A defect-tolerant cluster in a mesh SRAM-based FPGA

2013 International Conference on Field-Programmable Technology (FPT) Pub Date : 2013-12-01 DOI:10.1109/FPT.2013.6718407

Arwa Ben Dhia, S. Rehman, Adrien Blanchardon, L. Naviner, M. Benabdenbi, R. Chotin-Avot, Emna Amouri, H. Mehrez, Z. Marrakchi

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引用次数: 4

Abstract

In this paper, we propose the implementation of multiple defect-tolerant techniques on an SRAM-based FPGA. These techniques include redundancy at both the logic block and intra-cluster interconnect. In the logic block, redundancy is implemented at the multiplexer level. Its efficiency is analyzed by injecting a single defect at the output of a multiplexer, considering all possible locations and input combinations. While at the interconnect level, fine grain redundancy is introduced which not only bypasses defects but also increases routability. Taking advantage of the sparse intra-cluster interconnect structures, routability is further improved by efficient distribution of feedback paths allowing more flexibility in the connections among logic blocks. Emulation results show a significant improvement of about 15% and 34% in the robustness of logic block and intra-cluster interconnect respectively. Furthermore, the impact of these hardening schemes on the testability of the FPGA cluster for manufacturing defects is also investigated in terms of maximum achievable fault coverage and the respective cost.

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基于网格sram的FPGA中的容错集群

在本文中，我们提出在基于sram的FPGA上实现多种容错技术。这些技术包括逻辑块和集群内互连的冗余。在逻辑块中，冗余在多路复用器级别实现。在考虑所有可能的位置和输入组合的情况下，通过在多路复用器的输出端注入单个缺陷来分析其效率。而在互连层，引入细粒度冗余，不仅绕过了缺陷，而且提高了可达性。利用稀疏的簇内互连结构，通过有效的反馈路径分配进一步提高了可达性，从而使逻辑块之间的连接更加灵活。仿真结果表明，该方法对逻辑块和簇内互连的鲁棒性分别提高了15%和34%。此外，还从最大可实现故障覆盖率和各自成本的角度研究了这些强化方案对FPGA集群制造缺陷可测试性的影响。

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 International Conference on Field-Programmable Technology (FPT)

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