Design Flow of Accelerating Hybrid Extremely Low Bit-width Neural Network in Embedded FPGA
July 31, 2018 Β· Declared Dead Β· π International Conference on Field-Programmable Logic and Applications
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Authors
Junsong Wang, Qiuwen Lou, Xiaofan Zhang, Chao Zhu, Yonghua Lin, Deming Chen
arXiv ID
1808.04311
Category
cs.DC: Distributed Computing
Cross-listed
cs.CV,
cs.LG
Citations
97
Venue
International Conference on Field-Programmable Logic and Applications
Last Checked
4 months ago
Abstract
Neural network accelerators with low latency and low energy consumption are desirable for edge computing. To create such accelerators, we propose a design flow for accelerating the extremely low bit-width neural network (ELB-NN) in embedded FPGAs with hybrid quantization schemes. This flow covers both network training and FPGA-based network deployment, which facilitates the design space exploration and simplifies the tradeoff between network accuracy and computation efficiency. Using this flow helps hardware designers to deliver a network accelerator in edge devices under strict resource and power constraints. We present the proposed flow by supporting hybrid ELB settings within a neural network. Results show that our design can deliver very high performance peaking at 10.3 TOPS and classify up to 325.3 image/s/watt while running large-scale neural networks for less than 5W using embedded FPGA. To the best of our knowledge, it is the most energy efficient solution in comparison to GPU or other FPGA implementations reported so far in the literature.
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