S. Ogg scite author profile

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 µm technology and power, area and performance are given. It has been shown that the link area cost is 409 µm 2 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.

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Serialized asynchronous links for NoC

Ogg

Valli

Al-Hashimi

et al. 2008

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Reducing Interconnect Cost in NoC through Serialized Asynchronous Links

Ogg

Valli

D'Alessandro

et al. 2007

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S. Ogg

Improved data compression for serial interconnected network on chip through unused significant bit removal

Asynchronous transient resilient links for NoC

Serialized asynchronous links for NoC

Reducing Interconnect Cost in NoC through Serialized Asynchronous Links

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