Can One Design a Series of Fast, Energy - Efficient “Brains” based on Neuromorphic Computing to Solve Complex Pattern Recognition Problem?

Author(s): Mingyong Zhou*

Journal Name: Current Chinese Computer Science

Volume 1 , Issue 1 , 2021

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Objectives: In this paper, we present a theoretical discussion on neuromorphic computing circuit dynamic and its relations with AI deep learning neural networks. By elucidating their relations we can focus on the investigations of solving pattern classification and recognition problems in real applications from the perspectives of both logic computation view and physical circuit device views. The investigation is motivated by the design of a feasible fast and energy-efficient circuit de-vice as well as an efficient training computation method to solve complex problems.

Thus for this purpose we propose in this paper an approach to solve such problems. First, the neuromorphic computing as a new research area is introduced, including physical circuit properties, memristive device physical properties and the circuit dynamics described by the temporal and spatial (Maxwell) differential equations. Secondly, we show that by using AI deep learning neural networks to train AI neural networks we are able to derive the optimal AI neuron network weights. Last but not the least, we brief a mapping method in [1] and show in general how the neuromorphic circuit will work in practice after mapping the weights from AI deep learning neural networks into the neuromorphic circuit synapses/memristors.

Conclusion: We also devote our discussions to the physical device feasibility and related matters. The method proposed in this paper is pragmatic and constructive.

Keywords: Neuromorphic computing, memristive circuit, memristor, ai deep learning, convolution neural network (CNN), maxwell equation.

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Article Details

Year: 2021
Page: [2 - 5]
Pages: 4
DOI: 10.2174/2665997201999201027150756

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