Abstract
Parallel computing is widely utilized to speed up automatic test pattern generation (ATPG); however, most of today's parallel ATPGs are non-deterministic, which often leads to non-reproducible test pattern sets. This paper presents a fault-parallel test pattern generator: CPP-ATPG; it generates the same test pattern set regardless of the thread count and timing. Besides, it exhibits good speedup scalability as the thread count increases. These are achieved by the circular pipeline processing (CPP) principle, which guides the proposed parallel ATPG to preserve the task processing orders that are necessary to ensure ATPG determinism but with low inter-thread synchronization overhead. Furthermore, a multi-round test generation and compaction strategy is proposed to avoid possible test pattern inflation. Experimental results show that CPP-ATPG exhibits close-to-linear speedup for at least up to 12 threads.
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