Spin-Based Computing Devices - Csaba, György
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This book provides readers with a single-source reference to the state of the art in domain-wall, nanomagnet and spin-wave-based computing devices, enabling them to provide additional computing functions and lower the power consumption of electronic devices by orders of magnitudes. Tutorial chapters gives a thorough introduction to the preliminaries and the theory behind spin-based devices, and additional chapters give an overview of the most promising spin-based computing concepts. This book is designed to be a first read for anyone interested in the field of spin-based (magnetic) computing…mehr

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Produktbeschreibung
This book provides readers with a single-source reference to the state of the art in domain-wall, nanomagnet and spin-wave-based computing devices, enabling them to provide additional computing functions and lower the power consumption of electronic devices by orders of magnitudes. Tutorial chapters gives a thorough introduction to the preliminaries and the theory behind spin-based devices, and additional chapters give an overview of the most promising spin-based computing concepts. This book is designed to be a first read for anyone interested in the field of spin-based (magnetic) computing devices. The author provides an overview of how information can be processed by single-domain nanomagnets, domain walls, spin-waves or spin torque oscillators. Both Boolean approaches (magnetic logic gates) and non-Boolean devices (image processing circuits, etc.) are discussed.
Autorenporträt
György Csaba is a  Professor at the Faculty for Information Technology and Bionics, Pázmany University Budapest. His research interests lie in modelling of nanoscale computing systems, spin electronics and unconventional computing devices.