| Description |
1 online resource (315 pages) |
| Series |
Nano- and Microscience, Engineering, Technology and Medicine Ser |
|
Nano- and Microscience, Engineering, Technology and Medicine Ser
|
| Contents |
Cover; Half Title; Title Page; Copyright Page; Table of Contents; Preface; Acknowledgments; Author; 1 Electronics and Emerging Paradigms; 1.1 Introduction; 1.2 Historical Overview: From Atoms to Theory of Microscopic Systems and Fabrication; 1.3 Devices, Circuits, and Processing Platforms; 1.4 Electronics and Processing Platforms: Retrospect and Prospect; 1.5 Molecular Processing Platforms: Evidence of Feasibility, Soundness, and Practicality Substantiation; 1.6 Microelectronics and Emerging Paradigms: Challenges, Implications, and Solutions; References |
|
2 Molecular Electronics: Device-Level and System-Level Considerations2.1 Performance Estimates; 2.1.1 Entropy and Its Application; 2.1.2 Distribution Statistics; 2.1.3 Energy Levels; 2.1.4 Device Transition Speed; 2.1.5 Photon Absorption and Transition Energetics; 2.1.6 System-Level Performance Estimates; 2.2 Topologies, Organizations, and Architectures; 2.3 Synthesis Taxonomy in Design of Molecular Integrated Circuits and Processing Platforms; References; 3 Biomolecular Processing and Molecular Electronics; 3.1 Neuroscience: Conventional Outlook and Brainstorming Rational |
|
3.2 Processing in Neurons3.2.1 Introduction and Discussions; 3.2.2 Processing and Networking in Neurons: Proposed Outlook; 3.3 Biomolecules and Ions Transport: Communication Energetics and Energy Estimates; 3.3.1 Active and Passive Transport: Brownian Dynamics; 3.3.2 Ionic Transport; 3.4 Applied Information Theory and Information Estimates; 3.5 Biomimetics and Bioprototyping; 3.6 Fluidic Molecular Platforms; 3.7 Neuromorphological Reconfigurable Molecular Processing Platforms and Cognitive Processing; 3.8 Reconfigurable 3D Networking-and-Processing and Reconfigurable Vector Neural Networks |
|
3.9 Biomolecules and Bioinformatics3.9.1 DNA and Proteins: Introduction; 3.9.2 Overview of Bioinformatics Methods; 3.9.3 Genome Analysis in the Frequency Domain; 3.9.4 DNA- and Protein-Centered Electronics: Feasibility Assessment; References; 4 Design of Molecular Integrated Circuits; 4.1 Molecular Electronics and Gates: Device and Circuits Prospective; 4.2 Decision Diagrams and Logic Design of Molecular Integrated Circuits; 4.3 Hypercube Design; 4.4 Molecular Signal/Data Processing and Memory Platforms; 4.5 Finite-State Machines and Their Use in Hardware and Software Design |
|
4.6 Adaptive Defect-Tolerant Molecular Processing Platforms4.6.1 Programmable Gate Arrays; 4.6.2 Reconfigurable Molecular Integrated Circuits and Design Rules; 4.6.3 Design of Reconfigurable Molecular Processing Platforms; 4.7 Hardware-Software Design; References; 5 Synthesis of Molecular Electronic Devices: Towards Molecular Integrated Circuits; 5.1 Synthesis of Molecular Electronic Devices; 5.2 Testing and Characterization of Proof-of-Concept Molecular Electronic Devices; 5.3 Molecular Integrated Circuits and Design Rules; References; 6 Modeling and Analysis of Molecular Electronic Devices |
| Summary |
When microelectronic devices replaced vacuum tubes, it marked a revolution in electronics that opened the way to the computer age. We are on the verge of witnessing another equally profound shift. As molecular devices replace semiconductors, we will achieve new levels of performance, functionality and capability that will hugely impact electronics, as well as signal processing and computing. Molecular Electronics, Circuits, and Processing Platforms guides you confidently into this emerging field. Helping you to forge into the molecular frontier, this book examines the various concepts, methods and technologies used to approach and solve a wide variety of problems. The author works from new devices to systems and platforms. He also covers device-level physics, system-level design, analysis, and advanced fabrication technologies. Explore the latest and emerging molecular, biomolecular, and nanoscale processing platforms for building the next generation of circuits, memories and computations. By examining both solved and open issues, this book thoroughly develops the basic theory and shows you how to apply this knowledge toward new developments and practical hardware implementation. Don't fall behind. Let Molecular Electronics, Circuits, and Processing Platforms take you to the next level of electronics design and applications |
| Notes |
6.1 Atomic Structures and Quantum Mechanics |
|
Print version record |
| Subject |
Molecular electronics.
|
|
Nanoelectronics.
|
|
Molecular integrated circuits.
|
|
Electrical engineering.
|
|
electrical engineering.
|
|
TECHNOLOGY & ENGINEERING -- Electronics -- General.
|
|
TECHNOLOGY & ENGINEERING -- Electronics -- Circuits -- General.
|
|
Electrical engineering
|
|
Molecular electronics
|
|
Molecular integrated circuits
|
|
Nanoelectronics
|
| Form |
Electronic book
|
| ISBN |
9781351835206 |
|
9780429019104 |
|
0429019106 |
|
1351835203 |
|
