BRIEF: Backward Reduction of CNNs with Information Flow Analysis

2018 IEEE International Conference on Artificial Intelligence and Virtual Reality (AIVR) Pub Date : 2018-07-16 DOI:10.1109/AIVR.2018.00014
Yu-Hsun Lin, Chun-Nan Chou, Edward Y. Chang
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Abstract

This paper proposes BRIEF, a backward reduction algorithm that explores compact CNN-model designs from the information flow perspective. This algorithm can remove substantial non-zero weighting parameters (redundant neural channels) of a network by considering its dynamic behavior, which traditional model-compaction techniques cannot achieve. With the aid of our proposed algorithm, we achieve significant model reduction on ResNet-34 in the ImageNet scale (32.3% reduction), which is 3X better than the previous result (10.8%). Even for highly optimized models such as SqueezeNet and MobileNet, we can achieve additional 10.81% and 37.56% reduction, respectively, with negligible performance degradation.
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摘要:基于信息流分析的cnn逆向约简
本文提出了一种反向约简算法BRIEF,该算法从信息流的角度探索了紧凑的cnn模型设计。该算法通过考虑网络的动态行为,可以去除网络中大量的非零权重参数(冗余神经通道),这是传统模型压缩技术无法实现的。在我们提出的算法的帮助下,我们在ResNet-34的ImageNet尺度上实现了显著的模型缩减(减少32.3%),比之前的结果(10.8%)好3倍。即使对于高度优化的模型,如SqueezeNet和MobileNet,我们也可以分别实现10.81%和37.56%的额外降低,而性能下降可以忽略不计。
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2018 IEEE International Conference on Artificial Intelligence and Virtual Reality (AIVR)
2018 IEEE International Conference on Artificial Intelligence and Virtual Reality (AIVR)
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