Design of High Performance MXene/Oxide Structure Memristors for Image Recognition Applications

IF 1.6 4区 计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Xiaojuan Lian;Yuelin Shi;Xinyi Shen;Xiang Wan;Zhikuang Cai;Lei Wang;Yuchao Yang
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Abstract

Recent popularity to realize image recognition by memristor-based neural network hardware systems has been witnessed owing to their similarities to neurons and synapses. However, the stochastic formation of conductive filaments inside the oxide memristor devices inevitably makes them face some drawbacks, represented by relatively higher power consumption and severer resistance switching variability. In this work, we design and fabricate the Ag/MXene (Ti 3 C 2 ) /SiO 2 /Pt memristor after considering the stronger interactions between Ti 3 C 2 and Ag ions, which lead to a Ti 3 C 2 /SiO 2 structure memristor owning to much lower “SET” voltage and smaller resistance switching fluctuation than pure SiO 2 memristor. Furthermore, the conductances of the Ag/Ti 3 C 2 /SiO 2 /Pt memristor have been modulated by changing the number of the applied programming pulse, and two typical biological behaviors, i.e., long-term potentiation and long-term depression, have been achieved. Finally, device conductances are introduced into an integrated device-to-algorithm framework as synaptic weights, by which the MNIST hand-written digits are recognized with accuracy up to 77.39%.
设计用于图像识别应用的高性能 MXene/Oxide 结构晶闸管
由于忆阻器与神经元和突触的相似性,利用基于忆阻器的神经网络硬件系统来实现图像识别近来十分流行。然而,氧化物忆阻器器件内部导电丝的随机形成不可避免地使其面临一些缺点,表现为相对较高的功耗和较严重的电阻开关变化。在这项研究中,我们考虑到 Ti3C2 与 Ag 离子之间更强的相互作用,设计并制造了 Ag/MXene (Ti3C2) /SiO2/Pt Memristor,与纯 SiO2 Memristor 相比,Ti3C2/SiO2 结构的 Memristor 具有更低的 "SET "电压和更小的电阻开关波动。此外,Ag/Ti3C2/SiO2/Pt忆阻器的电导还可以通过改变编程脉冲的数量来调制,并实现了两种典型的生物学行为,即长期延时和长期抑制。最后,器件电导作为突触权重被引入到集成的器件到算法框架中,通过该框架,MNIST 手写数字的识别准确率高达 77.39%。
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来源期刊
Chinese Journal of Electronics
Chinese Journal of Electronics 工程技术-工程:电子与电气
CiteScore
3.70
自引率
16.70%
发文量
342
审稿时长
12.0 months
期刊介绍: CJE focuses on the emerging fields of electronics, publishing innovative and transformative research papers. Most of the papers published in CJE are from universities and research institutes, presenting their innovative research results. Both theoretical and practical contributions are encouraged, and original research papers reporting novel solutions to the hot topics in electronics are strongly recommended.
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