Deep physical neural networks trained with backpropagation
Cornell University · NTT (Japan)
Indexed incrossrefpubmed
Abstract
Abstract Deep-learning models have become pervasive tools in science and engineering. However, their energy requirements now increasingly limit their scalability 1 . Deep-learning accelerators 2–9 aim to perform deep learning energy-efficiently, usually targeting the inference phase and often by exploiting physical substrates beyond conventional electronics. Approaches so far 10–22 have been unable to apply the backpropagation algorithm to train unconventional novel hardware in situ. The advantages of backpropagation have made it the de facto training method for large-scale neural networks, so this deficiency constitutes a major impediment. Here we introduce a hybrid in situ–in silico algorithm, called…
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7Topics & keywords
Topics
Keywords
- Backpropagation
- Deep learning
- Computer science
- Artificial neural network
- Artificial intelligence
- Scalability
- Machine learning
UN Sustainable Development Goals
- Affordable and clean energy
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