Memristor Applications: Nanodevices Redefining Technological Landscapes

TL;DR

This paper reviews the rapidly expanding applications of memristors, highlighting their unique properties and potential to revolutionize electronics, memory, and neuromorphic computing through comprehensive literature analysis.

Contribution

It provides a systematic overview of memristor applications, documenting key research milestones and exploring their potential across multiple technological domains.

Findings

Memristors enable nonvolatile, scalable, low-power memory solutions.

They are promising for neuromorphic computing and energy-efficient circuits.

The field is rapidly evolving with increasing research interest.

Abstract

A memristor, a two-terminal nanodevice, has garnered substantial attention in recent years due to its distinctive properties and versatile applications. These nanoscale components, characterized by their simplicity of manufacture, scalability in small dimensions, nonvolatile memory capabilities, and adaptability to low-power platforms, offer a wealth of opportunities for technological innovation. Memristors hold great promise in diverse fields, ranging from advanced memory devices and neuromorphic computing to energy-efficient circuits and more. As we delve into this report, our aim is to provide a succinct but thorough exploration of the expanding landscape of memristor applications. Through the meticulous examination of scholarly literature, we systematically documented pivotal research milestones. By preserving historical consistency in our approach, we aim to unveil the intricate spectrum of possibilities that memristors offer, according to which they can revolutionize and enhance various domains of electronics and computing.