Testing bridging faults in deep submicron CMOS digital ICs faces new problems because of pushing the technology limits. The growing dispersion of process parameters makes it hard to use conventional bridging fault models for high-quality testing. A new fault model is proposed to account for bridging faults in a way that is independent of electrical parameters and provides a significant coverage metric. Conditions are defined to ensure that (under steady-state conditions) either a fault is detected by a test sequence or it will not give rise to errors for any other input, independently of the actual values of IC parameters. Such a fault model has been implemented in a simulator and validated over combinational benchmarks.
Bridging fault modeling and simulation for deep submicron CMOS ICs
FAVALLI, Michele;
2002
Abstract
Testing bridging faults in deep submicron CMOS digital ICs faces new problems because of pushing the technology limits. The growing dispersion of process parameters makes it hard to use conventional bridging fault models for high-quality testing. A new fault model is proposed to account for bridging faults in a way that is independent of electrical parameters and provides a significant coverage metric. Conditions are defined to ensure that (under steady-state conditions) either a fault is detected by a test sequence or it will not give rise to errors for any other input, independently of the actual values of IC parameters. Such a fault model has been implemented in a simulator and validated over combinational benchmarks.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
