A data path synthesis method to self-testable application specific integrated circuit (ASIC)

Allocation is the High Level Synthesis task that reaches a data path definition obeying hardware restriction and optimizing the chip area and performance. Testability is a sequence of procedures that ensures that an ASIC is working correctly. Self-Testability is the case where the whole test procedure is implemented in the chip. A design is said full testable when, in the test mode, all the possible faults can be detected. This paper presents a method to consider the self-testability of the ASIC during the allocation process. A few other than the usual hardware restrictions are imposed to ensures the self-testability. The achieved data path will be self-testable and will have the smallest possible area. Usually, this kind of optimization problem is NP-Complete. In our case, heuristics are used to reach a good solution in an acceptable computing time. This paper shows the heuristics used in our allocation algorithm and a case of study, that validates the whole process, is shown