A Knowledge-Based System for Designing Testable VLSI Chips

The complexity of VLSI circuits has increased the need for design for testability (DFT). Numerous techniques for designing more easily tested circuits have evolved over the years, with particular emphasis on built-in testing approaches. What has not evolved is a design methodology for evaluating and making choices among the numerous existing approaches. This article describes efforts to build a knowledge-based expert system for designing testable VLSI chips. A framework for a methodology incorporating structural, behavioral, qualitative, and quantitative aspects of known DFT techniques is introduced. This methodology provides a designer with a systematic DFT synthesis approach. The process of partitioning a design into subcircuits for individual processing is described and a new concept¿I-path¿is used to transfer data from one place in the circult to another. Rules for applying testable design methodologies to circuit partitions and for evaluating the various solutions obtained are also presented. Finally, a case study using a prototype system is described.