Asynchronous transient resilient links for NoC

S. Ogg, B. Al-Hashimi, A. Yakovlev
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引用次数: 22

Abstract

This paper proposes a new link for asynchronous NoC communications that is resilient to transient faults on the wires of the link without impact on the data transfer capability. Resilience to transients is achieved by exploiting the phase relationship between data symbols and a common reference symbol where the symbols are transmitted using additional wires. Detection of transient faults is performed by comparison of the data symbol and the reference symbol. We demonstrate it is possible to achieve a similar number of transitions per bit as existing delay insensitive codes, from a power consumption point of view, but achieving resilience to transient faults. The link has been synthesized and validated using 0.12 ¼m technology and power, area and performance are given. It has been shown that the link area cost is 409 ¼m2 per data bit and energy per bit is 356 fJ/bit. Latency through the link is 0.8 ns and the maximum operating frequency or throughput of the link is 1.056 GHz.
NoC异步瞬态弹性链路
本文提出了一种异步NoC通信的新链路,该链路可以在不影响数据传输能力的情况下对链路上的瞬时故障进行恢复。通过利用数据符号和公共参考符号之间的相位关系实现对瞬变的弹性,其中符号使用额外的导线传输。通过比较数据符号和参考符号来实现暂态故障的检测。从功耗的角度来看,我们证明有可能实现与现有延迟不敏感码相似的每比特转换次数,但实现对瞬态故障的弹性。采用0.12 μ m工艺对该连杆进行了合成和验证,并给出了功率、面积和性能。结果表明,每数据位的链路面积成本为409¼m2,每比特的能量为356fj /bit。链路的时延为0.8 ns,最大工作频率或吞吐量为1.056 GHz。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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