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The Feynman processor : quantum entanglement and the computing revolution

著者: G J Milburn
出版: Reading, Mass. : Perseus Books, 1998.
シリーズ: Frontiers of science (Reading, Mass.); Helix book.
エディション/フォーマット:   book_printbook : Englishすべてのエディションとフォーマットを見る
データベース:WorldCat
概要:
"In The Feynman Processor, quantum physicist Gerard J. Milburn describes the astounding principles of the quantum world that are about to revolutionize the world of computers - including a concept created by the legendary American physicist Richard Feynman, which proves that the most important principle in a quantum computer is that of probability amplitude, a rule that has become known as "Feynman's Rule." It is  続きを読む
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その他のフォーマット: Online version:
Milburn, G.J. (Gerard J.).
Feynman processor.
Reading, Mass. : Perseus Books, 1998
(OCoLC)607129887
関連の人物: Richard P Feynman; Richard Phillips Feynman; Richard P Feynman
ドキュメントの種類: 図書
すべての著者/寄与者: G J Milburn
ISBN: 0738200166 9780738200163
OCLC No.: 40002991
注記: Includes index.
Originally published: St Leonards, N.S.W. : Allen & Unwin, 1998.
物理形態: xiv, 213 pages : illustrations ; 22 cm.
コンテンツ: 1. The quantum principle: inexhaustible uncertainty --
2. Quantum entanglement --
3. Teleportation for gamblers --
4. Reality, by Nintendo --
5. Quantum software --
6. The dream machine.
シリーズタイトル: Frontiers of science (Reading, Mass.); Helix book.
責任者: Gerard J. Milburn ; foreword by Paul Davies.
その他の情報:

概要:

"In The Feynman Processor, quantum physicist Gerard J. Milburn describes the astounding principles of the quantum world that are about to revolutionize the world of computers - including a concept created by the legendary American physicist Richard Feynman, which proves that the most important principle in a quantum computer is that of probability amplitude, a rule that has become known as "Feynman's Rule." It is Feynman's Rule that gives the quantum computer its nickname, the Feynman Processor, and that will endow computers with an enormous range of powerful new capabilities." "He shows why conventional computers can't go on getting faster and smaller forever and how the unpredictability of matter at this level has enabled scientists to rethink the way that we could design, build, and use the new "quantum computers." Finally, Milburn takes us into the near future, when physicists and computer scientists will build new and incredible devices that will deliver a world of lightning-fast computers, unbreakable codes, and even the beginnings of Star Trek-like matter teleportation."--Jacket.

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