Optimization of test time and fault grading of functional test vectors using fault simulation flow

2014 International Conference on Electronics, Communication and Computational Engineering (ICECCE) Pub Date : 2014-11-01 DOI:10.1109/ICECCE.2014.7086633

S. Praveen, S. Yellampalli, Ashish Kothari

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引用次数: 4

Abstract

Structural test is the most efficient test to detect manufacturing defects. With ever increasing complexity of digital designs, structural test vectors alone are not sufficient to achieve the desired fault coverage. Functional test vectors are programs written with the design specifications in mind rather than manufacturing defects and this can help in testing some of the critical portions of design. Functional test vectors are given by the functional verification team. Structural and Functional tests put together can increase the Test quality very significantly. Unlike structural test vectors, functional test vectors do not offer test coverage metric on their own. In this paper, comparative analysis between conventional ATPG method and fault grading using fault simulation flow is done on I2C design. Fault grading technique is implemented using ATPG and Fault simulation flow to fault grade the functional test vectors. This greatly reduces the test vectors which indeed reduces test time and test effort.

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基于故障仿真流程的功能测试向量测试时间和故障分级优化

结构检测是检测制造缺陷最有效的方法。随着数字设计的复杂性日益增加，结构测试向量本身不足以达到期望的故障覆盖率。功能测试向量是根据设计规范而不是制造缺陷编写的程序，这可以帮助测试设计的一些关键部分。功能测试向量由功能验证团队给出。结构和功能测试放在一起可以非常显著地提高测试质量。与结构测试向量不同，功能测试向量本身不提供测试覆盖度量。本文在I2C设计中，对传统的ATPG方法和故障模拟流程进行了故障分级的对比分析。利用ATPG和故障仿真流程对功能测试向量进行故障分级，实现故障分级技术。这大大减少了测试向量，从而减少了测试时间和测试工作。

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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2014 International Conference on Electronics, Communication and Computational Engineering (ICECCE)

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