An Energy-Efficient NoC Router with Adaptive Fault-Tolerance Using Channel Slicing and On-Demand TMR

Autor: Mo Yang, Paul Ampadu, Cheng Li
Rok vydání: 2018
Předmět:
Zdroj: IEEE Transactions on Emerging Topics in Computing. 6:538-550
ISSN: 2376-4562
DOI: 10.1109/tetc.2016.2597799
Popis: The competing goals of energy-efficiency, performance, and fault tolerance have not been well bridged in current NoC designs. In this paper, we propose an energy-efficient NoC router that exhibits strong fault-tolerance by leveraging channel slicing. This router has three identical router slices connected with internal sharing paths. Channel slicing reduces the overhead of applying power gating to improve energy-efficiency. When faults occur in any of the slices, resource sharing is enabled to enhance fault-tolerance. These router slices can also be harnessed for on-demand TMR, to further improve fault-tolerance and reduce the need for deploying costly on-chip testers. Our method can diagnose and repair both control and datapath faults without interrupting normal NoC operations. Experimental results show that our proposed router can tolerate 180 percent more gate faults than the state-of-the-art fault-tolerant NoC router architecture HPR. In addition, 64 percent energy improvement at low injection rate, and 28 percent energy improvement at high injection rate are achieved compared to HPR. Furthermore, our method attains 100 percent higher throughput (with 40 faults in one router) compared to HPR. Our proposed method increases router logic area by 7.8 percent compared to baseline.
Databáze: OpenAIRE
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