Abstract
Test data compression is based on storage of compressed tests and use of on-chip decompression logic for test application. Further reductions in the input test data volume are achieved by methods that apply several different tests based on every compressed test. This article makes the new observation that by keeping the same number of compressed tests and applying several different tests based on every compressed test, it is possible to improve the quality of the test set applied to the circuit. This article studies such an approach for path delay faults (PDFs) using a linear-feedback shift register (LFSR) as the decompression logic. Because of the nature of PDFs, targeting an extended subset of PDFs increases the confidence that important PDFs are detected. However, the benefit of detecting additional faults may not justify an increase in the number of stored tests. The approach suggested in this article is used for detecting an extended subset of target PDFs using the same set of LFSR seeds. Extra clocking of the LFSR is used for obtaining scan-in states for several new two-cycle tests based on the same seed. Experimental results for benchmark circuits demonstrate the effectiveness of this approach.
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