Abstract:
Single Event Effects strongly impact the reliability of electronic circuits and systems, requiring careful SER characterization and adequately sized mitigation strategy. ...Show MoreMetadata
Abstract:
Single Event Effects strongly impact the reliability of electronic circuits and systems, requiring careful SER characterization and adequately sized mitigation strategy. The SER study aims at providing relevant information about the circuit behavior in the specified working environment, in terms of Functional Failures rates, criticality and so on. Ultimately, the error mitigation efforts are directed at improving the function of the circuit in the presence of SEE by either reducing the failure occurrence rate or the failure impact. However, when dealing with SEEs affecting highly sophisticated electronic designs, functional issues are one of the most complex aspects to reliably characterize. This paper aims at proposing and evaluating several fault characterization techniques, meant to approximate the functional failures induced by Single Event Upsets in complex circuits, very early in the design flow. The two main contributions of our efforts consist in a differential fault simulation approach based on standard simulation tools and a novel parallel, SEE-optimized, stand-alone simulation tool. Both methods accurately evaluate the immediate propagation of SEE-induced faults and predict the long-term behavior of the faulty circuit running a specified application. The works described in this paper also benefit from various optimization techniques targeting lower simulation costs (in terms of CPU and man-power) while preserving the accuracy of the results. Ultimately, the results of each method compare positively with reference data obtained from an exhaustive fault simulation campaign. This encouraging outcome suggests that we can reliably obtain highly informative functional error information while spending reasonable resources (CPU, man-power, time).
Date of Conference: 27-29 June 2012
Date Added to IEEE Xplore: 27 September 2012
ISBN Information: