Verfügbarkeit: Physical perspectives on computation, computational perspectives on physics /

Physical perspectives on computation, computational perspectives on physics /:

Offers an accessible yet cutting-edge tour of the many conceptual interconnections between physics and computer science.

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Cuffaro, Michael E., 1973- (HerausgeberIn), Fletcher, Samuel C. (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cambridge, United Kingdom : Cambridge University Press, [2018]
Schlagworte:	Mathematical physics. Computational complexity. Physics > Data processing. Computer science > Mathematics. Physique mathématique. Complexité de calcul (Informatique) Physique > Informatique. Informatique > Mathématiques. SCIENCE > Energy. SCIENCE > Mechanics > General. SCIENCE > Physics > General. Computational complexity Computer science > Mathematics Mathematical physics Physics > Data processing Electronic book.
Online-Zugang:	Volltext
Zusammenfassung:	Offers an accessible yet cutting-edge tour of the many conceptual interconnections between physics and computer science.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781316767399 1316767396 9781316759745 1316759741 1107171199 9781107171190 1316622029 9781316622025

Internformat

MARC


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505	0		\|a Cover; Half title; Title page; Copyright information; Table of Contents; List of Figures; List of Tables; Contributors; Preface; Introduction; 1 Computability Theory and the Church-Turing Thesis; 2 Computational Complexity Theory; 3 Quantum Computing; 4 Computational Implementation and the Physical Church-Turing Theses; 5 Landauer's Principle and the Thermodynamics of Computation; 6 Chapter Summaries; Part I The Computability of Physical Systems and Physical Systems as Computers; 1 Ontic Pancomputationalism; 1.1 Introduction; 1.2 Forms of Ontic PC and their Empirical Claims
505	8		\|a 1.2.1 Digital Ontic PC1.2.2 Quantum Ontic PC; 1.3 The Metaphysical Component of Ontic PC; 1.3.1 Weak Simulationism; 1.3.2 Strong Simulationism; 1.3.3 Computational Pythagoreanism; 1.4 Conclusion; Acknowledgments; 2 Zuse's Thesis, Gandy's Thesis, and Penrose's Thesis; 2.1 Introduction; 2.2 Zuse's Thesis: The Universe is a Computer; 2.3 Gandy's Thesis: Turing Computability is an Upper Bound on the Computations Performed by Discrete Deterministic Mechanical Assemblies; 2.4 Is the Physical World Computable?; 2.5 Penrose's Thesis: Uncomputability and the Brain; 2.6 Summary; Acknowledgments
505	8		\|a 3 Church's Thesis, Turing's Limits, and Deutsch's Principle3.1 Hilbert's Mathematical Forms; 3.2 From a Logical Point of View; 3.3 Struggling to Make Sense of Church's Thesis; 3.3.1 Human Limits and Natural Law; 3.3.2 Computability and Unsolvability; 3.3.3 Stretching Human Limits; 3.4 From a Physical Point of View; 3.5 The Universal Computer; 3.5.1 Quantum Computability; 3.5.2 Computability and Predictability; 3.5.3 Mathematical Forms and Physical Meaning; 3.5.4 The Computability of Nature and the Nature of Computability; Acknowledgments
505	8		\|a Part II The Implementation of Computation in Physical Systems4 How to Make Orthogonal Positions Parallel: Revisiting the Quantum Parallelism Thesis; 4.1 Introduction; 4.2 The Mechanistic Account; 4.3 The QPT; 4.4 Common Ground; 4.5 MBQCs; 4.6 MBQCs and the QPT; 4.7 Are the QPT and the OF-QPT Explanatory?; 4.8 Conclusions; Acknowledgments; 5 How is There a Physics of Information? On Characterizing Physical Evolution as Information Processing; 5.1 Introduction; 5.2 Why is There a Physics of Information?; 5.2.1 The Challenge of Landauer's Principle; 5.2.2 The Challenge of Quantum Computing
505	8		\|a 5.2.3 The Challenge of Quantum Information5.2.4 The Challenge of Exotic Models of Computation; 5.2.5 The Challenge of Different Physics; 5.2.6 What is the Basis of Resource-Cost Claims?; 5.3 The Ambiguity of Representation; 5.4 Quin-Criteria; 5.4.1 Quantum Computing and DiVincenzo; 5.4.2 Landauer's Principle and Maroney; 5.4.3 Unconventional Computation and Horsman et al.; 5.4.4 The Final Five Criteria; 5.5 Information and the Physically Embodied Agent; 5.5.1 Boltzmann's Laptop Falls into a Black Hole; 5.6 What Makes a Someone?; 5.6.1 Epistemic Communities of Agents; 5.7 Conclusion
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contents	Cover; Half title; Title page; Copyright information; Table of Contents; List of Figures; List of Tables; Contributors; Preface; Introduction; 1 Computability Theory and the Church-Turing Thesis; 2 Computational Complexity Theory; 3 Quantum Computing; 4 Computational Implementation and the Physical Church-Turing Theses; 5 Landauer's Principle and the Thermodynamics of Computation; 6 Chapter Summaries; Part I The Computability of Physical Systems and Physical Systems as Computers; 1 Ontic Pancomputationalism; 1.1 Introduction; 1.2 Forms of Ontic PC and their Empirical Claims 1.2.1 Digital Ontic PC1.2.2 Quantum Ontic PC; 1.3 The Metaphysical Component of Ontic PC; 1.3.1 Weak Simulationism; 1.3.2 Strong Simulationism; 1.3.3 Computational Pythagoreanism; 1.4 Conclusion; Acknowledgments; 2 Zuse's Thesis, Gandy's Thesis, and Penrose's Thesis; 2.1 Introduction; 2.2 Zuse's Thesis: The Universe is a Computer; 2.3 Gandy's Thesis: Turing Computability is an Upper Bound on the Computations Performed by Discrete Deterministic Mechanical Assemblies; 2.4 Is the Physical World Computable?; 2.5 Penrose's Thesis: Uncomputability and the Brain; 2.6 Summary; Acknowledgments 3 Church's Thesis, Turing's Limits, and Deutsch's Principle3.1 Hilbert's Mathematical Forms; 3.2 From a Logical Point of View; 3.3 Struggling to Make Sense of Church's Thesis; 3.3.1 Human Limits and Natural Law; 3.3.2 Computability and Unsolvability; 3.3.3 Stretching Human Limits; 3.4 From a Physical Point of View; 3.5 The Universal Computer; 3.5.1 Quantum Computability; 3.5.2 Computability and Predictability; 3.5.3 Mathematical Forms and Physical Meaning; 3.5.4 The Computability of Nature and the Nature of Computability; Acknowledgments Part II The Implementation of Computation in Physical Systems4 How to Make Orthogonal Positions Parallel: Revisiting the Quantum Parallelism Thesis; 4.1 Introduction; 4.2 The Mechanistic Account; 4.3 The QPT; 4.4 Common Ground; 4.5 MBQCs; 4.6 MBQCs and the QPT; 4.7 Are the QPT and the OF-QPT Explanatory?; 4.8 Conclusions; Acknowledgments; 5 How is There a Physics of Information? On Characterizing Physical Evolution as Information Processing; 5.1 Introduction; 5.2 Why is There a Physics of Information?; 5.2.1 The Challenge of Landauer's Principle; 5.2.2 The Challenge of Quantum Computing 5.2.3 The Challenge of Quantum Information5.2.4 The Challenge of Exotic Models of Computation; 5.2.5 The Challenge of Different Physics; 5.2.6 What is the Basis of Resource-Cost Claims?; 5.3 The Ambiguity of Representation; 5.4 Quin-Criteria; 5.4.1 Quantum Computing and DiVincenzo; 5.4.2 Landauer's Principle and Maroney; 5.4.3 Unconventional Computation and Horsman et al.; 5.4.4 The Final Five Criteria; 5.5 Information and the Physically Embodied Agent; 5.5.1 Boltzmann's Laptop Falls into a Black Hole; 5.6 What Makes a Someone?; 5.6.1 Epistemic Communities of Agents; 5.7 Conclusion
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spelling	Physical perspectives on computation, computational perspectives on physics / edited by Michael E. Cuffaro and Samuel C. Fletcher. Cambridge, United Kingdom : Cambridge University Press, [2018] ©2018 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Vendor-supplied metadata. Cover; Half title; Title page; Copyright information; Table of Contents; List of Figures; List of Tables; Contributors; Preface; Introduction; 1 Computability Theory and the Church-Turing Thesis; 2 Computational Complexity Theory; 3 Quantum Computing; 4 Computational Implementation and the Physical Church-Turing Theses; 5 Landauer's Principle and the Thermodynamics of Computation; 6 Chapter Summaries; Part I The Computability of Physical Systems and Physical Systems as Computers; 1 Ontic Pancomputationalism; 1.1 Introduction; 1.2 Forms of Ontic PC and their Empirical Claims 1.2.1 Digital Ontic PC1.2.2 Quantum Ontic PC; 1.3 The Metaphysical Component of Ontic PC; 1.3.1 Weak Simulationism; 1.3.2 Strong Simulationism; 1.3.3 Computational Pythagoreanism; 1.4 Conclusion; Acknowledgments; 2 Zuse's Thesis, Gandy's Thesis, and Penrose's Thesis; 2.1 Introduction; 2.2 Zuse's Thesis: The Universe is a Computer; 2.3 Gandy's Thesis: Turing Computability is an Upper Bound on the Computations Performed by Discrete Deterministic Mechanical Assemblies; 2.4 Is the Physical World Computable?; 2.5 Penrose's Thesis: Uncomputability and the Brain; 2.6 Summary; Acknowledgments 3 Church's