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Most Influential NEURIPS 2015 Paper · 2026-03 edition

BinaryConnect: Training Deep Neural Networks with Binary Weights During Propagations

Matthieu Courbariaux; Yoshua Bengio; Jean-Pierre David

Venue
NEURIPS 2015
Recognition
Most Influential NEURIPS 2015 Paper (Rank No. 10)
Edition
2026-03
Impact factor
10
Certificate ID
281b3525a288179a

Abstract

Deep Neural Networks (DNN) have achieved state-of-the-art results in a wide range of tasks, with the best results obtained with large training sets and large models. In the past, GPUs enabled these breakthroughs because of their greater computational speed. In the future, faster computation at both training and test time is likely to be crucial for further progress and for consumer applications on low-power devices. As a result, there is much interest in research and development of dedicated hardware for Deep Learning (DL). Binary weights, i.e., weights which are constrained to only two possible values (e.g. -1 or 1), would bring great benefits to specialized DL hardware by replacing many multiply-accumulate operations by simple accumulations, as multipliers are the most space and power-hungry components of the digital implementation of neural networks. We introduce BinaryConnect, a method which consists in training a DNN with binary weights during the forward and backward propagations, while retaining precision of the stored weights in which gradients are accumulated. Like other dropout schemes, we show that BinaryConnect acts as regularizer and we obtain near state-of-the-art results with BinaryConnect on the permutation-invariant MNIST, CIFAR-10 and SVHN.

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