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A framework is proposed for activity-dependent timing degradation due to p-FET negative bias temperature instability (NBTI) in digital circuits. A fixed-time compact model is proposed for NBTI and validated with… Click to show full abstract
A framework is proposed for activity-dependent timing degradation due to p-FET negative bias temperature instability (NBTI) in digital circuits. A fixed-time compact model is proposed for NBTI and validated with physical model predictions for various digital circuits under different input signal slew and fan-out load conditions. The model is used to predict the timing degradation in digital circuits under arbitrary input activities. An equivalent degradation level is found that can be applied to all p-FETs in the circuit and can serve as an upper bound of degradation due to arbitrary input activity and avoid the conservative worst case dc analysis. The activity dependence is studied in microprocessors as well as arithmetic circuits under different actual workloads.
Journal Title: IEEE Transactions on Electron Devices
Year Published: 2019
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