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This book considers the design and development of nanoelectronic
computing circuits, systems and architectures focusing particularly
on memristors, which represent one of today's latest technology
breakthroughs in nanoelectronics. The book studies, explores, and
addresses the related challenges and proposes solutions for the
smooth transition from conventional circuit technologies to
emerging computing memristive nanotechnologies. Its content spans
from fundamental device modeling to emerging storage system
architectures and novel circuit design methodologies, targeting
advanced non-conventional analog/digital massively parallel
computational structures. Several new results on memristor
modeling, memristive interconnections, logic circuit design, memory
circuit architectures, computer arithmetic systems, simulation
software tools, and applications of memristors in computing are
presented. High-density memristive data storage combined with
memristive circuit-design paradigms and computational tools applied
to solve NP-hard artificial intelligence problems, as well as
memristive arithmetic-logic units, certainly pave the way for a
very promising memristive era in future electronic systems.
Furthermore, these graph-based NP-hard problems are solved on
memristive networks, and coupled with Cellular Automata
(CA)-inspired computational schemes that enable computation within
memory. All chapters are written in an accessible manner and are
lavishly illustrated. The book constitutes an informative
cornerstone for young scientists and a comprehensive reference to
the experienced reader, hoping to stimulate further research on
memristive devices, circuits, and systems.
This book considers the design and development of nanoelectronic
computing circuits, systems and architectures focusing particularly
on memristors, which represent one of today's latest technology
breakthroughs in nanoelectronics. The book studies, explores, and
addresses the related challenges and proposes solutions for the
smooth transition from conventional circuit technologies to
emerging computing memristive nanotechnologies. Its content spans
from fundamental device modeling to emerging storage system
architectures and novel circuit design methodologies, targeting
advanced non-conventional analog/digital massively parallel
computational structures. Several new results on memristor
modeling, memristive interconnections, logic circuit design, memory
circuit architectures, computer arithmetic systems, simulation
software tools, and applications of memristors in computing are
presented. High-density memristive data storage combined with
memristive circuit-design paradigms and computational tools applied
to solve NP-hard artificial intelligence problems, as well as
memristive arithmetic-logic units, certainly pave the way for a
very promising memristive era in future electronic systems.
Furthermore, these graph-based NP-hard problems are solved on
memristive networks, and coupled with Cellular Automata
(CA)-inspired computational schemes that enable computation within
memory. All chapters are written in an accessible manner and are
lavishly illustrated. The book constitutes an informative
cornerstone for young scientists and a comprehensive reference to
the experienced reader, hoping to stimulate further research on
memristive devices, circuits, and systems.
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