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Unconventional Computing

A Volume in the Encyclopedia of Complexity and Systems Science, Second Edition

  • Reference work
  • © 2018

Overview

Editors:
  1. Andrew Adamatzky

    1. Unconventional Computing Centre, University of the West of England, Bristol, United Kingdom

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  • Gathers unique contributions prepared by world leading experts in computer science, hardware, physics, chemistry, biology, nanotechnology, and engineering
  • Extensively illustrated with many graphical examples
  • Appeals to a broad audience of scientists, engineers, industry managers, and university students

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Table of contents (33 entries)

  1. Front Matter

    Pages i-xxvii
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  2. Practical, Experimental Laboratory Computing

    1. Front Matter

      Pages 1-1
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    2. Analog Computation

      • Bruce J. MacLennan
      Pages 3-33

    3. Mechanical Computing: The Computational Complexity of Physical Devices

      • John H. Reif
      Pages 35-55

    4. Optical Computing

      • Thomas J. Naughton, Damien Woods
      Pages 57-81

    5. Principles of Neuromorphic Photonics

      • Bhavin J. Shastri, Alexander N. Tait, Thomas Ferreira de Lima, Mitchell A. Nahmias, Hsuan-Tung Peng, Paul R. Prucnal
      Pages 83-118

    6. Quantum Computing

      • Viv Kendon
      Pages 119-146

    7. Computing with Solitons

      • Darren Rand, Ken Steiglitz
      Pages 147-170

    8. Reaction-Diffusion Computing

      • Andrew Adamatzky, Benjamin De Lacy Costello
      Pages 171-194

    9. Computing in Geometrical Constrained Excitable Chemical Systems

      • Jerzy Gorecki, Joanna Natalia Gorecka
      Pages 195-223

    10. Novel Hardware for Unconventional Computing

      • Tetsuya Asai
      Pages 225-249

    11. Thermodynamics of Computation

      • H. John Caulfield, Lei Qian
      Pages 251-264

    12. Enzyme-Based Logic Systems: Composition, Operation, Interfacing, and Applications

      • Evgeny Katz
      Pages 265-305

    13. DNA Computing

      • Martyn Amos
      Pages 307-325

    14. Molecular Automata

      • Joanne Macdonald, Darko Stefanovic, Milan Stojanovic
      Pages 327-353

    15. Nanocomputers

      • Ferdinand Peper
      Pages 355-392

    16. Cellular Computing

      • Christof Teuscher
      Pages 393-410

    17. Neuromorphic Computing Based on Organic Memristive Systems

      • Victor Erokhin
      Pages 411-429

    18. Slime Mold Computing

      • Andrew Adamatzky
      Pages 431-446

    19. Evolution in Materio

      • Simon Harding, Julian F. Miller
      Pages 447-462
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Keywords

About this book

This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, is a unique collection of concise overviews of state-of-art, theoretical and experimental findings, prepared by the world leaders in unconventional computing. Topics covered include bacterial computing, artificial chemistry, amorphous computing, computing with Solitons, evolution in materio, immune computing, mechanical computing, molecular automata, membrane computing, bio-inspired metaheuristics, reversible computing, sound and music computing, enzyme-based computing, structural machines, reservoir computing, infinity computing, biomolecular data structures, slime mold computing, nanocomputers, analog computers, DNA computing, novel hardware, thermodynamics of computation, and quantum and optical computing. Topics added to the second edition include: social algorithms, unconventional computational problems, enzyme-based computing, inductive Turing machines, reservoir computing, Grossone Infinity computing, slime mould computing, biomolecular data structures, parallelization of bio-inspired unconventional computing, and photonic computing.

Unconventional computing is a cross-breed of computer science, physics, mathematics, chemistry, electronic engineering, biology, materials science and nanotechnology. The aims are to uncover and exploit principles and mechanisms of information processing in, and functional properties of, physical, chemical and living systems, with the goal to develop efficient algorithms, design optimal architectures and manufacture working prototypes of future and emergent computing devices.

Editors and Affiliations

  • Unconventional Computing Centre, University of the West of England, Bristol, United Kingdom

    Andrew Adamatzky

About the editor

Andrew Adamatzky is a Professor in the department of Computer Science and Creative Technologies and Director of the Unconventional Computing Centre, University of the West of England. He has published extensively in theory of computation, cellular automata and mathematical machines, parallel computing, living technologies, organic electronics, and bio-inspired computing. He has authored several books, including Identification of Cellular AutomataComputing in Nonlinear MediaReaction Diffusion ComputersDynamics of Crowded MindsPhysarum Machines and edited over 25 collections of chapters. He is founding editor-in-chief of the Journal of Cellular Automata and Journal of Unconventional Computing and editor-in-chief of the International Journal of Parallel, Emergent and Distributed Systems, and Parallel Processing Letters.

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