Analog Synaptic Devices Based on IGZO Thin‐Film Transistors with a Metal–Ferroelectric–Metal–Insulator–Semiconductor Structure for High‐Performance Neuromorphic Systems-Reference-Cited by-同舟云学术

Analog Synaptic Devices Based on IGZO Thin‐Film Transistors with a Metal–Ferroelectric–Metal–Insulator–Semiconductor Structure for High‐Performance Neuromorphic Systems

Published:2023-09-28 Issue:12 Volume:5 Page:
ISSN:2640-4567
Container-title:Advanced Intelligent Systems
language:en
Short-container-title:Advanced Intelligent Systems

Author:

Kwon Dongseok¹,Park Eun Chan²,Shin Wonjun¹,Koo Ryun-Han¹,Hwang Joon¹,Bae Jong-Ho³,Kwon Daewoong²,Lee Jong-Ho⁴^ORCID

Affiliation:

1. Inter-University Semiconductor Research Center Department of Electrical and Computer Engineering Seoul National University Seoul 08826 South Korea

2. Department of Electronic Engineering Hanyang University Seoul 04736 Korea

3. School of Electrical Engineering Kookmin University Seoul 02707 Korea

4. Ministry of Science and ICT Gawcheon 151742 Korea

Abstract

A ferroelectric thin‐film transistor (FeTFT)‐based synaptic device with an indium–gallium–zinc oxide (IGZO) channel and a metal–ferroelectric–metal–insulator–semiconductor (MFMIS) structure is reported. The fabricated FeTFT exhibits a highly linear conductance response (|α| = 0.21) with a large dynamic range (Gmax/Gmin ≈ 53.2), although identical program pulses are applied to the device. In addition, because the inner metal layer of the FeTFTs has an MFMIS structure, the electric field is uniformly applied to the entire IGZO channel, which reduces the cycle‐to‐cycle variation (σ = 0.47%) in the conductance responses. In the system simulation with the measured synaptic characteristics, the high classification accuracy of ≈97.0% is achieved in the MNIST image set, verifying the feasibility of FeTFT‐based neuromorphic systems.

Publisher

Wiley

Subject

General Medicine

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/aisy.202300125

Reference56 articles.

1. In situ training of feed-forward and recurrent convolutional memristor networks

2. Fully hardware-implemented memristor convolutional neural network

3. 4K-memristor analog-grade passive crossbar circuit

4. Efficient and self-adaptive in-situ learning in multilayer memristor neural networks

5. Fully memristive neural networks for pattern classification with unsupervised learning

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