The Computing Universe: A Journey through a RevolutionCambridge University Press, 8 dec 2014 Computers now impact almost every aspect of our lives, from our social interactions to the safety and performance of our cars. How did this happen in such a short time? And this is just the beginning. In this book, Tony Hey and Gyuri Pápay lead us on a journey from the early days of computers in the 1930s to the cutting-edge research of the present day that will shape computing in the coming decades. Along the way, they explain the ideas behind hardware, software, algorithms, Moore's Law, the birth of the personal computer, the Internet and the Web, the Turing Test, Jeopardy's Watson, World of Warcraft, spyware, Google, Facebook and quantum computing. This book also introduces the fascinating cast of dreamers and inventors who brought these great technological developments into every corner of the modern world. This exciting and accessible introduction will open up the universe of computing to anyone who has ever wondered where his or her smartphone came from. |
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Resultaten 1-5 van 32
Pagina xi
... transistor and the integrated circuit or silicon chip and the origins of Moore's law, as well the quantum mechanics of semiconductors. Chapter 15 looks at the coming end of Moore's law and some future alternatives to silicon as the ...
... transistor and the integrated circuit or silicon chip and the origins of Moore's law, as well the quantum mechanics of semiconductors. Chapter 15 looks at the coming end of Moore's law and some future alternatives to silicon as the ...
Pagina 6
... transistors, or (nowadays) modern silicon chips. All these different technologies could deliver the same computational capabilities, albeit with different performance. In this way, the problem of how the logical components are put ...
... transistors, or (nowadays) modern silicon chips. All these different technologies could deliver the same computational capabilities, albeit with different performance. In this way, the problem of how the logical components are put ...
Pagina 23
... transistors – from the software – the instructions that are executed by the hardware. Because of this key abstraction, we can either go down into the hardware layers and see how the basic arithmetic and logical operations are carried ...
... transistors – from the software – the instructions that are executed by the hardware. Because of this key abstraction, we can either go down into the hardware layers and see how the basic arithmetic and logical operations are carried ...
Pagina 28
... transistors. Of course, different types of gates may be easier or harder to make in any given technology. The set of AND, OR, and NOT gates are sufficient to Fig. 2.8. Truth table for AND Gate. Fig. 2.9. Truth. 28 The Computing Universe.
... transistors. Of course, different types of gates may be easier or harder to make in any given technology. The set of AND, OR, and NOT gates are sufficient to Fig. 2.8. Truth table for AND Gate. Fig. 2.9. Truth. 28 The Computing Universe.
Pagina 30
... transistors and now to integrated circuits in silicon. The important point is that the logical design of an adder is independent of its implementation. In his delightful book The Pattern in the Stone, the computer architect Danny Hillis ...
... transistors and now to integrated circuits in silicon. The important point is that the logical design of an adder is independent of its implementation. In his delightful book The Pattern in the Stone, the computer architect Danny Hillis ...
Inhoudsopgave
The hardware | 34 |
Computer games | 174 |
The end of Moores law | 298 |
The third age of computing | 318 |
Computers and science fiction an essay | 333 |
xiii | 367 |
39 | 375 |
58 | 389 |
220 | 395 |
Overige edities - Alles bekijken
The Computing Universe: A Journey through a Revolution Anthony J. G. Hey,Tony Hey,Gyuri Pápay Gedeeltelijke weergave - 2014 |
The Computing Universe: A Journey through a Revolution Tony Hey,Gyuri Pápay Geen voorbeeld beschikbaar - 2014 |
Veelvoorkomende woorden en zinsdelen
Alan Turing algorithm ARPANET Asimov atoms Babbage Berners-Lee binary brain build Butler Lampson calculations called Chapter chips circuit complex computer science computer scientists connected Corporation Fig created David David Harel developed devices early EDSAC electrical electron encryption engineering ENIAC Feynman fiber FORTRAN function gate hardware human Ibid IBM’s idea input instructions Intel interactive Internet introduced John Laboratory Labs layers logic mathematical memory microprocessor Microsoft million Moore’s law movie nanotechnology Neumann neurons novel operating system output packet PARC personal computer physics pioneers possible Press problem programming language puter quantum computer qubits quotation Richard Feynman Robert robot science fiction semiconductor silicon spam spin story tion transistors Turing Award Turing machine Turing Test Turing’s United University Unix video game Wikimedia Xerox Xerox PARC