基于嵌入式核的SOC测试可重构访问封装器的设计

Proceedings International Symposium on Quality Electronic Design Pub Date : 2002-08-07 DOI:10.1109/ISQED.2002.996707

S. Koranne

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引用次数: 44

摘要

基于嵌入式核心的片上系统(SOC) ic的测试是一个众所周知的问题，即将推出的IEEE P1500 (SECT)标准提出了DfT解决方案来缓解这个问题。其中一个建议是为SOC中的每个核心提供测试访问包装器。先前解决包装器设计问题的方法提出了静态核心包装器，它是为特定的测试访问机制(TAM)宽度而设计的。我们提出了一种可重构核心包装设计的第一份报告。本文还提出了利用核心包装器的图论表示进行重构所需的DfT的自动生成过程。我们的方法比以前发表的方法更优，因为它允许在很小的面积和延迟开销下动态重构核心层扫描访问结构。使用可重构的核心封装器可以提高SOC测试计划的质量。对相应调度问题的理论分析表明，在不需要大量计算量的情况下，可以得到良好的近似调度。

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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Design of reconfigurable access wrappers for embedded core based SOC test

Testing of embedded core based system-on-chip (SOC) ICs is a well known problem, and the upcoming IEEE P1500 (SECT) standard proposes DfT solutions to alleviate it. One of the proposals is to provide every core in the SOC with test access wrappers. Previous approaches to the problem of wrapper design have proposed static core wrappers, which are designed for a particular test access mechanism (TAM) width. We present the first report of a design of reconfigurable core wrappers. An automatic procedure for the creation of DfT required for reconfiguration using a graph theoretic representation of core wrappers is also presented. Our method is superior to previously published methods as it admits dynamic reconfiguration of core level scan access structures with little area and delay overhead. Using reconfigurable core wrappers the quality of the SOC test schedule can be improved. Theoretical analysis of the corresponding scheduling problem indicates that good approximate schedules can be achieved without significant computational effort.

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Proceedings International Symposium on Quality Electronic Design

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