Title :
Tackling the complexity of exact path delay fault grading for path intensive circuits
Author :
Neophytou, Stelios N. ; Michael, Maria K.
Author_Institution :
ECE Dept., Univ. of Nicosia, Nicosia, Cyprus
Abstract :
The high accuracy of the Path Delay Fault model (PDF) is usually sidelined by its high complexity since the number of possible faults can become exponential to the circuit size (even when only critical faults are considered). Thus, fault simulation may require prohibitively large memory resources. In this work we propose a test reordering technique to control the complexity of exact PDF grading when Zero-suppressed Binary Decision Diagrams are used for fault representation. Experimentation on path dense benchmark circuits demonstrates considerable reduction in memory requirements for the PDF grading problem.
Keywords :
binary decision diagrams; delay circuits; fault simulation; integrated circuit testing; circuit size; critical faults; fault representation; fault simulation; memory resources; path delay fault grading complexity; path dense benchmark circuits; path intensive circuits; test reordering technique; zero-suppressed binary decision diagrams; Benchmark testing; Circuit faults; Complexity theory; Delays; Design automation; Integrated circuit modeling; Memory management;
Conference_Titel :
Test Symposium (ETS), 2015 20th IEEE European
Conference_Location :
Cluj-Napoca
DOI :
10.1109/ETS.2015.7138741
