Fast test generation for sequential circuits

An efficient sequential circuit test generation algorithm is presented. The algorithm is based on PODEM and uses a nine-valued logic model. Among the novel features of the algorithm are use of an initial time-frame algorithm and correct implementation of a solution to the previous state information problem. The initial time-frame algorithm determines the number of time-frames required to excite the fault under test and the number of time-frames required to observe the excited fault. This step saves the test generator from doing unnecessary search in the input space. Test generation is done strictly in forward time. The algorithm saves good machine circuit state after test generation to aid in future test generation. Faulty machine state is set to unknown whenever test generation for a fault is begun. This solves the previous state information problem, which has often been ignored by existing test generators.<>