Issue 20, 2024

Leveraging volatile memristors in neuromorphic computing: from materials to system implementation

Abstract

Inspired by the functions of biological neural networks, volatile memristors are essential for implementing neuromorphic computing. These devices enable large-scale and energy-efficient data processing by emulating neural functionalities through dynamic resistance changes. The threshold switching characteristics of volatile memristors, which are driven by various mechanisms in materials ranging from oxides to chalcogenides, make them versatile and suitable for neuromorphic computing systems. Understanding these mechanisms and selecting appropriate devices for specific applications are crucial for optimizing the performance. However, the existing literature lacks a comprehensive review of switching mechanisms, their compatibility with different applications, and a deeper exploration of the spatiotemporal processing capabilities and inherent stochasticity of volatile memristors. This review begins with a detailed analysis of the operational principles and material characteristics of volatile memristors. Their diverse applications are then explored, emphasizing their role in crossbar arrays, artificial receptors, and neurons. Furthermore, the potential of volatile memristors in artificial inference systems and reservoir computing is discussed, due to their spatiotemporal processing capabilities. Hardware security applications and probabilistic computing are also examined, where the inherent stochasticity of the devices can improve the system robustness and adaptability. To conclude, the suitability of different switching mechanisms for various applications is evaluated, and future perspectives for the development and implementation of volatile memristors are presented. This review aims to fill the gaps in existing research and highlight the potential of volatile memristors to drive innovation in neuromorphic computing, paving the way for more efficient and powerful computational paradigms.

Graphical abstract: Leveraging volatile memristors in neuromorphic computing: from materials to system implementation

Article information

Article type
Review Article
Submitted
29 Тра 2024
Accepted
16 Сер 2024
First published
20 Сер 2024

Mater. Horiz., 2024,11, 4840-4866

Leveraging volatile memristors in neuromorphic computing: from materials to system implementation

T. Moon, K. Soh, J. S. Kim, J. E. Kim, S. Y. Chun, K. Cho, J. J. Yang and J. H. Yoon, Mater. Horiz., 2024, 11, 4840 DOI: 10.1039/D4MH00675E

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