What is the Path to Fast Fault Simulation?

Motivated by the recent advances in fast fault simulation techniques for large combinational circuits, a panel discussion has been organized for the 1988 International Test Conference. This paper is a collective account of the position statements offered by the panelists

Effective Diagnostics through Interval Unloads in a BIST Environment

Logic built-in self test (BIST) is increasingly being adopted to improve test quality and reduce test costs for rapidly growing designs. Compared to deterministic automated test pattern generation (ATPG), BIST presents inherent fault diagnostic challenges. Previous diagnostic techniques have been limited in their diagnosis resolution and/or require significant hardware overhead. This paper proposes an interval-based scan-unload method that ensures diagnosis resolution down to gate-level faults with minimal hardware overhead. Tester fail-data collection is based on a novel construct incorporated into the design-extensions of the standard testinterface language (STIL). The implementation of the propose

33.4 Efficient Compression and Application of Deterministic Patterns in a Logic BIST Architecture

We present a novel method to efficiently generate, compress and apply test patterns in a logic BIST architecture. Patterns are generated by a modified automatic test pattern generator (ATPG) and are encoded as linear feedback shift register (LFSR) initial values (seeds); one or more patterns can be encoded into a single LFSR seed. During test application, seeds are loaded into the LFSR with no cycle overhead. The method presented achieves reductions of at least 100x in test data and 10x in tester cycles compared to deterministic ATPG while maintaining complete fault coverage, as confirme