Universal Deep Neural Network Compression
February 07, 2018 Β· Declared Dead Β· π IEEE Journal on Selected Topics in Signal Processing
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Authors
Yoojin Choi, Mostafa El-Khamy, Jungwon Lee
arXiv ID
1802.02271
Category
cs.CV: Computer Vision
Cross-listed
cs.LG,
cs.NE
Citations
90
Venue
IEEE Journal on Selected Topics in Signal Processing
Last Checked
4 months ago
Abstract
In this paper, we investigate lossy compression of deep neural networks (DNNs) by weight quantization and lossless source coding for memory-efficient deployment. Whereas the previous work addressed non-universal scalar quantization and entropy coding of DNN weights, we for the first time introduce universal DNN compression by universal vector quantization and universal source coding. In particular, we examine universal randomized lattice quantization of DNNs, which randomizes DNN weights by uniform random dithering before lattice quantization and can perform near-optimally on any source without relying on knowledge of its probability distribution. Moreover, we present a method of fine-tuning vector quantized DNNs to recover the performance loss after quantization. Our experimental results show that the proposed universal DNN compression scheme compresses the 32-layer ResNet (trained on CIFAR-10) and the AlexNet (trained on ImageNet) with compression ratios of $47.1$ and $42.5$, respectively.
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