Open Access

Nature Communications

, volume 11 , issue 1 , publication number 3399

Spiking neurons with spatiotemporal dynamics and gain modulation for monolithically integrated memristive neural networks

Qingxi Duan ¹

Zhaokun Jing ¹

Xiaolong Zou ²

Yanghao Wang ¹

Ke Yang ¹

Teng Zhang ¹

Si Wu ²

Ru Huang ^{1, 3, 4}

Yuchao Yang ^{1, 3, 4}

Hide authors affiliations Show authors affiliations: 4 affiliations

Key Laboratory of Microelectronic Devices and Circuits (MOE), Department of Micro/Nanoelectronics, Peking University, Beijing, China |

School of electronics engineering and computer science, Peking University, Beijing, China |

Center for Brain Inspired Chips, Institute for Artificial Intelligence, Peking University, Beijing, China |

⁴

Frontiers Science Center for Nano-optoelectronics, Peking University, Beijing, China |

Publication type: Journal Article

Publication date: 2020-07-07

Springer Nature

Nature Communications

scimago Q1

wos Q1

SJR: 4.761

CiteScore: 23.4

Impact factor: 15.7

ISSN: 20411723

DOI: 10.1038/s41467-020-17215-3

Copy DOI

PubMed ID: 32636385

General Chemistry

General Biochemistry, Genetics and Molecular Biology

General Physics and Astronomy

Abstract

As a key building block of biological cortex, neurons are powerful information processing units and can achieve highly complex nonlinear computations even in individual cells. Hardware implementation of artificial neurons with similar capability is of great significance for the construction of intelligent, neuromorphic systems. Here, we demonstrate an artificial neuron based on NbOx volatile memristor that not only realizes traditional all-or-nothing, threshold-driven spiking and spatiotemporal integration, but also enables dynamic logic including XOR function that is not linearly separable and multiplicative gain modulation among different dendritic inputs, therefore surpassing neuronal functions described by a simple point neuron model. A monolithically integrated 4 × 4 fully memristive neural network consisting of volatile NbOx memristor based neurons and nonvolatile TaOx memristor based synapses in a single crossbar array is experimentally demonstrated, showing capability in pattern recognition through online learning using a simplified δ-rule and coincidence detection, which paves the way for bio-inspired intelligent systems. Designing energy efficient and scalable artificial networks for neuromorphic computing remains a challenge. Here, the authors demonstrate online learning in a monolithically integrated 4 × 4 fully memristive neural network consisting of volatile NbOx memristor neurons and nonvolatile TaOx memristor synapses.

Found

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Choi Yang-Kyu

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Korea Advanced Institute of Science and Technology

Georgia Institute of technology

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Yuan Yifan

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h-index: 7

Nanjing University of Aeronautics and Astronautics

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Soloviev Igor

DSc in Physics and Mathematics

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h-index: 25

Lomonosov Moscow State University

Dukhov Research Institute of Automatics

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Inteligencia artificial

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Quantum Physics

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Schegolev Andrey

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Dukhov Research Institute of Automatics

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Quantum Physics

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Lobachevsky State University of Nizhny Novgorod

Russian Quantum Center

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Condensed matter physics

Superconducting qubits

1 citation

Khanas Anton

🥼 🤝

PhD in Physics and Mathematics

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h-index: 4

Moscow Institute of Physics and Technology

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1 citation

Butusov Denis

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PhD in Engineering, associate professor

154 publications, 1 748 citations, 1 217 reviews

h-index: 22

Saint Petersburg Electrotechnical University "LETI"

Research interests

Nonlinear dynamics

1 citation

Rybin Vyacheslav

🤝

PhD in Engineering

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h-index: 12

Saint Petersburg Electrotechnical University "LETI"

Research interests

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GOST |

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GOST Copy

Duan Q. et al. Spiking neurons with spatiotemporal dynamics and gain modulation for monolithically integrated memristive neural networks // Nature Communications. 2020. Vol. 11. No. 1. 3399

GOST all authors (up to 50) Copy

Duan Q., Jing Z., Zou X., Wang Y., Yang K., Zhang T., Wu S., Huang R., Yang Y. Spiking neurons with spatiotemporal dynamics and gain modulation for monolithically integrated memristive neural networks // Nature Communications. 2020. Vol. 11. No. 1. 3399

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1038/s41467-020-17215-3

UR - https://doi.org/10.1038/s41467-020-17215-3

TI - Spiking neurons with spatiotemporal dynamics and gain modulation for monolithically integrated memristive neural networks

T2 - Nature Communications

AU - Duan, Qingxi

AU - Jing, Zhaokun

AU - Zou, Xiaolong

AU - Wang, Yanghao

AU - Yang, Ke

AU - Zhang, Teng

AU - Wu, Si

AU - Huang, Ru

AU - Yang, Yuchao

PY - 2020

DA - 2020/07/07

PB - Springer Nature

IS - 1

VL - 11

PMID - 32636385

SN - 2041-1723

ER -

BibTex

Cite this

BibTex (up to 50 authors) Copy

@article{2020_Duan,

author = {Qingxi Duan and Zhaokun Jing and Xiaolong Zou and Yanghao Wang and Ke Yang and Teng Zhang and Si Wu and Ru Huang and Yuchao Yang},

title = {Spiking neurons with spatiotemporal dynamics and gain modulation for monolithically integrated memristive neural networks},

journal = {Nature Communications},

year = {2020},

volume = {11},

publisher = {Springer Nature},

month = {jul},

url = {https://doi.org/10.1038/s41467-020-17215-3},

number = {1},

pages = {3399},

doi = {10.1038/s41467-020-17215-3}

}

Publisher

Springer Nature

Journal

Nature Communications

scimago Q1

wos Q1

SJR

4.761

CiteScore

23.4

Impact factor

15.7

ISSN

20411723 (Print, Electronic)