Perspective on oxide-based three-terminal artificial synapses in physical neural networks

Author:

Chen Kuan-Ting1ORCID,Chen Jen-Sue1ORCID

Affiliation:

1. Department of Materials Science and Engineering, National Cheng Kung University, Tainan 701, Taiwan

Abstract

The physical implementation of artificial neural networks, also known as “neuromorphic engineering” as advocated by Carver Mead in the late 1980s, has become urgent because of the increasing demand on massive and unstructured data processing. complementary metal-oxide-semiconductor-based hardware suffers from high power consumption due to the von Neumann bottleneck; therefore, alternative hardware architectures and devices meeting the energy efficiency requirements are being extensively investigated for neuromorphic computing. Among the emerging neuromorphic electronics, oxide-based three-terminal artificial synapses merit the features of scalability and compatibility with the silicon technology as well as the concurrent signal transmitting-and-learning. In this Perspective, we survey four types of three-terminal artificial synapses classified by their operation mechanisms, including the oxide electrolyte-gated transistor, ion-doped oxide electrolyte-gated transistor, ferroelectric-gated transistor, and charge trapping-gated transistor. The synaptic functions mimicked by these devices are analyzed based on the tunability of the channel conductance correlated with the charge relocation and polarization in gate dielectrics. Finally, the opportunities and challenges of implementing oxide-based three-terminal artificial synapses in physical neural networks are delineated for future prospects.

Funder

National Science and Technology Counsil, Taiwan

Ministry of Science and Technology, Taiwan

Publisher

AIP Publishing

Subject

Physics and Astronomy (miscellaneous)

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