Thesis, Turing's Limits, and Deutsch's Principle3.1 Hilbert's Mathematical Forms; 3.2 From a Logical Point of View; 3.3 Struggling to Make Sense of Church's Thesis; 3.3.1 Human Limits and Natural Law; 3.3.2 Computability and Unsolvability; 3.3.3 Stretching Human Limits; 3.4 From a Physical Point of View; 3.5 The Universal Computer; 3.5.1 Quantum Computability; 3.5.2 Computability and Predictability; 3.5.3 Mathematical Forms and Physical Meaning; 3.5.4 The Computability of Nature and the Nature of Computability; Acknowledgments Part II The Implementation of Computation in Physical Systems4 How to Make Orthogonal Positions Parallel: Revisiting the Quantum Parallelism Thesis; 4.1 Introduction; 4.2 The Mechanistic Account; 4.3 The QPT; 4.4 Common Ground; 4.5 MBQCs; 4.6 MBQCs and the QPT; 4.7 Are the QPT and the OF-QPT Explanatory?; 4.8 Conclusions; Acknowledgments; 5 How is There a Physics of Information? On Characterizing Physical Evolution as Information Processing; 5.1 Introduction; 5.2 Why is There a Physics of Information?; 5.2.1 The Challenge of Landauer's Principle; 5.2.2 The Challenge of Quantum Computing 5.2.3 The Challenge of Quantum Information5.2.4 The Challenge of Exotic Models of Computation; 5.2.5 The Challenge of Different Physics; 5.2.6 What is the Basis of Resource-Cost Claims?; 5.3 The Ambiguity of Representation; 5.4 Quin-Criteria; 5.4.1 Quantum Computing and DiVincenzo; 5.4.2 Landauer's Principle and Maroney; 5.4.3 Unconventional Computation and Horsman et al.; 5.4.4 The Final Five Criteria; 5.5 Information and the Physically Embodied Agent; 5.5.1 Boltzmann's Laptop Falls into a Black Hole; 5.6 What Makes a Someone?; 5.6.1 Epistemic Communities of Agents; 5.7 Conclusion Offers an accessible yet cutting-edge tour of the many conceptual interconnections between physics and computer science. Mathematical physics. http://id.loc.gov/authorities/subjects/sh85082129 Computational complexity. http://id.loc.gov/authorities/subjects/sh85029473 Physics Data processing. Computer science Mathematics. http://id.loc.gov/authorities/subjects/sh85042295 Physique mathématique. Complexité de calcul (Informatique) Physique Informatique. Informatique Mathématiques. SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Computational complexity fast Computer science Mathematics fast Mathematical physics fast Physics Data processing fast Electronic book. Cuffaro, Michael E., 1973- editor. https://id.oclc.org/worldcat/entity/E39PCjvX9QdVRvjGKGwjDh6mHP http://id.loc.gov/authorities/names/no2018006482 Fletcher, Samuel C., editor. http://id.loc.gov/authorities/names/no2018006336 has work: Physical perspectives on computation, computational perspectives on physics (Text) https://id.oclc.org/worldcat/entity/E39PCFWbDj84v6VPbJCDPvRwJC https://id.oclc.org/worldcat/ontology/hasWork Print version: 9781107171190 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1737930 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1737930 Volltext
spellingShingle	Physical perspectives on computation, computational perspectives on physics / Cover; Half title; Title page; Copyright information; Table of Contents; List of Figures; List of Tables; Contributors; Preface; Introduction; 1 Computability Theory and the Church-Turing Thesis; 2 Computational Complexity Theory; 3 Quantum Computing; 4 Computational Implementation and the Physical Church-Turing Theses; 5 Landauer's Principle and the Thermodynamics of Computation; 6 Chapter Summaries; Part I The Computability of Physical Systems and Physical Systems as Computers; 1 Ontic Pancomputationalism; 1.1 Introduction; 1.2 Forms of Ontic PC and their Empirical Claims 1.2.1 Digital Ontic PC1.2.2 Quantum Ontic PC; 1.3 The Metaphysical Component of Ontic PC; 1.3.1 Weak Simulationism; 1.3.2 Strong Simulationism; 1.3.3 Computational Pythagoreanism; 1.4 Conclusion; Acknowledgments; 2 Zuse's Thesis, Gandy's Thesis, and Penrose's Thesis; 2.1 Introduction; 2.2 Zuse's Thesis: The Universe is a Computer; 2.3 Gandy's Thesis: Turing Computability is an Upper Bound on the Computations Performed by Discrete Deterministic Mechanical Assemblies; 2.4 Is the Physical World Computable?; 2.5 Penrose's Thesis: Uncomputability and the Brain; 2.6 Summary; Acknowledgments 3 Church's Thesis, Turing's Limits, and Deutsch's Principle3.1 Hilbert's Mathematical Forms; 3.2 From a Logical Point of View; 3.3 Struggling to Make Sense of