An approach to evaluating the effects of realistic faults in digital circuits

Proceedings Twelfth International Conference on VLSI Design. (Cat. No.PR00013) Pub Date : 1999-01-10 DOI:10.1109/ICVD.1999.745158

Z. Kalbarczyk, J. Patel, Myeong S. Lee, R. Iyer

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引用次数: 1

Abstract

This paper presents a hierarchical simulation methodology that enables accurate system evaluation under realistic faults and conditions. The methodology spans the entire range of analysis from the device level to the system level. In this study we focus on two low levels of the simulation hierarchy-the device level and the circuit level. The primary fault model is obtained via simulation of the transistor-level effect of radiation particles penetrating the device. The resulting current bursts constitute the first-level fault dictionary and are used in the circuit-level simulation to determine the impact on circuit latches and flip-flops. The resulting outputs are recorded in the fault dictionary and can be used to analyze the impact of transients at the higher simulation levels, i.e., the chip level and the system level. The study demonstrated that the proposed hierarchical fault injection methodology is able to precisely capture the generation of transients in digital devices and thus provides a basis for realistic system evaluation.

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一种评估数字电路实际故障影响的方法

本文提出了一种分层仿真方法，可以在实际故障和条件下对系统进行准确的评估。该方法涵盖了从设备级到系统级的整个分析范围。在本研究中，我们主要关注仿真层次的两个低层次——器件级和电路级。通过模拟辐射粒子穿透器件的晶体管级效应，得到了初级故障模型。由此产生的突发电流构成第一级故障字典，并用于电路级仿真，以确定对电路锁存器和触发器的影响。由此产生的输出记录在故障字典中，并可用于分析更高仿真级别(即芯片级和系统级)的瞬变影响。研究表明，所提出的分层故障注入方法能够准确地捕捉数字设备中暂态的产生，从而为现实的系统评估提供了基础。

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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Proceedings Twelfth International Conference on VLSI Design. (Cat. No.PR00013)

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