Base Elements for Artificial Neural Network: Structure Modeling, Production, Properties

Q4 Engineering

International Journal of Circuits, Systems and Signal Processing Pub Date : 2023-04-03 DOI:10.46300/9106.2023.17.21

A. Sidorenko, N. Klenov, I. Soloviev, S. Bakurskiy, V. Boian, R. Morari, Yu. B. Savva, A. Lomakin, Ludmila Sidorenko, Svetlana Sidorenko, Irina Sidorenko, O. Severyukhina, Aleksey Fedotov, Anastasia Salamatina, A. Vakhrushev

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Abstract

A radical reduction in power consumption is becoming an important task in the development of supercomputers. Artificial neural networks (ANNs) based on superconducting elements of spintronics seem to be the most promising solution. A superconducting ANN needs to develop two basic elements - a nonlinear (neuron) and a linear connecting element (synapse). The theoretical and experimental results of this complex and interdisciplinary problem are presented in this paper. The results of our theoretical and experimental study of the proximity effect in a stacked superconductor/ferromagnet (S/F) superlattice with Co-ferromagnetic layers of various thicknesses and coercive fields and Nb-superconducting layers of constant thickness equal to the coherence length of niobium and some studies using computer simulation of the formation of such multilayer nanostructures and their magnetic properties are presented in this article.

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人工神经网络的基本元素:结构建模，生产，性质

大幅降低功耗正成为超级计算机发展中的一项重要任务。基于自旋电子学超导元件的人工神经网络(ann)似乎是最有希望的解决方案。超导人工神经网络需要发展两个基本元素——非线性(神经元)和线性连接元素(突触)。本文介绍了这一复杂的跨学科问题的理论和实验结果。本文介绍了具有不同厚度和矫顽力场的共铁磁层和等于铌相干长度等厚度的铌-超导层的叠加超导体/铁磁(S/F)超晶格中邻近效应的理论和实验研究结果，以及利用计算机模拟这种多层纳米结构的形成及其磁性能的一些研究结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Circuits, Systems and Signal Processing Engineering-Electrical and Electronic Engineering

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155