Recent Advances of Volatile Memristors: Devices, Mechanisms, and Applications

Ruopeng Wang; Jia-Qin Yang; Jing-Yu Mao; Zhan-Peng Wang; Shuang Wu; Maojie Zhou; Tianyi Chen; Ye Zhou; Su-Ting Han

doi:10.1002/aisy.202000055

Advanced Intelligent Systems (Sep 2020)

Recent Advances of Volatile Memristors: Devices, Mechanisms, and Applications

Ruopeng Wang,
Jia-Qin Yang,
Jing-Yu Mao,
Zhan-Peng Wang,
Shuang Wu,
Maojie Zhou,
Tianyi Chen,
Ye Zhou,
Su-Ting Han

Affiliations

Ruopeng Wang: College of Electronics and Information Engineering Shenzhen University Shenzhen 518060 P. R. China
Jia-Qin Yang: College of Electronics and Information Engineering Shenzhen University Shenzhen 518060 P. R. China
Jing-Yu Mao: Institute for Advanced Study Shenzhen University Shenzhen 518060 P. R. China
Zhan-Peng Wang: Institute for Advanced Study Shenzhen University Shenzhen 518060 P. R. China
Shuang Wu: Institute for Advanced Study Shenzhen University Shenzhen 518060 P. R. China
Maojie Zhou: College of Electronics and Information Engineering Shenzhen University Shenzhen 518060 P. R. China
Tianyi Chen: College of Electronics and Information Engineering Shenzhen University Shenzhen 518060 P. R. China
Ye Zhou: Institute for Advanced Study Shenzhen University Shenzhen 518060 P. R. China
Su-Ting Han: Institute of Microscale optoelectronics Shenzhen University Shenzhen 518060 P. R. China

DOI: https://doi.org/10.1002/aisy.202000055
Journal volume & issue: Vol. 2, no. 9
pp. n/a – n/a

Abstract

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Due to the rapid development of artificial intelligence (AI) and internet of things (IoTs), neuromorphic computing and hardware security are becoming more and more important. The volatile memristors, which feature spontaneous decay of device conductance, own the distinct combination of high similarity to the biological neurons and synapses and unique physical mechanisms. They are excellent candidates for mimicking the synaptic functions and ideal randomness source of the entropy for hardware‐based security. Herein, the recent advances of volatile memristors in devices, mechanisms, and application aspects are summarized. First, a brief introduction is presented to describe the switching type, materials, and temporal response of volatile memristors. Second, the volatile switching mechanisms are discussed and grouped into ion effects, thermal effects, and electrical effects. Third, attention is focused on the applications of volatile memristors for access devices, neuromorphic computing (artificial neurons and synapses), and hardware security (true random number generators and physical unclonable functions). Finally, major challenges and future outlook of volatile memristors for neuromorphic computing and hardware security are discussed.

Published in Advanced Intelligent Systems

ISSN: 2640-4567 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics: Computer engineering. Computer hardware; Technology: Mechanical engineering and machinery: Control engineering systems. Automatic machinery (General)
Website: https://onlinelibrary.wiley.com/journal/26404567

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