摘要 : Due to the increasing level of integration achieved by Very Large Scale Integrated (VLSI) technology, traditional gate-level fault simulation is becoming more complex, difficult, and costly. Furthermore, circuit designs are increa... 展开 Due to the increasing level of integration achieved by Very Large Scale Integrated (VLSI) technology, traditional gate-level fault simulation is becoming more complex, difficult, and costly. Furthermore, circuit designs are increasingly being developed through the use of powerful VLSI computer-aided design (CAD) synthesis tools which emphasize circuit descriptions using high-level representations of functional behavior, rather than physical architectures and layout. Behavior fault simulation applied to the top functional level models described using a hardware description language offers a very attractive alternative to these problems. A new way to simulate the behavioral fault models using the hardware description language (HDL), such as VHDL, is presented. Tests were generated by carrying out the behavioral fault simulation for a few circuit models. For comparison, a gate-level fault simulation on the equivalent circuit, produced via a synthesis tool, was used. The performance analysis shows that a very small number of test patterns generated by the behavioral automatic test pattern generation (ATPG)/fault simulation system detected around 98 percent of the testable gate-level faults that were detected by random test 收起