Fault tolerant application-specific NoC topology synthesis for three-dimensional integrated circuits

2011 IEEE International SOC Conference Pub Date : 2011-11-21 DOI:10.1109/SOCC.2011.6085088
Y. Zheng, Po-Ping Kan, Liang-Bi Chen, Kai-Yang Hsieh, Bo-Chuan Cheng, Katherine Shu-Min Li
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引用次数: 1

Abstract

This paper proposes a synthesis methodology for constructing Application-Specific NoCs topology in 3D chips. The multi-cores and communications can be synthesized simultaneously in the system-level floorplanning process with fault tolerant consideration. As a result, the experimental results show that the proposed approach produces 3D NoCs with lower power dissipation than previous works in multimedia applications with relatively small overhead of the number of Through-Silicon-Vias (TSVs) for achieving 100% fault tolerance in 3D NoC links based on single fault assumption.
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用于三维集成电路的容错专用NoC拓扑综合
本文提出了一种在三维芯片中构建特定应用noc拓扑的综合方法。多核和通信可以在系统级布局过程中同时合成,并考虑容错性。实验结果表明,该方法在多媒体应用中产生的3D NoC具有较低的功耗,并且基于单故障假设的3D NoC链路中tsv数量的开销相对较小,可以实现100%的容错。
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2011 IEEE International SOC Conference
2011 IEEE International SOC Conference
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Keynote speaker An analytical model to estimate PCM failure probability due to process variations A high-performance low VMIN 55nm 512Kb disturb-free 8T SRAM with adaptive VVSS control “Manufacturing test of systems-on-a-chip (SoCs)” A silicon core for an acoustic archival tag
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