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    Design and Implementation of Backtracking Wave-Pipeline Switch to Support Guaranteed Throughput in Network-on-Chip

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    Abstract—It is a challenging task in a network-on-chip to design an on-chip switch/router to dynamically support (hard) guaranteed throughput under very tight on-chip constraints of power, timing, area, and time-to-market. This paper presents the design and implementation of a novel pipeline circuit-switched switch to support guaranteed throughput. The proposed circuit-switched switch, based on a backtracking probing path setup, operates with a source-synchronous wave-pipeline approach. The switch can support a dead- and live-lock free dynamic path-setup scheme and can achieve high bandwidth and high area and energy efficiency. A silicon-proven prototype of a 16-bit-data 5-bidirectional-port switch in a four-metal-layer 0.18- m CMOS standard-cell technology can yield an aggregate data bandwidth of up to 73.84 Gb/s, while occupying only a modest area of 0.0315 mm2. The synthesizable implementation of the proposed switch also results in a cost-effective design, fast development time, and portability. Index Terms—Backtracking, circuit-switched, dynamic path-setup, guaranteed throughput, network-on-chip (NoC)
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