论文信息 - Functional Level Primitives in Test Generation

Functional Level Primitives in Test Generation

This paper deals with the use and development of high-level (functional) primitive logic elements for use in a system which automatically generates tests for complex sequential circuits. The concept of solution sequences to test problems for primitive elements is introduced and a functional language used to describe solution sequences is presented. Functional test generation models for two basic elements, a shift register and a counter, are derived, including procedures for implication, D-drive and line justification. Primitive algorithms which generate single as well as multivector (sequences) solutions to D-drive and line justification problems are presented.

Melvin A. Breuer | Arthur D. Friedman | A. D. Friedman | M. Breuer

[1] Melvin A. Breuer,et al. Concurrent fault simulation and functional level modeling , 1977, DAC '77.

[2] Meir Mor. On the Three-Valued Simulation of Digital Systems , 1976, IEEE Transactions on Computers.

[3] Melvin A. Breuer. A Note on Three-Valued Logic Simulation , 1972, IEEE Transactions on Computers.

[4] J. Paul Roth,et al. Programmed Algorithms to Compute Tests to Detect and Distinguish Between Failures in Logic Circuits , 1967, IEEE Trans. Electron. Comput..

[5] J. Paul Roth,et al. Programmed Algorithms toCompute Tests toDetect andDistinguish Between Failures inLogic Circuits , 1967 .

[6] Stephen A. Szygenda,et al. Integrated techniques for functional and gate-level digital logic simulation , 1973, DAC '73.

[7] Premachandran R. Menon,et al. Functional simulation in the lamp system , 1976, DAC '76.

[8] MELVIN A. BREUER. Generation of Fault Tests for Linear Logic Networks , 1972, IEEE Transactions on Computers.

[9] D. C. King. Diagnosis and reliable design of digital systems , 1977 .