Church's Thesis; 3.3.1 Human Limits and Natural Law; 3.3.2 Computability and Unsolvability; 3.3.3 Stretching Human Limits; 3.4 From a Physical Point of View; 3.5 The Universal Computer; 3.5.1 Quantum Computability; 3.5.2 Computability and Predictability; 3.5.3 Mathematical Forms and Physical Meaning; 3.5.4 The Computability of Nature and the Nature of Computability; Acknowledgments Part II The Implementation of Computation in Physical Systems4 How to Make Orthogonal Positions Parallel: Revisiting the Quantum Parallelism Thesis; 4.1 Introduction; 4.2 The Mechanistic Account; 4.3 The QPT; 4.4 Common Ground; 4.5 MBQCs; 4.6 MBQCs and the QPT; 4.7 Are the QPT and the OF-QPT Explanatory?; 4.8 Conclusions; Acknowledgments; 5 How is There a Physics of Information? On Characterizing Physical Evolution as Information Processing; 5.1 Introduction; 5.2 Why is There a Physics of Information?; 5.2.1 The Challenge of Landauer's Principle; 5.2.2 The Challenge of Quantum Computing 5.2.3 The Challenge of Quantum Information5.2.4 The Challenge of Exotic Models of Computation; 5.2.5 The Challenge of Different Physics; 5.2.6 What is the Basis of Resource-Cost Claims?; 5.3 The Ambiguity of Representation; 5.4 Quin-Criteria; 5.4.1 Quantum Computing and DiVincenzo; 5.4.2 Landauer's Principle and Maroney; 5.4.3 Unconventional Computation and Horsman et al.; 5.4.4 The Final Five Criteria; 5.5 Information and the Physically Embodied Agent; 5.5.1 Boltzmann's Laptop Falls into a Black Hole; 5.6 What Makes a Someone?; 5.6.1 Epistemic Communities of Agents; 5.7 Conclusion Mathematical physics. http://id.loc.gov/authorities/subjects/sh85082129 Computational complexity. http://id.loc.gov/authorities/subjects/sh85029473 Physics Data processing. Computer science Mathematics. http://id.loc.gov/authorities/subjects/sh85042295 Physique mathématique. Complexité de calcul (Informatique) Physique Informatique. Informatique Mathématiques. SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Computational complexity fast Computer science Mathematics fast Mathematical physics fast Physics Data processing fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85082129 http://id.loc.gov/authorities/subjects/sh85029473 http://id.loc.gov/authorities/subjects/sh85042295
title	Physical perspectives on computation, computational perspectives on physics /
title_auth	Physical perspectives on computation, computational perspectives on physics /
title_exact_search	Physical perspectives on computation, computational perspectives on physics /
title_full	Physical perspectives on computation, computational perspectives on physics / edited by Michael E. Cuffaro and Samuel C. Fletcher.
title_fullStr	Physical perspectives on computation, computational perspectives on physics / edited by Michael E. Cuffaro and Samuel C. Fletcher.
title_full_unstemmed	Physical perspectives on computation, computational perspectives on physics / edited by Michael E. Cuffaro and Samuel C. Fletcher.
title_short	Physical perspectives on computation, computational perspectives on physics /
title_sort	physical perspectives on computation computational perspectives on physics
topic	Mathematical physics. http://id.loc.gov/authorities/subjects/sh85082129 Computational complexity. http://id.loc.gov/authorities/subjects/sh85029473 Physics Data processing. Computer science Mathematics. http://id.loc.gov/authorities/subjects/sh85042295 Physique mathématique. Complexité de calcul (Informatique) Physique Informatique. Informatique Mathématiques. SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Computational complexity fast Computer science Mathematics fast Mathematical physics fast Physics Data processing fast
topic_facet	Mathematical physics. Computational complexity. Physics Data processing. Computer science Mathematics. Physique mathématique. Complexité de calcul (Informatique) Physique Informatique. Informatique Mathématiques. SCIENCE Energy. SCIENCE Mechanics General. SCIENCE Physics General. Computational complexity Computer science Mathematics Mathematical physics Physics Data processing Electronic book.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1737930
work_keys_str_mv	AT cuffaromichaele physicalperspectivesoncomputationcomputationalperspectivesonphysics AT fletchersamuelc physicalperspectivesoncomputationcomputationalperspectivesonphysics

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