Title :
A novel delay fault testing methodology using on-chip low-overhead delay measurement hardware at strategic probe points
Author :
Raychowdhury, A. ; Ghosh, S. ; Bhunia, S. ; Ghosh, D. ; Roy, K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Purdue Univ., West Lafayette, IN, USA
Abstract :
We propose a delay fault testing methodology using on-chip delay measurement hardware. We have designed a process-tolerant, low-overhead delay measurement hardware and developed an algorithm to judiciously insert the hardware at internal nodes of logic blocks. Experimental results for a set of ISCAS89 benchmarks show up to 16.9% improvement in transition fault coverage and up to 10.5% increase in the number of detected faults for segment delay fault model, with fixed test length. The reduction in test length is up to 59% for transition fault, with fixed target coverage. The delay and area overhead due to additional DFT logic is limited to 2% and 4% respectively.
Keywords :
delays; digital integrated circuits; fault simulation; integrated circuit testing; logic testing; DFT logic; area overhead; delay fault testing; delay overhead; fault detection; logic blocks; on-chip low-overhead delay measurement hardware; process-tolerant hardware; segment delay fault model; strategic probe points; test length; transition fault coverage; Built-in self-test; Circuit faults; Circuit testing; Costs; Delay; Fault detection; Hardware; Logic; Phase measurement; Probes; Transition delay fault; delay measurement hardware; fault coverage; segment delay fault;
Conference_Titel :
Test Symposium, 2005. European
Print_ISBN :
0-7695-2341-2
