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Convolutional Neural Network Training with Distributed K-FAC
Event Type
Paper
Tags
Data Analytics, Compression, and Management
Linear Algebra
Machine Learning, Deep Learning and Artificial Intelligence
Registration Categories
TP
TimeThursday, 19 November 20201pm - 1:30pm EST
LocationTrack 4
DescriptionTraining neural networks with many processors can reduce time-to-solution; it is challenging, however, to maintain convergence and efficiency at large scales. The Kronecker-factored Approximate Curvature (K-FAC) was recently proposed as an approximation of the Fisher Information Matrix that can be used in natural gradient optimizers. We investigate here a scalable K-FAC design and its applicability in convolutional neural network (CNN) training at scale. We study optimization techniques such as layer-wise distribution strategies, inverse-free second-order gradient evaluation, and dynamic K-FAC update decoupling to reduce training time while preserving convergence. We use residual neural networks (ResNet) applied to the CIFAR-10 and ImageNet-1k datasets to evaluate the correctness and scalability of our K-FAC gradient preconditioner. With ResNet-50 on the ImageNet-1k dataset, our distributed K-FAC implementation converges to the 75.9% MLPerf baseline in 18–25% less time than does the classic stochastic gradient descent (SGD) optimizer across scales on a GPU cluster.
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