Hierarchical specification-driven analog fault modeling for efficient fault simulation and diagnosis

Proceedings International Test Conference 1997 Pub Date : 1997-11-01 DOI:10.1109/TEST.1997.639705

R. Voorakaranam, S. Chakrabarti, J. Hou, A. Gomes, S. Cherubal, A. Chatterjee, W. Kao

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引用次数: 53

Abstract

In this paper we discuss the capabilities of the MiST PROFIT (Mixed Signal Test Program for Fault Insertion and Testing) software for hierarchical fault modeling, tolerance modeling, fault clustering and fault diagnosis of complex mixed-signal systems. The software is designed to exploit the relationships between high level system specifications and module-level faults in complex and nonlinear mixed signal systems. Hierarchical simulation based methods are used to capture fault effects at different levels of circuit abstraction. The key features of our approach are: (a) the ability to compute tolerance effects from nonlinear behavioral models at different levels of circuit design hierarchy accurately using low-cost simulation based methods, (b) the ability to perform compaction of fault effects while transferring fault effects from the leaf cells to the highest level behavioral models, (c) the ability to capture parametric (soft) failure effects over the entire anticipated range of faulty parameter values and (d) the ability to construct fault dictionaries given a set of least replaceable units to diagnose.

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分层规范驱动的模拟故障建模，实现高效的故障仿真与诊断

本文讨论了MiST PROFIT (Mixed Signal Test Program for Fault Insertion and Testing)软件在复杂混合信号系统的分层故障建模、容错建模、故障聚类和故障诊断方面的能力。该软件旨在开发复杂和非线性混合信号系统中高层系统规格与模块级故障之间的关系。采用基于层次仿真的方法捕捉电路抽象不同层次的故障影响。我们的方法的主要特点是:(a)使用基于低成本仿真的方法准确计算电路设计层次中不同层次非线性行为模型的容差效应的能力;(b)在将故障效应从叶细胞转移到最高级行为模型时执行故障效应压缩的能力;(c)在故障参数值的整个预期范围内捕获参数(软)故障影响的能力和(d)在给定一组最小可替换单元进行诊断的情况下构建故障字典的能力。

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 International Test Conference 1997

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