Tunable Transient Filters for Soft Error Rate Reduction in Combinational Circuits

2008 13th European Test Symposium Pub Date : 2008-05-25 DOI:10.1109/ETS.2008.39
Q. Zhou, M. Choudhury, K. Mohanram
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引用次数: 30

Abstract

This paper describes a tunable transient filter (TTF) design for soft error rate reduction in combinational logic circuits. TTFs can be inserted into combinational circuits to suppress propagated single- event upsets (SEUs) before they can be captured in latches/flip- flops. TTFs are tuned by adjusting the maximum width of the propagated SEU that can be suppressed. TTFs require 6-14 transistors, making them an attractive cost-effective option to reduce the soft error rate in combinational circuits. A global optimization approach based on geometric programming that integrates TTF insertion with dual-VoD and gate sizing is described. Simulation results for the 70 nm process technology indicate that a 17-48X reduction in the soft error rate can be achieved with this approach.
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用于降低组合电路软错误率的可调瞬态滤波器
本文介绍了一种可调瞬态滤波器(TTF)的设计,用于降低组合逻辑电路中的软错误率。ttf可以插入到组合电路中,在它们被锁存器/触发器捕获之前抑制传播的单事件干扰(seu)。ttf是通过调整可抑制的传播的SEU的最大宽度来调整的。ttf需要6-14个晶体管,使其成为降低组合电路软错误率的有吸引力的经济有效的选择。提出了一种基于几何规划的TTF插入、双点阵点阵和栅极尺寸集成的全局优化方法。70 nm工艺的仿真结果表明,采用该方法可将软错误率降低17-48倍。
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2008 13th European Test Symposium
2008 13th European Test Symposium
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