Functional testing and fault analysis based fault coverage enhancement techniques for embedded core based systems

Proceedings of the Ninth Asian Test Symposium Pub Date : 2000-12-04 DOI:10.1109/ATS.2000.893635

Ameet Bagwe, R. Parekhji

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引用次数: 3

Abstract

The use of embedded cores poses several new problems in testing systems built around them. An important one amongst them is the need to achieve high fault coverage in an embedded context. Several impediments exist to obtaining a high fault coverage in such embedded systems. This paper presents a set of techniques for enhancing the fault coverage in an embedded DSP core based system. Its main contributions are: (i) examines the various test constraints in such a system and the impediments to achieving a high fault coverage therein; (ii) presents the development of functional testing techniques to enhance the coverage of the individual components; (iii) complements this effort by presenting fault analysis techniques, to further enhance this coverage. The techniques described in the paper have been used to improve the fault coverage of devices built around Texas Instruments new DSP core, TMS320C27xx. Results indicate the effectiveness of functional testing and fault analysis techniques in raising the DSP core and memory wrapper logic coverage above 95%, over and above the best results obtained through ATPG.

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基于功能测试和故障分析的嵌入式核心系统故障覆盖增强技术

嵌入式内核的使用给围绕它们构建的测试系统带来了几个新问题。其中一个重要的问题是需要在嵌入式环境中实现高故障覆盖率。在这样的嵌入式系统中获得高故障覆盖率存在一些障碍。本文提出了一套提高基于DSP内核的嵌入式系统故障覆盖率的技术。它的主要贡献是:(i)检查了这样一个系统中的各种测试约束以及在其中实现高故障覆盖率的障碍;(ii)介绍功能测试技术的发展，以提高单个组件的覆盖率;(iii)通过提出故障分析技术来补充这一努力，以进一步扩大这一覆盖范围。本文中描述的技术已被用于提高围绕德州仪器新DSP核心TMS320C27xx构建的设备的故障覆盖率。结果表明，功能测试和故障分析技术有效地将DSP核心和内存封装逻辑覆盖率提高到95%以上，超过了通过ATPG获得的最佳结果。

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 of the Ninth Asian Test Symposium

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