithms,very large scale integration,routing
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