基于fpga的TMR电路中基于动态部分重构的有界错误恢复时间研究

2013 23rd International Conference on Field programmable Logic and Applications Pub Date : 2013-10-24 DOI:10.1109/FPL.2013.6645571

E. Çetin, O. Diessel, Lingkan Gong, Victor Lai

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引用次数: 16

摘要

现场可编程门阵列(FPGA)系统越来越容易受到辐射引起的单事件干扰(SEUs)的影响。应用电路通常使用三模冗余(TMR)和擦除来消除配置内存错误。本文的重点是实现在指定的最大恢复周期内从seu恢复的电路，这是以前没有解决的实际需求。我们开发了一个恢复时间模型，描述了一个可扩展的重新配置控制网络，并研究了使用我们的方法实现的代表性TMR系统的性能。结果表明，与洗涤相比，模块化重构能更快地消除构型误差，且能耗更低。然而，这些好处是以额外的面积、较小的速度损失和更大的设计复杂性为代价的。

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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Towards bounded error recovery time in FPGA-based TMR circuits using dynamic partial reconfiguration

Field-Programmable Gate Array (FPGA) systems are increasingly susceptible to radiation-induced Single Event Upsets (SEUs). Application circuits are most commonly protected from SEUs using Triple Modular Redundancy (TMR) and scrubbing to eliminate configuration memory errors. This paper focuses on implementing circuits that recover from SEUs within a specified maximum recovery period, a practical requirement not previously addressed. We develop a recovery time model, describe a scalable reconfiguration control network, and investigate the performance of a representative TMR system implemented using our approach. The results demonstrate that modular reconfiguration eliminate configuration errors more responsively and using less energy than scrubbing. However, these benefits are achieved at the cost of additional area, minor speed penalties, and greater design complexity.

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2013 23rd International Conference on Field programmable Logic and Applications

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