基于总线的可编程soc中IP核的软件加权随机测试

Proceedings 20th IEEE VLSI Test Symposium (VTS 2002) Pub Date : 2002-04-28 DOI:10.1109/VTS.2002.1011125

Madhu K. Iyer, K. Cheng

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引用次数: 6

摘要

提出了一种基于软件的可编程soc IP核时延故障加权随机模式测试方案。我们描述了一种基于目标故障模型的可测试性度量来确定全扫描电路输入端的静态和转移概率(剖面)的方法，我们使用基于遗传算法(GA)的搜索程序来确定最佳剖面。我们使用这些最佳配置文件来生成一个运行在处理器核心上的测试程序。该程序将测试模式应用于SoC中的目标IP核，并分析测试响应。这提供了将多个配置文件应用于被测IP核的灵活性，以最大限度地提高故障覆盖率。该方案不会产生逻辑BIST的硬件开销，因为模式生成和分析是由软件完成的。我们使用概率方法来查找侧写。针对增强全扫描电路和正常全扫描电路，我们分别描述了转换和路径延迟故障模型的方法。我们介绍了使用ISCAS 89基准作为IP核的实验结果。

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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Software-based weighted random testing for IP cores in bus-based programmable SoCs

Presents a software-based weighted random pattern scheme for testing delay faults in IP cores of programmable SoCs. We describe a method for determining static and transition probabilities (profiles) at the inputs of circuits with full-scan using testability metrics based on the targeted fault model, We use a genetic algorithm (GA) based search procedure to determine optimal profiles. We use these optimal profiles to generate a test program that runs on the processor core. This program applies test patterns to the target IP cores in the SoC and analyzes the test responses. This provides the flexibility of applying multiple profiles to the IP core under test to maximize fault coverage. This scheme does not incur the hardware overhead of logic BIST, since the pattern generation and analysis is done by software. We use a probabilistic approach to finding the profiles. We describe our method on transition and path-delay fault models, for both enhanced full-scan and normal full-scan circuits. We present experimental results using the ISCAS 89 benchmarks as IP cores.

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Proceedings 20th IEEE VLSI Test Symposium (VTS 2002)

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