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Author: Balwinder Raj Publisher: Elsevier ISBN: 9780323907934 Category : Technology & Engineering Languages : en Pages : 0
Book Description
Nanoscale Memristor Device and Circuits Design provides theoretical frameworks, including (i) the background of memristors, (ii) physics of memristor and their modeling, (iii) menristive device applications, and (iv) circuit design for security and authentication. The book focuses on a broad aspect of realization of these applications as low cost and reliable devices. This is an important reference that will help materials scientists and engineers understand the production and applications of nanoscale memrister devices. A memristor is a two-terminal memory nanoscale device that stores information in terms of high/low resistance. It can retain information even when the power source is removed, i.e., "non-volatile." In contrast to MOS Transistors (MOST), which are the building blocks of all modern mobile and computing devices, memristors are relatively immune to radiation, as well as parasitic effects, such as capacitance, and can be much more reliable. This is extremely attractive for critical safety applications, such as nuclear and aerospace, where radiation can cause failure in MOST-based systems.
Author: Balwinder Raj Publisher: Elsevier ISBN: 0323998119 Category : Technology & Engineering Languages : en Pages : 254
Book Description
Nanoscale Memristor Device and Circuits Design provides theoretical frameworks, including (i) the background of memristors, (ii) physics of memristor and their modeling, (iii) menristive device applications, and (iv) circuit design for security and authentication. The book focuses on a broad aspect of realization of these applications as low cost and reliable devices. This is an important reference that will help materials scientists and engineers understand the production and applications of nanoscale memrister devices. A memristor is a two-terminal memory nanoscale device that stores information in terms of high/low resistance. It can retain information even when the power source is removed, i.e., "non-volatile." In contrast to MOS Transistors (MOST), which are the building blocks of all modern mobile and computing devices, memristors are relatively immune to radiation, as well as parasitic effects, such as capacitance, and can be much more reliable. This is extremely attractive for critical safety applications, such as nuclear and aerospace, where radiation can cause failure in MOST-based systems. Outlines the major principles of circuit design for nanoelectronic applications Explores major applications, including memristor-based memories, sensors, solar cells, or memristor-based hardware and software security applications Assesses the major challenges to manufacturing nanoscale memristor devices at an industrial scale
Author: Niraj K. Jha Publisher: Springer Science & Business Media ISBN: 1441976094 Category : Technology & Engineering Languages : en Pages : 489
Book Description
This book is about large-scale electronic circuits design driven by nanotechnology, where nanotechnology is broadly defined as building circuits using nanoscale devices that are either implemented with nanomaterials (e.g., nanotubes or nanowires) or following an unconventional method (e.g., FinFET or III/V compound-based devices). These nanoscale devices have significant potential to revolutionize the fabrication and integration of electronic systems and scale beyond the perceived scaling limitations of traditional CMOS. While innovations in nanotechnology originate at the individual device level, realizing the true impact of electronic systems demands that these device-level capabilities be translated into system-level benefits. This is the first book to focus on nanoscale circuits and their design issues, bridging the existing gap between nanodevice research and nanosystem design.
Author: Ioannis Vourkas Publisher: Springer ISBN: 3319226479 Category : Technology & Engineering Languages : en Pages : 263
Book Description
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.
Author: Christopher G. Yakopcic Publisher: ISBN: Category : Electric circuits, Nonlinear Languages : en Pages : 65
Book Description
Significant interest has been placed on developing systems based on memristors since the initial fabrication by HP Labs in 2008 [1]. The memristor is a nanoscale device with dynamic resistance that is able to retain the last programmed resistance value after power is removed from the device. This property shows that the memristor can be used as a non-volatile memory component, and has potential to enhance many types of systems, such as high density memory, and neuromorphic computing architectures. This thesis presents the fabrication and characterization results obtained based memristor devices developed at the University of Dayton. In addition, a comparison between the existing memristor device models was completed to show how the memristor can be used in a multistate operation. Lastly, circuit designs were completed that demonstrate the writing and reading of information to and from memristor devices. These represent the initial steps required in developing electronic systems based on memristors. A large portion of the work completed in this thesis has been published in [2-4].
