Title :
A hierarchical test pattern generation system based on high-level primitives
Author :
Sarfert, Thomas M. ; Markgraf, Remo G. ; Schulz, Michael H. ; Trischler, Erwin
Author_Institution :
Siemens Nixdorf Informationssyst. AG, Munich, Germany
fDate :
1/1/1992 12:00:00 AM
Abstract :
The authors present an extension of the automatic test pattern generation system SOCRATES to a hierarchical test pattern generation system for combinational and scan-based circuits. The proposed system is based on predefined high-level primitives, e.g., multiplexers and adders. The exploitation of high-level primitives leads to significant improvements in implication, unique sensitization, and multiple backtrace, all of which play a key role in the efficiency of any automatic test pattern generation (ATG) system. In order to perform deterministic ATG and fault simulation for internal faults of high-level primitives, the high-level primitives are dynamically expanded to their gate-level realization. A number of experimental results, achieved on circuits with several tens of thousands of primitives, demonstrate the efficiency of the proposed approach in terms of CPU time, fault coverage, and memory requirements
Keywords :
automatic testing; combinatorial circuits; fault location; logic testing; CPU time; SOCRATES; adders; automatic test pattern generation; fault coverage; fault simulation; gate-level realization; hierarchical test pattern generation; high-level primitives; implication; memory requirements; multiple backtrace; multiplexers; predefined high-level primitives; scan-based circuits; unique sensitization; Adders; Automatic test pattern generation; Central Processing Unit; Circuit faults; Circuit testing; Design methodology; Logic arrays; Multiplexing; Test pattern generators; Very large scale integration;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
