Adaptive Error-Prediction Flip-flop for performance failure prediction with aging sensors

摘要

This paper presents a new approach on aging sensors for synchronous digital circuits. An adaptive error-prediction flip-flop architecture with built-in aging sensor is proposed, performing on-line monitoring of long-term performance degradation of CMOS digital systems. The main advantage is that the sensor's performance degradation works in favor of the predictive error detection. The sensor is out of the signal path. Performance error prediction is implemented by the detection of late transitions at flip-flop data input, caused by aging (namely, due to NBTI), or to physical defects activated by long lifetime operation. Such errors must not occur in safety-critical systems (automotive, health, space). A sensor insertion algorithm is also proposed, to selectively insert them in key locations in the design. Sensors can be always active or at pre-defined states. Simulation results are presented for a balanced pipeline multiplier in 65 nm CMOS technology, using Berkeley Predictive Technology Models (PTM). It is shown that the impact of aging degradation and/or PVT (Process, power supply Voltage and Temperature) variations on the sensor enhance error prediction.