Author: Christopher G. Yakopcic Publisher: ISBN: Category : Electric circuits Languages : en Pages : 161
Book Description
Significant interest has been placed on developing systems based on the memristor, which was physically recognized in 2008. The memristor is a nanoscale non-volatile device with a large varying resistance range. Voltage pulses can be applied to the memristor to change its resistance, and the last programed resistance remains until another voltage pulse is applied. The unique properties present in this device give it the potential to further the advancement of many electronic systems, such as read out integrated circuits (ROICs) for digital cameras, high-speed on-chip memory circuits, and neuromorphic circuits capable of parallel analog computation. This work first describes the different memristor modeling techniques that have been proposed, followed by a new memristor model that this capable of reproducing the I-V curves and switching characteristics of many physical memristor characterizations very accurately. Circuits are then designed using this model for the three applications previously mentioned (ROICs, memory arrays, and neuromorphic computation). It is demonstrated that a memristor based ROIC circuit can significantly reduce the area of a unit cell given that a very small memristor element is used to replace a large integrating capacitor. It is also shown that the memristor can be used to reduce the total area of on-chip microprocessor memory. Given the nonvolatile property of memristors, they can also be used to store information without consuming power to hold their memory state. Lastly, memristors can be used to implement neuromorphic circuits where parallel computations are performed in the analog domain. Just as chemical pulses alter synaptic weights in brain tissue, voltage pulses can be applied to memristors to alter their conductivity. This work is completed in SPICE, which handles many low level circuit details using a very detailed memristor model. Novel circuit designs for three different applications are not only presented in this work, they are also simulated with a level of accuracy not accounted for in the current literature.
Author: Alex James Publisher: BoD – Books on Demand ISBN: 1789840732 Category : Technology & Engineering Languages : en Pages : 133
Book Description
This Edited Volume Memristors - Circuits and Applications of Memristor Devices is a collection of reviewed and relevant research chapters, offering a comprehensive overview of recent developments in the field of Engineering. The book comprises single chapters authored by various researchers and edited by an expert active in the physical sciences, engineering, and technology research areas. All chapters are complete in itself but united under a common research study topic. This publication aims at providing a thorough overview of the latest research efforts by international authors on physical sciences, engineering, and technology,and open new possible research paths for further novel developments.
Author: Pinaki Mazumder Publisher: CRC Press ISBN: 1000795799 Category : Technology & Engineering Languages : en Pages : 407
Book Description
Nanoscale devices attracted significant research effort from the industry and academia due to their operation principals being based on different physical properties which provide advantages in the design of certain classes of circuits over conventional CMOS transistors. Neuromorphic Circuits for Nanoscale Devices contains recent research papers presented in various international conferences and journals to provide insight into how the operational principles of the nanoscale devices can be utilized for the design of neuromorphic circuits for various applications of non-volatile memory, neural network training/learning, and image processing. The topics discussed in the book include:Nanoscale Crossbar Memory DesignQ-Learning and Value Iteration using Nanoscale DevicesImage Processing and Computer Vision Applications for Nanoscale DevicesNanoscale Devices based Cellular Nonlinear/Neural Networks
Author: Brajesh Kumar Kaushik Publisher: CRC Press ISBN: 1351670220 Category : Science Languages : en Pages : 432
Book Description
The primary aim of this book is to discuss various aspects of nanoscale device design and their applications including transport mechanism, modeling, and circuit applications. . Provides a platform for modeling and analysis of state-of-the-art devices in nanoscale regime, reviews issues related to optimizing the sub-nanometer device performance and addresses simulation aspect and/or fabrication process of devices Also, includes design problems at the end of each chapter
Author: Ronald Tetzlaff Publisher: Springer Science & Business Media ISBN: 1461490685 Category : Technology & Engineering Languages : en Pages : 409
Book Description
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.
Author: Balwinder Raj
Author: Balwinder Raj
Author: Niraj K. Jha
Author: Ioannis Vourkas
Author: Christopher G. Yakopcic
Author: Christopher G. Yakopcic
Author: Alex James
Author: Pinaki Mazumder
Author: Brajesh Kumar Kaushik
Author: Ronald Tetzlaff
Author: Huanglong Li