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Truly Sparse Neural Networks at Scale

Authors :
Curci, Selima
Mocanu, Decebal Constantin
Pechenizkiyi, Mykola
Publication Year :
2021

Abstract

Recently, sparse training methods have started to be established as a de facto approach for training and inference efficiency in artificial neural networks. Yet, this efficiency is just in theory. In practice, everyone uses a binary mask to simulate sparsity since the typical deep learning software and hardware are optimized for dense matrix operations. In this paper, we take an orthogonal approach, and we show that we can train truly sparse neural networks to harvest their full potential. To achieve this goal, we introduce three novel contributions, specially designed for sparse neural networks: (1) a parallel training algorithm and its corresponding sparse implementation from scratch, (2) an activation function with non-trainable parameters to favour the gradient flow, and (3) a hidden neurons importance metric to eliminate redundancies. All in one, we are able to break the record and to train the largest neural network ever trained in terms of representational power -- reaching the bat brain size. The results show that our approach has state-of-the-art performance while opening the path for an environmentally friendly artificial intelligence era.<br />Comment: 30 pages, 17 figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2102.01732
Document Type :
Working Paper