Memristive Devices for Brain-Inspired Computing
186,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in 6-10 Tagen
payback
93 °P sammeln
  • Broschiertes Buch

Memristive Devices for Brain-Inspired Computing: From Materials, Devices, and Circuits to Applications-Computational Memory, Deep Learning, and Spiking Neural Networks reviews the latest in material and devices engineering for optimizing memristive devices beyond storage applications and toward brain-inspired computing. The book provides readers with an understanding of four key concepts, including materials and device aspects with a view of current materials systems and their remaining barriers, algorithmic aspects comprising basic concepts of neuroscience as well as various computing…mehr

Andere Kunden interessierten sich auch für
Produktbeschreibung
Memristive Devices for Brain-Inspired Computing: From Materials, Devices, and Circuits to Applications-Computational Memory, Deep Learning, and Spiking Neural Networks reviews the latest in material and devices engineering for optimizing memristive devices beyond storage applications and toward brain-inspired computing. The book provides readers with an understanding of four key concepts, including materials and device aspects with a view of current materials systems and their remaining barriers, algorithmic aspects comprising basic concepts of neuroscience as well as various computing concepts, the circuits and architectures implementing those algorithms based on memristive technologies, and target applications, including brain-inspired computing, computational memory, and deep learning.

This comprehensive book is suitable for an interdisciplinary audience, including materials scientists, physicists, electrical engineers, and computer scientists.
Autorenporträt
Sabina Spiga received the Degree in Physics from the Università di Bologna in 1995 and the PhD in Material Science in 2002 from Università di Milano. She is staff researcher at CNR-IMM-Unit of Agrate Brianza (Italy) since 2004, and she is currently leading a research team developing oxide-based resistive switching non-volatile memories and memristive devices for neuromorphic systems. She is currently principal Investigator for CNR of the project European project-Horizo2020 NeuRAM3-NEUral computing aRchitectures in Advanced Monolithic 3D-VLSI nano-technologies; and since 2014 she is also member of the Management Committee for Italy of the COST Action ICT 1401-"Memristors-Devices, Models, Circuits, Systems and Applications?. S. Spiga is co-author of more than 100 publications on peer reviewed journals and proceedings. She co-organized several symposia and workshops and national and international level, and in 2013/2014 she participated to the IEDM Memory Technology subcommittee.

Damien Querlioz is a CNRS researcher at the Centre for Nanoscience and Nanotechnology of Université Paris-Sud, Orsay. He received his predoctoral education at Ecole Normale Supérieure, Paris, his PhD at Université Paris-Sud in 2008, and was a postdoctoral scholar at Stanford University and CEA. He focuses on novel usages of emerging non-volatile memory, in particular relying on inspirations from biology and machine learning. He coordinates the INTEGNANO interdisciplinary research group. In 2016, he was the recipient of an ERC Starting Grant to develop the concept of natively intelligent memory.