Synthesis of workload monitors for on-line stress prediction

Stringent reliability requirements call for monitoring mechanisms to account for circuit degradation throughout the complete system lifetime. In this work, we efficiently monitor the stress experienced by the system as a result of its current workload. To achieve this goal, we construct workload monitors that observe the most relevant subset of the circuit´s primary and pseudo-primary inputs and produce an accurate stress approximation. The proposed approach enables the timely adoption of suitable countermeasures to reduce or prevent any deviation from the intended circuit behavior. The relation between monitoring accuracy and hardware cost can be adjusted according to design requirements. Experimental results show the efficiency of the proposed approach for the prediction of stress induced by Negative Bias Temperature Instability (NBTI) in critical and near-critical paths of a digital circuit.