使用扫描链测试模式解压缩

Proceedings 2001 IEEE International Symposium on Defect and Fault Tolerance in VLSI Systems Pub Date : 2001-10-24 DOI:10.1109/DFTVS.2001.966759

O. Novák, J. Nosek

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引用次数: 8

摘要

提出了一种测试模式压缩方法，该方法可用于减少存储测试模式所需的内存。在扫描链的测试过程中对模式进行解压缩。每时钟测试方案由扫描链、用于捕获内部CUT输出上的信号的辅助输出和CUT测试响应压缩器组成。每次扫描测试方案可以使用无辅助输出和输出压缩方案。发现压缩扫描链序列的算法重新排序和重叠的模式以前产生的帮助下，ATPG。这些测试模式以这样一种方式生成，即它们包含最大数量的不关心位。扫描链序列可用于从被测电路的故障列表中执行所有考虑的故障。在iscas85和89基准电路上进行了多次实验。与其他方法相比，该方法大大减少了存储比特数、测试应用时间和必要的硬件开销。

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Test pattern decompression using a scan chain

Proposes a method of test pattern compression, which can be used for reducing the memory requirements for storing test patterns. The patterns are decompressed during testing in the scan chain. The test-per-clock testing scheme consists of a scan chain, auxiliary outputs for capturing the signals on the internal CUT outputs and a CUT test response compactor. The test-per-scan testing scheme can be used without auxiliary outputs and output compacting scheme. The algorithm of finding the compressed scan chain sequence reorders and overlaps the patterns previously generated with the help of an ATPG. These test patterns are generated in such a way that they contain maximum number of don't care bits. The scan chain sequence can be used for exercising all considered faults from the fault list of the tested circuit. Several experiments were done with ISCAS 85 and 89 benchmark circuits. Compared with other methods the proposed method substantially reduces the number of stored bits, test application time and necessary hardware overhead.

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来源期刊

Proceedings 2001 IEEE International Symposium on Defect and Fault Tolerance in VLSI Systems

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