Ultimate tensorization: compressing convolutional and FC layers alike
Abstract
Convolutional neural networks excel in image recognition tasks, but this comes at the cost of high computational and memory complexity. To tackle this problem, [1] developed a tensor factorization framework to compress fully-connected layers. In this paper, we focus on compressing convolutional layers. We show that while the direct application of the tensor framework [1] to the 4-dimensional kernel of convolution does compress the layer, we can do better. We reshape the convolutional kernel into a tensor of higher order and factorize it. We combine the proposed approach with the previous work to compress both convolutional and fully-connected layers of a network and achieve 80x network compression rate with 1.1% accuracy drop on the CIFAR-10 dataset.
Cite
@article{arxiv.1611.03214,
title = {Ultimate tensorization: compressing convolutional and FC layers alike},
author = {Timur Garipov and Dmitry Podoprikhin and Alexander Novikov and Dmitry Vetrov},
journal= {arXiv preprint arXiv:1611.03214},
year = {2016}
}
Comments
NIPS 2016 workshop: Learning with Tensors: Why Now and How?