A 1.0TOPS/W 36-core neocortical computing processor with 2.3Tb/s Kautz NoC for universal visual recognition
ISSCC(2012)
摘要
In this paper, an NC processor for power-efficient real-time universal visual recognition is proposed with following features: 1) A grey matter-like homogeneous many-core architecture with event-driven hybrid MIMD execution provides 1.0TOPS/W efficient acceleration for NC operations; 2) A white matter-like Kautz NoC provides 2.3Tb/s throughput, fault/congestion avoidance and redundancy-free multicast with 151Tb/s/W NoC power efficiency, which is 2.7-3.9x higher than previous NoC-based visual recognition processors.
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关键词
parallel processing,noc power efficiency,redundancy-free multicast,fault-congestion avoidance,nc processor,power-efficient real-time universal visual recognition,image recognition,white-matter-like kautz noc,multiprocessing systems,event-driven hybrid mimd execution,36-core neocortical computing processor,grey matter-like homogeneous many-core architecture,network-on-chip,routing,feature extraction,visualization,real time,network on chip,sparse matrix,real time systems
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