REPAIR: A Reliable Partial-Redundancy-Based Router in NoC

2013 IEEE Eighth International Conference on Networking, Architecture and Storage Pub Date : 2013-07-17 DOI:10.1109/NAS.2013.28

Lei Xie, K. Mei, Yuhai Li

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引用次数: 15

Abstract

As scale and integration density of network-on-chip increase sharply, more transistors have been integrated into one chip. This unfortunately leads to more unexpected variations and faults in system. In particular, the transient errors and hardware permanent faults have rapidly become the key constraint for large-scale network design. This increasing tendency highlights the incorporation of fault-tolerant solutions for Network-on-Chip (NoC) architecture. In this paper we propose a Reliable Partial-Redundancy-based router architecture (REPAIR). The proposed scheme merely utilizes an additional buffer and a bus to enhance the connectivity of the data path in router. Meanwhile, REPAIR also employs error control coding (ECC) modules and decision-table-based (DT) control logic to implement an efficient online diagnosis and reconfigurable mechanism respectively. The experimental results show the good ability of REPAIR to tolerate hard faults under a high fault rates. Specifically, the silicon protection factor (SPF) of individual router reaches 16.34 and over 95% packets still can be successfully transferred in 16x16 torus network with 650 faults.

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修复:一个可靠的基于部分冗余的NoC路由器

随着片上网络的规模和集成密度的急剧提高，越来越多的晶体管被集成到一个芯片上。不幸的是，这导致了系统中更多意想不到的变化和故障。特别是暂态误差和硬件永久故障已迅速成为大规模网络设计的关键制约因素。这种日益增长的趋势突出了片上网络(NoC)架构中容错解决方案的结合。本文提出了一种基于部分冗余的可靠路由器结构(REPAIR)。该方案仅利用一个额外的缓冲区和一个总线来增强路由器中数据路径的连通性。同时，REPAIR还采用了错误控制编码(ECC)模块和基于决策表(DT)的控制逻辑，分别实现了高效的在线诊断和可重构机制。实验结果表明，在高故障率下，REPAIR具有良好的容错能力。具体来说，在16 × 16环面网络中，单个路由器的硅保护系数(SPF)达到16.34，在650个故障的情况下，仍然可以成功传输95%以上的数据包。

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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2013 IEEE Eighth International Conference on Networking, Architecture and Storage

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