A Study of the Memristor, the Fourth Circuit Element
A Study of the Memristor, the Fourth Circuit Element

Author: Ketaki Kerur

Publisher:

Published: 2010

Total Pages:

ISBN-13:

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Every person with an electronics background will be familiar with the three fundamental circuit elements--the resistor, the capacitor, and the inductor. These three elements are defined by the relation between two of the four fundamental circuit variables--current, voltage, charge and flux. In 1971, Leon Chua reasoned on the grounds of symmetry that there should be a fourth fundamental circuit element which gives the relationship between flux and charge. He named this circuit element the memristor, which is short for--"memory resistor."In May 2008, researchers at HP Labs published a paper announcing a model for the physical realization of the memristor. This report focuses on the memristor and reviews its properties. The HP model for the memristor is also discussed, and its behavior is studied through simulations. A few of the potential applications of the memristor are presented.

Memristors - The Fourth Fundamental Circuit Element - Theory, Device, and Applications
Memristors - The Fourth Fundamental Circuit Element - Theory, Device, and Applications

Author: Yao-Feng Chang

Publisher: BoD – Books on Demand

Published: 2024-06-12

Total Pages: 204

ISBN-13: 0854661670

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This book presents excellent comprehensive and interdisciplinary research on memristor devices and their corresponding applications. The authors discuss a wide range of topics, including material and physical modeling, materials physics and analytics, devices in miniature scale, advanced functional circuits, high-speed computing systems and integration for logic applications, other novel emerging device concepts and circuit schemes, and much more.

Modelling and the Study of the Memristor
Modelling and the Study of the Memristor

Author: Mohan Ujwal Bandaru

Publisher:

Published: 2012

Total Pages: 38

ISBN-13:

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Till date the circuitry world has known three fundamental circuit elements--capacitor, resistor and inductor. These circuit elements are defined by the relation between two of the four fundamental circuit variables--current, voltage, charge and flux. Way back in 1971, Prof. Leon Chua proposed on the grounds of symmetry that there should be a fourth fundamental circuit element which gives the relation between flux and charge. He named this the memristor, which is the short of memory resistor. This theory was then practically modeled, in May 2008 when the researchers at HP Labs published a paper announcing a model for a physical realization of a memristor. This report mainly focuses on the model of memristor and its applications. All the simulation results are studied using LTSpice.

Development of Memristor Based Circuits
Development of Memristor Based Circuits

Author: Herbert Ho-Ching Iu

Publisher: World Scientific

Published: 2013

Total Pages: 133

ISBN-13: 9814383384

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Summary: "As memristors are not yet on the market, the development of memristor emulators and memristor based circuits is very important for real and practical engineering applications. The objectives of this book are to review the basic concepts of the memristor, describe state-of-the-art memristor based circuits and to stimulate further research and development in this area."--Preface.

Development of Memristor Based Circuits
Development of Memristor Based Circuits

Author: Andrew L. Fitch

Publisher: World Scientific

Published: 2013

Total Pages: 133

ISBN-13: 9814383392

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In 1971, Leon O. Chua presented the formulation of a memristor, which was postulated as the fourth circuit element in electrical circuit theory OCo one that could join the existing core group of elements: capacitor, resistor and inductor. For over thirty years, the memristor had held no significance in circuit theory. Then in 2008, a group of scientists from Hewlett-Packard Labs (HP) developed a working memristor. Although the solid state implementation of the memristor inspired appreciable interest in developing applications, memristors are not yet available on the market to date. HP labs do not expect to introduce memristors in a product for a few more years. Therefore, the development of memristor based circuits is essential for further experimental research on the applications.Combining an overview, tutorial and technical articles, the book describes the state-of-the-art research on significant issues in the field. Examples of memristor mimicking circuits are presented, and applications of memristor based circuits addressed.

Mem-elements for Neuromorphic Circuits with Artificial Intelligence Applications
Mem-elements for Neuromorphic Circuits with Artificial Intelligence Applications

Author: Christos Volos

Publisher: Academic Press

Published: 2021-06-17

Total Pages: 570

ISBN-13: 0128232021

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Mem-elements for Neuromorphic Circuits with Artificial Intelligence Applications illustrates recent advances in the field of mem-elements (memristor, memcapacitor, meminductor) and their applications in nonlinear dynamical systems, computer science, analog and digital systems, and in neuromorphic circuits and artificial intelligence. The book is mainly devoted to recent results, critical aspects and perspectives of ongoing research on relevant topics, all involving networks of mem-elements devices in diverse applications. Sections contribute to the discussion of memristive materials and transport mechanisms, presenting various types of physical structures that can be fabricated to realize mem-elements in integrated circuits and device modeling. As the last decade has seen an increasing interest in recent advances in mem-elements and their applications in neuromorphic circuits and artificial intelligence, this book will attract researchers in various fields. Covers a broad range of interdisciplinary topics between mathematics, circuits, realizations, and practical applications related to nonlinear dynamical systems, nanotechnology, analog and digital systems, computer science and artificial intelligence Presents recent advances in the field of mem-elements (memristor, memcapacitor, meminductor) Includes interesting applications of mem-elements in nonlinear dynamical systems, analog and digital systems, neuromorphic circuits, computer science and artificial intelligence

Resistive Switching
Resistive Switching

Author: Daniele Ielmini

Publisher:

Published: 2016

Total Pages: 755

ISBN-13: 9783527680870

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With its comprehensive coverage, this reference introduces readers to the wide topic of resistance switching, providing the knowledge, tools, and methods needed to understand, characterize and apply resistive switching memories. Starting with those materials that display resistive switching behavior, the book explains the basics of resistive switching as well as switching mechanisms and models. An in-depth discussion of memory reliability is followed by chapters on memory cell structures and architectures, while a section on logic gates rounds off the text. An invaluable self-contained book for materials scientists, electrical engineers and physicists dealing with memory research and development.

Memristors and Memristive Systems
Memristors and Memristive Systems

Author: Ronald Tetzlaff

Publisher: Springer Science & Business Media

Published: 2013-12-11

Total Pages: 409

ISBN-13: 1461490685

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This book provides a comprehensive overview of current research on memristors, memcapacitors and, meminductors. In addition to an historical overview of the research in this area, coverage includes the theory behind memristive circuits, as well as memcapacitance, and meminductance. Details are shown for recent applications of memristors for resistive random access memories, neuromorphic systems and hybrid CMOS/memristor circuits. Methods for the simulation of memristors are demonstrated and an introduction to neuromorphic modeling is provided.

Handbook of Memristor Networks
Handbook of Memristor Networks

Author: Leon Chua

Publisher: Springer Nature

Published: 2019-11-12

Total Pages: 1368

ISBN-13: 331976375X

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This Handbook presents all aspects of memristor networks in an easy to read and tutorial style. Including many colour illustrations, it covers the foundations of memristor theory and applications, the technology of memristive devices, revised models of the Hodgkin-Huxley Equations and ion channels, neuromorphic architectures, and analyses of the dynamic behaviour of memristive networks. It also shows how to realise computing devices, non-von Neumann architectures and provides future building blocks for deep learning hardware. With contributions from leaders in computer science, mathematics, electronics, physics, material science and engineering, the book offers an indispensable source of information and an inspiring reference text for future generations of computer scientists, mathematicians, physicists, material scientists and engineers working in this dynamic field.