In nanoscale technology, transistor aging is one of the most critical problems that impact on the reliability of circuits. Aging sensor is a good online way to detect the circuit aging, which performs during the operating time with no influence of the normal operation of circuits. In this paper, a Dou- ble-edge-triggered Detection Sensor for circuit Aging (DSDA) is proposed, which employs data signal of logic circuits as its clock to control the sampling process. The simulation is done by Hspice using 45 nm technology. The results show that this technique is not case of the detection precision is more than 80% under aging fault effectively with the 8% power cost and 30% sensitive to the process variations. The worst the different process variations. It can detect performance cost.
NBTI-induced transistor aging has become a prominent factor affecting the reliability of circuits. Reducing leakage consumption is one of the major design goals. Domino logic circuits are applied extensively in high-performance integrated circuits. A circuit technique for mitigating NBTI-induced degradation and reduce standby leakage current is presented in this paper. Two transistors are added to the standard domino circuit to pull both the dynamic node and the output up to VDo, which puts both the keeper and the inverter pMOS transistor into recovery mode in standby mode. Due to the stack effect, leakage current is reduced by the all-0 input vector and the added transistors. Experimental results reveal up to 33% NBTI-induced degradation reduction and up to 79% leakage current reduction.
