A Shortcut Through Time: The Path to the Quantum ComputerThe first book to prepare us for the next bigperhaps the biggestbreakthrough in the short history of the cyberworld: the development of the quantum computer. The newest Pentium chip driving personal computers packs 40 million electronic switches onto a piece of silicon the size of a thumbnail. It is dramatically smaller and more powerful than anything that has come before it. If this incredible shrinking act continues, the logical culmination is a computer in which each switch is composed of a single atom. And at that point the miraculousthe actualization of quantum mechanicsbecomes real. If atoms can be harnessed, society will be transformed: problems that could take forever to be solved on the supercomputers available today would be dispatched with ease. Quantum computing promises nothing less astonishing than a shortcut through time. In this book, the awardwinning "New York Times "science writer George Johnson first takes us back to the original idea of a computeralmost simple enough to be made of Tinkertoysand then leads us through increasing levels of complexity to the soul of this remarkable new machine. He shows us how, in laboratories around the world, the revolution has already begun. Writing with a brilliant clarity, Johnson makes sophisticated material on (and even beyond) the frontiers of science both graspable and utterly fascinating, affording us a frontrow seat at one of the most galvanizing scientific dramas of the new century. 
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Review: A Shortcut Through Time: The Path to the Quantum Computer
User Review  Matt  GoodreadsLOVED this book. Well written, and easy to understand. Read full review
Review: A Shortcut Through Time: The Path to the Quantum Computer
User Review  GoodreadsLOVED this book. Well written, and easy to understand. Read full review
Contents
insiae ine BiacK box IX  3 
Simple Electric Brain Machines and  12 
Tinkertoy Logic  19 
Copyright  
11 other sections not shown
Common terms and phrases
Alice Alice and Bob amplitude answer arithmetic beam become binary Blue Mountain bouncing calculations called cells cellular automaton chip classical computer clock clockwise complex controlled NOT gate counterclockwise cryptography David Deutsch decoherence device digits electrical electrons encoded encrypted entangled error experiment exponential factoring faster Figure filter flip Geniac Grover's algorithm horizontal idea input inside interact kind larger number laser pulses light manipulate mathematical mathematicians measured million molecule NPcomplete output parity bits particles pattern photons physicists possible problem processors proteins puter quan quantum computer Quantum Cryptography quantum mechanics quantum superposition quantum switches quantum system qubits rectilinear representing result scientists sequence Shor Shor's algorithm simple simulate simultaneously single solve spinning spools square string subatomic supercomputer Suppose tape Tinkertoy tiny tion traveling salesman problem trillion Turing machine vacuum tubes vertical wave wavelets Wineland wires