A practical metric for soft error vulnerability analysis of combinational circuits

Besides the advantages brought by technology scaling, soft errors have emerged as an important reliability challenge for nanoscale combinational circuits. Hence, it is important for vulnerability analysis of digital circuits due to soft errors to take advantage of practical metrics to achieve cost-effective and reliable designs. In this paper, a new metric called Triple Constraint Satisfaction probability (TCS) is proposed to evaluate the soft error vulnerability of combinational circuits. TCS is based on a concept called Probabilistic Vulnerability Window (PVW) which is an inference of the necessary conditions for soft-error occurrence in the circuit. We propose a computation model to calculate the PVW's for all circuit gate outputs. In order to show the efficiency of the proposed metric, TCS is used in the vulnerability ranking of the circuit gates as the basic step of the vulnerability reduction techniques. The experimental results show that TCS provides a distribution of soft error vulnerability similar to that obtained with fault injections performed with HSPICE or with an event driven simulator while it is more than three orders of magnitude faster. Also, the results show that using the proposed metric in the well-known filter insertion technique achieves up to 19.4%, 34.1%, and 55% in soft error vulnerability reduction of benchmark circuits with the cost of increasing the area overhead by 5%, 10%, and 20%, respectively. (C) 2014 Elsevier Ltd. All rights reserved.