Title :
Worst-case test vectors generation using genetic algorithms for the detection of total-dose induced leakage current failures
Author :
Abdel-Aziz, H.A. ; Abdel-Aziz, M.M. ; Wassal, A.G. ; Abou-Auf, A.A.
Author_Institution :
Electron. Eng. Dept., American Univ. in Cairo, New Cairo, Egypt
Abstract :
In this paper, we develop a methodology for generating the worst-case test vectors (WCTV) necessary to detect leakage current failures in a standard-cell based ASIC device exposed to a total ionizing dose. The methodology is based on using the genetic algorithm technique and as such it produces a near worst-case vector. The methodology is validated experimentally by applying the generated vectors on a test chip after exposure to total dose. In terms of total-dose induced leakage current failures, experiments shown that the near worstcase vector results are very close to those of the worst-case vector.
Keywords :
application specific integrated circuits; genetic algorithms; integrated circuit testing; leakage currents; ASIC device; genetic algorithms; leakage current failures; test chip; total ionizing dose; worst-case test vectors generation; Biological cells; CMOS integrated circuits; Gallium; Integrated circuit modeling; Leakage current; Logic gates; Transistors; CMOS; GA; Genetic Algorithm; leakage current; test vectors; total dose; worst-case;
Conference_Titel :
Design and Test Workshop (IDT), 2010 5th International
Conference_Location :
Abu Dhabi
Print_ISBN :
978-1-61284-291-2
Electronic_ISBN :
978-1-61284-290-5
DOI :
10.1109/IDT.2010.5724421
