Neuromorphic spintronics combines two advanced fields in technology, neuromorphic computing, and spintronics, to create brain-inspired, efficient computing systems that leverage the unique properties of the electron’s spin. In this book chapter, we first introduce both fields—neuromorphic computing and spintronics—and then make a case for neuromorphic spintronics. We discuss concrete examples of neuromorphic spintronics, including computing based on fluctuations, artificial neural networks, and reservoir computing, highlighting their potential to revolutionize computational efficiency and functionality.

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Neuromorphic Spintronics

  • Atreya Majumdar,
  • Karin Everschor-Sitte

摘要

Neuromorphic spintronics combines two advanced fields in technology, neuromorphic computing, and spintronics, to create brain-inspired, efficient computing systems that leverage the unique properties of the electron’s spin. In this book chapter, we first introduce both fields—neuromorphic computing and spintronics—and then make a case for neuromorphic spintronics. We discuss concrete examples of neuromorphic spintronics, including computing based on fluctuations, artificial neural networks, and reservoir computing, highlighting their potential to revolutionize computational efficiency and functionality.