Field-Coupled Nanocomputing Paradigms, Progress, and Perspectives /
Field-coupled nanocomputing (FCN) paradigms offer fundamentally new approaches to digital information processing that do not utilize transistors or require charge transport. Information transfer and computation are achieved in FCN via local field interactions between nanoscale building blocks that a...
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Other Authors: | , |
Language: | English |
Published: |
Berlin, Heidelberg :
Springer Berlin Heidelberg : Imprint: Springer,
2014.
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Edition: | 1st ed. 2014. |
Series: | Theoretical Computer Science and General Issues ;
8280 |
Subjects: | |
Online Access: | https://doi.org/10.1007/978-3-662-43722-3 |
Table of Contents:
- Field-Coupled Nanocomputing Paradigms
- The Development of Quantum-Dot Cellular Automata
- Nanomagnet Logic (NML
- Silicon Atomic Quantum Dots Enable Beyond-CMOS Electronics
- Circuits and Architectures
- A Clocking Strategy for Scalable and Fault-Tolerant QDCA Signal Distribution in Combinational and Sequential Devices
- Electric Clock for NanoMagnet Logic Circuits
- Majority Logic Synthesis Based on Nauty Algorithm
- Reversible Logic Based Design and Test of Field Coupled Nanocomputing Circuits
- STT-Based Non-Volatile Logic-in-Memory Framework
- Security Issues in QCA Circuit Design - Power Analysis Attacks
- NanoMagnet Logic: An Architectural Level Overview
- Modeling and Simulation
- Modelling Techniques for Simulating Large QCA Circuits
- ToPoliNano: NanoMagnet Logic Circuits Design and Simulation
- Understanding a Bisferrocene Molecular QCA Wire
- Irreversibility and Dissipation
- Reversible and Adiabatic Computing: Energy-Efficiency Maximized
- Modular Dissipation Analysis for QCA
- The Road Ahead: Opportunities and Challenges
- Opportunities, Challenges and the Road Ahead for Field-Coupled Nanocomputing: A Panel Discussion.