Open Access

Frontiers in Neuroscience

, том 7

Stochastic learning in oxide binary synaptic device for neuromorphic computing

Shimeng Yu ^{1, 2}

Bin Gao ³

Zheng Fang ⁴

Hongyu Yu ⁵

JINFENG KANG ³

H-S Philip Wong ¹

Скрыть аффилиации авторов Показать аффилиации авторов: 5 аффилиаций

Stanford University, Department of Electrical Engineering, Stanford, United States |

Arizona State University, School of Computing, Informatics, and Decision Systems Engineering, Tempe, Arizona, United States |

Peking University, Institute of Microelectronics, Beijing, China

Пекинский университет

Институт микроэлектроники, Китайская академия наук

⁴

Agency for Science, Technology and Research (A*STAR) of Singapore, Institute of Microelectronics, Singapore, Singapore |

⁵

South University of Science and Technology of China, Shenzhen, China |

Тип публикации: Journal Article

Дата публикации: 2013-10-31

Frontiers Media S.A.

Frontiers in Neuroscience

scimago Q2

wos Q2

БС1

SJR: 1.068

CiteScore: 6.6

Impact factor: 3.2

ISSN: 16624548, 1662453X

DOI: 10.3389/fnins.2013.00186

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PubMed ID: 24198752

General Neuroscience

Краткое описание

Hardware implementation of neuromorphic computing is attractive as a computing paradigm beyond the conventional digital computing. In this work, we show that the SET (off-to-on) transition of metal oxide resistance switching memory becomes probabilistic under a weak programming condition. The switching variability of the binary synaptic device implements a stochastic learning rule. Such stochastic SET transition was statistically measured and modeled for a simulation of a winner-take-all network for competitive learning. The simulation illustrates that with such stochastic learning, the orientation classification function of input patterns can be effectively realized. The system performance metrics were compared between the conventional approach using the analog synapse and the approach in this work that employs the binary synapse utilizing the stochastic learning. The feasibility of using binary synapse in the neurormorphic computing may relax the constraints to engineer continuous multilevel intermediate states and widens the material choice for the synaptic device design.

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Yu S. et al. Stochastic learning in oxide binary synaptic device for neuromorphic computing // Frontiers in Neuroscience. 2013. Vol. 7.

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Yu S., Gao B., Fang Z., Yu H., KANG J., Wong H. P. Stochastic learning in oxide binary synaptic device for neuromorphic computing // Frontiers in Neuroscience. 2013. Vol. 7.

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TY - JOUR

DO - 10.3389/fnins.2013.00186

UR - https://doi.org/10.3389/fnins.2013.00186

TI - Stochastic learning in oxide binary synaptic device for neuromorphic computing

T2 - Frontiers in Neuroscience

AU - Yu, Shimeng

AU - Gao, Bin

AU - Fang, Zheng

AU - Yu, Hongyu

AU - KANG, JINFENG

AU - Wong, H-S Philip

PY - 2013

DA - 2013/10/31

PB - Frontiers Media S.A.

VL - 7

PMID - 24198752

SN - 1662-4548

SN - 1662-453X

ER -

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@article{2013_Yu,

author = {Shimeng Yu and Bin Gao and Zheng Fang and Hongyu Yu and JINFENG KANG and H-S Philip Wong},

title = {Stochastic learning in oxide binary synaptic device for neuromorphic computing},

journal = {Frontiers in Neuroscience},

year = {2013},

volume = {7},

publisher = {Frontiers Media S.A.},

month = {oct},

url = {https://doi.org/10.3389/fnins.2013.00186},

doi = {10.3389/fnins.2013.00186}

}

Издатель

Frontiers Media S.A.

Журнал

Frontiers in Neuroscience

scimago Q2

wos Q2

БС1

SJR

1.068

CiteScore

6.6

Impact factor

3.2

ISSN

16624548 (Print)

1662453X (Electronic)