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ParameterNet: Parameters are All You Need for Large-Scale Visual Pretraining of Mobile Networks

Kai Han, Yunhe Wang, Jianyuan Guo, Enhua Wu

202482 citationsDOI

Abstract

The large-scale visual pretraining has significantly improve the performance of large vision models. However, we observe the low FLOPs pitfall that the existing low-FLOPs models cannot benefit from large-scale pretraining. In this paper, we introduce a novel design principle, termed ParameterNet, aimed at augmenting the number of parameters in large-scale visual pretraining models while minimizing the increase in FLOPs. We leverage dynamic convolutions to incorporate additional parameters into the networks with only a marginal rise in FLOPs. The ParameterNet approach allows low-FLOPs networks to take advantage of large-scale visual pretraining. Furthermore, we extend the ParameterNet concept to the language domain to enhance inference results while preserving inference speed. Experiments on the large-scale ImageNet-22K have shown the superiority of our ParameterNet scheme. For example, ParameterNet-600M can achieve higher accuracy than the widely-used Swin Transformer (81.6% vs. 80.9%) and has much lower FLOPs (0.6G vs. 4.5G). The code will be released at https://parameternet.github.io/.

Topics & Concepts

Computer scienceScale (ratio)Human–computer interactionGeographyCartographyMillimeter-Wave Propagation and ModelingMultimedia Communication and TechnologyOpportunistic and Delay-Tolerant Networks
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