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Available
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Indeholder "Klara von Neumann: Preface", "Introduction", "Part 1. The Computer", " The Analog Procedure", " The Conventional Basic Operations", " Unusual Basic Operations", " The Digital Procedure", " Markers, Their Combinations and Embodiments", " Digital Machine Types and Their Basic Components",
Bogen starter med lidt indledning og lidt forklaring om analoge computere. En differentialanalysator har fx (x+y)/2 og (x-y)/2 som naturlige operatorer i stedet for x+y og x-y. Jeg tror det var en skam at von Neumann ikke nåede at tænke over kvantecomputere.
Han gennemgår kort addition, subtraktion, multiplikation og division som nødvendige for den digitale computer og at det er nemmere i binært, men også sagtens kan gøre decimalt. Præcision i digitale udregninger er meget billig at lave sammenlignet med analog præcision. Nydelig gennemgang af hvordan en digital computer kan opbygges og hvordan registre og memory og eksternt lager kan håndteres.
Derefter kigger han på hjernens opbygning. Han forsøger at bestemme antallet af komponenter, størrelse, energiforbrug, reaktionstid og funktioner. Konklusionen er selvfølgelig at hjernen er meget anderledes end en computer.
Paul Erdős, Paul Halmos, Theodore von Kármán, John G. Kemeny, John von Neumann, George Pólya, Leó Szilárd, Edward Teller og Eugene Wigner blev for sjov kaldt marsmændene, fordi de kom fra et obskurt land (Ungarn) og talte indbyrdes i et uforståeligt sprog og var superintelligente. John von Neumann (28 december 1903 - 8 februar 1957) blev ramt af knoglekræft kort efter at han i starten af 1955 var blevet bedt om at holde en forelæsningsrække "Silliman Lectures" på Yale i forårssemesteret 1956 og selv om han prioriterede artiklerne her meget højt, nåede han ikke i mål.
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" Parallel and Serial Schemes", " The Conventional Basic Operations", " Logical Control", " Plugged Control", " Logical Tape Control", " The Principle of Only One Organ. for Each Basic Operation", " The Consequent Need/or a Special Memory Organ", " Control by "Control Sequence" Points", " Memory-Stored Control", " Modus Operandi of the Memory-Stored Control", " Mixed Forms of Control", " Mixed Numerical Procedures", " Mixed Representations of Numbers. Machines Built on This Basis Precision", " Reasons for the High (Digital) Precision Requirements", " Characteristics of Modern Analog Machines", " Characteristics of Modern Digital Machines", " Active Components; Questions of Speed", " Number of Active Components Required", " Memory Organs. Access Times and Memory Capacities", " Memory Registers Built from Active Organs", " The Hierarchic Principle for Memory Organs", " Memory Components; Questions of Access", " Complexities of the Concept of Access Time", " The Principle of Direct Addressing", "Part 2. The Brain", " Simplified Description of the Function of the Neuron", " The Nature of the Nerve Impulse", " The Process of Stimulation", " The Mechanism of Stimulating Pulses by Pulses; Its Digital Character", " Time Characteristics of Nerve Response, Fatigue, and Recovery", " Size of a Neuron. Comparisons with Artificial Components", " Energy Dissipation. Comparisons with Artificial Components", " Summary of Comparisons", " Stimulation Criteria", " The Simplest~Elementary Logical", " More Complicated Stimulation Criteria", " The Threshold", " The Summation Time", " Stimulation Criteria for Receptors", " The Problem of Memory within the Nervous System", " Principles for Estimating the Capacity of the Memory in the Nervous System", " Memory Capacity Estimates with These Stipulations", " Various Possible Physical Embodiments of the Memory", " Analogies with Artificial Computing Machines", " The Underlying Componentry of the Memory Need Not Be the Same as That of the Basic Active Organs", " Digital and Analog Parts in the Nervous System", " Role of the Genetic Mechanism in the Above Context", " Codes and Their Bole in the Control of the Functioning of a Machine", " The Concept of a Complete Code", " The Concept of a Short Code", " The Function of a Short Code", " The Logical Structure of the Nervous System", " Importance of the Numerical Procedures", " Interaction of Numerical Procedures with Logic", " Reasons for Expecting High Precision Requirements", " Nature of the System of Notations Employed: Not Digital but Statistical", " Arithmetical Deterioration, Roles of Arithmetical and Logical Depths", " Arithmetical Precision or Logical Reliability, Alternatives", " Other Statistical Traits of the Message System That Could Be Used", " The Language of the Brain Not the Language of Mathematics".Bogen starter med lidt indledning og lidt forklaring om analoge computere. En differentialanalysator har fx (x+y)/2 og (x-y)/2 som naturlige operatorer i stedet for x+y og x-y. Jeg tror det var en skam at von Neumann ikke nåede at tænke over kvantecomputere.
