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Low-power circuit operations, such as dynamic voltage scaling and the sleep mode, pose a unique challenge to aging prediction. Traditional aging models assume constant voltage and averaged activity factor, ignoring the impact of the long sleep period, and thus, result in a significant overestimation of the degradation rate. To accurately predict the aging effect in low-power design, this work first...
As technology scales, the aging effect caused by Negative Bias Temperature Instability (NBTI) has become a major reliability concerns for circuit designers. Consequently, we have seen a lot of research efforts on NBTI analysis and mitigation techniques. On the other hand, reducing leakage power remains to be one of the major design goals. Both NBTI-induced circuit degradation and standby leakage power...
Degradation of device parameters over the lifetime of a system is emerging as a significant threat to system reliability. Among the aging mechanisms, wearout resulting from NBTI is of particular concern in deep submicron technology generations. To facilitate architectural level aging analysis, a tool capable of evaluating NBTI vulnerabilities early in the design cycle has been developed. The tool...
Accurate prediction of circuit aging and its variability is essential to reliable design and analysis. Such a capability further helps reduce the load in statistical reliability test. Based on the physical understanding of circuit aging effects, we develop a predictive short term and long term model to characterize NBTI-induced threshold voltage degradation (??Vth) at transistor level. Due to process...
Circuit failure prediction is used to predict occurrences of circuit failures, during system operation, before errors appear in system data and states. This technique is applicable for overcoming major scaled-CMOS reliability challenges posed by aging mechanisms such as Negative-Bias-Temperature-Instability (NBTI). This is possible because of the gradual nature of degradation associated with such...
Accurate prediction of circuit aging and its variability is essential to reliable design and analysis. Such a capability further helps reduce the load in statistical reliability test. Based on compact models of transistor degradation and circuit performance, we develop analytical solutions that efficiently predict the statistics of both circuit timing and the leakage under temporal stress and process...
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