2023, Vol. 4, Issue 2, Part A
Exploring the electrical properties of nanocomposite memristors for neuromorphic computing
Author(s): Tanzim Arefin and Abdullah Al Jahan
Abstract: As the demand for efficient and scalable computing architectures grows, neuromorphic computing emerges as a promising solution, inspired by the human brain's ability to process and store information. Memristors, with their unique capability to emulate synaptic behavior, play a crucial role in advancing neuromorphic systems. Among various memristor designs, nanocomposite memristors have garnered attention due to their potential for tunable electrical properties, scalability, and ease of fabrication. This review paper delves into the electrical properties of nanocomposite memristors and their applications in neuromorphic computing. The study emphasizes material composition, resistive switching behavior, endurance, retention, and scalability, while also discussing the challenges and opportunities that lie ahead for integrating nanocomposite memristors into neuromorphic architectures.
Pages: 10-14 | Views: 177 | Downloads: 38
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How to cite this article:
Tanzim Arefin, Abdullah Al Jahan. Exploring the electrical properties of nanocomposite memristors for neuromorphic computing. Int J Electr Data Commun 2023;4(2):10-14.