Title :
Accumulator-based built-in self-test generator for robustly detectable sequential fault testing
Author :
Voyiatzis, I. ; Kranitis, N. ; Gizopoulos, D. ; Paschalis, A. ; Halatsis, C.
Author_Institution :
Dept. of Informatics, Univ. of Athens, Greece
Abstract :
In this paper an algorithm for the generation of single input change (SIC) pairs is presented, termed the accumulator-based SIC pair generation (ASG) algorithm; SIC pairs have been effectively utilised for testing robustly detectable sequential faults. ASG is implemented in hardware utilising an accumulator whose inputs are driven by a barrel shifter. Since such structures (accumulators whose inputs are driven by barrel shifters) are commonly found in current, high-speed signal processing VLSI circuits, the presented schema provides a practical solution for the built-in testing of such circuits for testing delay and stuck-open faults. Utilisation of ASG to applying SIC pairs to adjacent pairs of inputs of the CUT, resulting in pseudoexhaustive schemes, is also addressed.
Keywords :
VLSI; built-in self test; delays; digital signal processing chips; fault diagnosis; logic testing; accumulator-based built-in self-test generator; barrel shifter; delay faults; high-speed signal processing VLSI circuits; pseudoexhaustive schemes; robustly detectable sequential fault testing; single input change pairs; stuck-open faults;
Journal_Title :
Computers and Digital Techniques, IEE Proceedings -
DOI :
10.1049/ip-cdt:20040850
