A practical low-latency router architecture with wing channel for on-chip network

2011 
With increasing number of cores, the communication latency of Network-on-Chip becomes a dominant problem due to complex operations per node. In this paper, we try to reduce communication latency by proposing single-cycle router architecture with wing channel, which forwards the incoming packets to free ports immediately with the inspection of switch allocation results. Also, the incoming packets granted with wing channel can fill in the time-slots of crossbar switch and reduce the contentions with subsequent ones, thereby pushing throughput effectively. We design the proposed router using 65nm CMOS process, and the results show that it supports different routing schemes and outperforms express virtual channel, prediction and Kumar's single-cycle ones in terms of latency and throughput. When compared to the speculative router, it provides 45.7% latency reduction and 14.0% throughput improvement. Moreover, we show that the proposed design incurs a modest area overhead of 8.1% but the power consumption is saved by 7.8% due to less arbitration activities.
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