Han gennemgår kort addition, subtraktion, multiplikation og division som nødvendige for den digitale computer og at det er nemmere i binært, men også sagtens kan gøre decimalt. Præcision i digitale udregninger er meget billig at lave sammenlignet med analog præcision. Nydelig gennemgang af hvordan en digital computer kan opbygges og hvordan registre og memory og eksternt lager kan håndteres.
Derefter kigger han på hjernens opbygning. Han forsøger at bestemme antallet af komponenter, størrelse, energiforbrug, reaktionstid og funktioner. Konklusionen er selvfølgelig at hjernen er meget anderledes end en computer.
Paul Erdős, Paul Halmos, Theodore von Kármán, John G. Kemeny, John von Neumann, George Pólya, Leó Szilárd, Edward Teller og Eugene Wigner blev for sjov kaldt marsmændene, fordi de kom fra et obskurt land (Ungarn) og talte indbyrdes i et uforståeligt sprog og var superintelligente. John von Neumann (28 december 1903 - 8 februar 1957) blev ramt af knoglekræft kort efter at han i starten af 1955 var blevet bedt om at holde en forelæsningsrække "Silliman Lectures" på Yale i forårssemesteret 1956 og selv om han prioriterede artiklerne her meget højt, nåede han ikke i mål.
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Genres
Publication
Yale University Press; New Haven and London, 1964, fifth printing.
Description
In this classic work, one of the greatest mathematicians of the twentieth century explores the analogies between computing machines and the living human brain. John von Neumann, whose many contributions to science, mathematics, and engineering include the basic organizational framework at the heart of today's computers, concludes that the brain operates both digitally and analogically, but also has its own peculiar statistical language.In his foreword to this new edition, Ray Kurzweil, a futurist famous in part for his own reflections on the relationship between technology and intelligence, places von Neumann's work in a historical context and shows how it remains relevant today.
User reviews
LibraryThing member bumpish
This is an amazing set of thoughts around computing and the human brain. It's not easy reading, but it's worth the payoff in the end. It definitely helped me refine/further develop my own opinions on the subject. If you are a computer programmer, this is essential reading.
LibraryThing member fernig
Brilliant insights that have informed all thinking on the subject for the past 50 years. Main argument: despite some obvious similarities in architecture (digital signals, memory) the human brain must work on a different computational model.
LibraryThing member HadriantheBlind
Impressive little book which along with Turing's work, et al., founded the field of computer science as we know it. Of most interest if you are interested in the history and foundations of modern computer science, otherwise the concepts here will be so familiar that you will know many of them
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already. Show Less
LibraryThing member encephalical
Von Neumann's unfinished last work comparing digital computers with the human brain. Works through his estimations and comparisons of various capabilities, e.g., that the human brain has about 3.5 PB of storage. Concludes that the architecture of the brain and central nervous system is so different
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from that of the digital computer that it implies a completely different (programming) language of mathematics and logic is used. Show Less
Subjects
Awards
SB&F's Best Books (2014)
Language
Original language
English
Original publication date
1958
Physical description
82 p.; 20.1 cm
Local notes
Omslag: Ikke angivet
Omslaget viser et stiliseret hoved med en stiliseret hjerne og nogle impulser
Indskannet omslag - N650U - 150 dpi
Yale Y 84
Omslaget viser et stiliseret hoved med en stiliseret hjerne og nogle impulser
Indskannet omslag - N650U - 150 dpi
Yale Y 84
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Pages
82
DDC/MDS
| 001.64 |