A case study of improving at-speed testing coverage of a gigahertz microprocessor

2009 16th IEEE International Conference on Electronics, Circuits and Systems - (ICECS 2009) Pub Date : 2009-12-01 DOI:10.1109/ICECS.2009.5410807

Zichu Qi, Hui Liu, Xiangku Li, Jun Xu, Weiwu Hu

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Abstract

For a gigahertz microprocessor with multiple clock domains and a large amount of embedded RAMs (Random Access Memory), generating at-speed testing patterns is becoming very difficult and very time-consuming. This paper presents some novel techniques to improve at-speed testing coverage with low cost. These methods are major concern about preventing X states propagation, which include avoiding capturing X states for registers, sequential bypass of macros, clock control scheme for inter-clock domains and accurate analysis of exception paths in intra-clock domains. Functional patterns are utilized to further improve the efficiency of the at-speed testing. A novel optimal flow is presented by carefully selecting these techniques. By using the flow, 90% transition fault coverage is achieved. In addition, both the number of patterns and the test time of the transition test are decreased by 15%. The total area overhead is about a few hundreds of AND cells and has little timing impact on the critical paths.

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提高千兆赫微处理器高速测试覆盖率的案例研究

对于具有多个时钟域和大量嵌入式ram(随机存取存储器)的千兆赫微处理器，生成高速测试模式变得非常困难且非常耗时。本文提出了一些以低成本提高高速测试覆盖率的新技术。这些方法是防止X状态传播的主要关注点，包括避免捕获寄存器的X状态，宏的顺序绕过，时钟间域的时钟控制方案以及时钟内域异常路径的准确分析。利用功能模式进一步提高了高速测试的效率。通过对这些技术的精心选择，提出了一种新的优化流程。通过使用该流，可以实现90%的转换故障覆盖率。此外，转换测试的模式数和测试时间都减少了15%。总的面积开销大约是几百个AND单元，并且对关键路径的时间影响很小。

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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来源期刊

2009 16th IEEE International Conference on Electronics, Circuits and Systems - (ICECS 2009)

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