2D-Material-Based Volatile and Nonvolatile Memristive Devices for Neuromorphic Computing

神经形态工程学 冯·诺依曼建筑 计算机科学 记忆电阻器 非常规计算 瓶颈 计算机体系结构 人工神经网络 油藏计算 人工智能 分布式计算 电子工程 嵌入式系统 工程类 循环神经网络 操作系统
作者
Xuwen Xia,Wen Huang,Pengjie Hang,Tao Guo,Yong Yan,Jianping Yang,Deren Yang,Xuegong Yu,Xing’ao Li
出处
期刊:ACS materials letters [American Chemical Society]
卷期号:5 (4): 1109-1135 被引量:47
标识
DOI:10.1021/acsmaterialslett.2c01026
摘要

Neuromorphic computing can process large amounts of information in parallel and provides a powerful tool to solve the von Neumann bottleneck. Constructing an artificial neural network (ANN) is a common means to realize neuromorphic computing, which has exhibited potential applications in pattern recognition, complex sensing, and other areas. Reservoir computing (RC), which is another approach to realize neuromorphic computing, has shown some progress and attracted researchers’ attention. Neuromorphic computing can be generally implemented by fabricating memristive array systems. 2D-material-based memristive systems and their applications in ANN and RC have been investigated substantially in recent years due to the unique properties of these systems, such as atomic-level thickness and high carrier mobility. In this Review, we first discuss the volatility and nonvolatility properties of memristive devices and their applications in ANN and RC. Second, 2D materials that can be used to fabricate these devices are introduced, and their classification, physical properties, and preparation methods are presented. Third, we discuss the working mechanisms of 2D-material-based synaptic devices, the mimicked synaptic functions, and the applications of these devices in neuromorphic computing through ANN and RC. Lastly, the performance, progress, and future development directions of 2D-material-based synaptic devices are analyzed. This work systematically investigates the status of 2D-material-based synaptic devices and promotes their utilization in neuromorphic computing.
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