Cross-Layer Fault-Space Pruning for Hardware-Assisted Fault Injection

2018 55th ACM/ESDA/IEEE Design Automation Conference (DAC) Pub Date : 2018-06-01 DOI:10.1145/3195970.3196019
Christian J. Dietrich, Achim Schmider, Oskar Pusz, G. P. Vayá, D. Lohmann
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引用次数: 7

Abstract

With shrinking structure sizes, soft-error mitigation has become a major challenge in the design and certification of safety-critical embedded systems. Their robustness is quantified by extensive fault-injection campaigns, which on hardware level can nevertheless cover only a tiny part of the fault space.We suggest Fault-Masking Terms (MATEs) to effectively prune the fault space for gate-level fault injection campaigns by using the (software-induced) hardware state to dynamically cut off benign faults. Our tool applied to an AVR core and a size-optimized MSP430 implementation shows that up to 21 percent of all SEUs on flip-flop level are masked within one clock cycle.
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硬件辅助故障注入的跨层故障空间剪枝
随着结构尺寸的缩小,软错误缓解已经成为安全关键型嵌入式系统设计和认证的主要挑战。它们的鲁棒性是通过广泛的故障注入活动来量化的,然而在硬件层面上,这些活动只能覆盖故障空间的一小部分。我们建议使用(软件诱导的)硬件状态来动态切断良性故障,从而使用故障屏蔽术语(MATEs)来有效地修剪门级故障注入活动的故障空间。我们的工具应用于AVR内核和尺寸优化的MSP430实现,结果表明,在一个时钟周期内,触发器电平上高达21%的seu被屏蔽。
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2018 55th ACM/ESDA/IEEE Design Automation Conference (DAC)
2018 55th ACM/ESDA/IEEE Design Automation Conference (DAC)
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