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Scalable Model Compression by Entropy Penalized Reparameterization

We describe a simple and general neural network weight compression approach, in which the network parameters (weights and biases) are represented in a "latent" space, amounting to a reparameterization. This space is equipped with a learned probability model, which is used to impose an entropy penalty on the parameter representation during training, and to compress the representation using a simple arithmetic coder after training. Classification accuracy and model compressibility is maximized jointly, with the bitrate--accuracy trade-off specified by a hyperparameter. We evaluate the method on the MNIST, CIFAR-10 and ImageNet classification benchmarks using six distinct model architectures. Our results show that state-of-the-art model compression can be achieved in a scalable and general way without requiring complex procedures such as multi-stage training.

preprint2020arXivOpen access
Deniz OktayJohannes BalléSaurabh SinghAbhinav Shrivastava
Computer VisionMachine Learning
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Deniz OktayJohannes BalléSaurabh SinghAbhinav Shrivastava

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