Digital Electronics and Analog Photonics for Convolutional Neural Networks (DEAP-CNNs)

April 23, 2019 · Declared Dead · 🏛 IEEE Journal of Selected Topics in Quantum Electronics

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Authors Viraj Bangari, Bicky A. Marquez, Heidi B. Miller, Alexander N. Tait, Mitchell A. Nahmias, Thomas Ferreira de Lima, Hsuan-Tung Peng, Paul R. Prucnal, Bhavin J. Shastri arXiv ID 1907.01525 Category eess.SP: Signal Processing Cross-listed cs.NE, physics.app-ph, physics.optics Citations 183 Venue IEEE Journal of Selected Topics in Quantum Electronics Last Checked 4 months ago

Abstract

Convolutional Neural Networks (CNNs) are powerful and highly ubiquitous tools for extracting features from large datasets for applications such as computer vision and natural language processing. However, a convolution is a computationally expensive operation in digital electronics. In contrast, neuromorphic photonic systems, which have experienced a recent surge of interest over the last few years, propose higher bandwidth and energy efficiencies for neural network training and inference. Neuromorphic photonics exploits the advantages of optical electronics, including the ease of analog processing, and busing multiple signals on a single waveguide at the speed of light. Here, we propose a Digital Electronic and Analog Photonic (DEAP) CNN hardware architecture that has potential to be 2.8 to 14 times faster while maintaining the same power usage of current state-of-the-art GPUs.

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