Ares: a framework for quantifying the resilience of deep neural networks

Citation:

Brandon Reagen, Udit Gupta, Lillian Pentecost, Paul Whatmough, Sae Lee, Niamh Mulholland, David Brooks, and Gu Wei. 6/24/2018. “Ares: a framework for quantifying the resilience of deep neural networks.” In Design Automation Conference, 17: Pp. 1-6. Publisher's Version

Abstract:

As the use of deep neural networks continues to grow, so does the fraction of compute cycles devoted to their execution. This has led the CAD and architecture communities to devote considerable attention to building DNN hardware. Despite these efforts, the fault tolerance of DNNs has generally been overlooked. This paper is the first to conduct a large-scale, empirical study of DNN resilience. Motivated by the inherent algorithmic resilience of DNNs, we are interested in understanding the relationship between fault rate and model accuracy. To do so, we present Ares: a light-weight, DNN-specific fault injection framework validated within 12% of real hardware. We find that DNN fault tolerance varies by orders of magnitude with respect to model, layer type, and structure.
Last updated on 04/22/2022