Abstract
Multicycle tests are useful for test compaction even when full scan allows single- or two-cycle tests to be used. To avoid sequential test generation, multicycle tests can use the test data (scan-in states and primary input vectors) from a single- or two-cycle test set, possibly modified to make it more suitable for multicycle tests. However, the modification process requires repeated fault simulation to prevent a loss of fault coverage. This brief observes that the need to modify test data results from the fact that tests are only extended forward to increase their numbers of clock cycles starting from their (modified) scan-in states. The brief observes further that extending tests backward is a more computationally efficient way of obtaining multicycle tests with modified test data. The brief defines a new type of multicycle test to increase the effectiveness of backward extension and describes a test compaction procedure based on backward and forward extension. It presents experimental results for gate-exhaustive faults, requiring large numbers of tests, in benchmark circuits.
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