ISBN-13: 9781447168010 / Angielski / Miękka / 2010 / 717 str.
ISBN-13: 9781447168010 / Angielski / Miękka / 2010 / 717 str.
Explorations in Quantum Computing describes quantum computing in simple terms, and describes key technological hurdles that must be overcome in order to make quantum computers a reality. The text includes executable software simulations to illustrate the concepts and material.
From the reviews of the second edition:
"This book suggests that as computers decrease in scale, we should take a closer look at the relationship between the physical world in which computers live, and the theoretical aspects of what and how they compute. ... This book is intended for graduate-level computer science students. ... The book includes exercises at the end of each chapter. ... The bibliography is extensive, demonstrating that the field has matured somewhat over time." (William Fahle, ACM Computing Reviews, August, 2011)
"It is a truly impressive object, clearly a labor of love, and I learned a great deal in reading it. ... I enjoyed reading this book. ... Explorations in quantum computing is a good and useful entry in the growing pedagogical literature on quantum information. It is not the most tightly focused book, but it is full-to-bursting with interesting facts and discussions. The book is well written and interesting, and experts as well as newcomers to the field will enjoy dipping into it." (Todd A. Brun, Mathematical Reviews, February, 2013)
Part I: What Is Quantum Computing
Introduction
Quantum Gates
Quantum Circuits
Quantum Universality, Computability, & Complexity
Part II: What Can You Do With A Quantum Computer?
Performing Search With A Quantum Computer
Code Breaking With A Quantum Computer
Solving NP-Complete Problems With A Quantum Computer
Quantum Simulation With A Quantum Computer
Quantum Chemistry With A Quantum Computer
Mathematics On A Quantum Computer
Part III: What Can You Do With Quantum Information?
Quantum Information
Quantum Teleportation
Quantum Cryptography
Part IV: Towards Practical Quantum Computers
Quantum Error Correction
Alternative Models Of Quantum Computation
It is believed that quantum computers will be able to perform certain tasks breathtakingly faster than classical computers and accomplish mind-boggling feats such as teleporting information, breaking supposedly "unbreakable" codes, generating true random numbers, and communicating with messages that betray the presence of eavesdropping.
Explorations in Quantum Computing explains these burgeoning developments in simple terms and describes the key technological hurdles that must be overcome in order to make quantum computers a reality. It draws upon the very latest research and uses executable software simulations to help explain the material and allow the reader to experiment with the ideas behind quantum computers. This is the ideal text for anyone wishing to learn more about the next, perhaps ultimate, computer revolution.
By the year 2020, the basic memory components of a computer will be the size of individual atoms. At such scales, the current theory of computation will become invalid.
“Quantum computing” is reinventing the foundations of computer science and information theory in a way that is consistent with quantum physics – the most accurate model of reality currently known. Remarkably, this theory predicts that quantum computers can perform certain tasks exponentially faster than classical computers and, better yet, can accomplish “impossible” feats such as teleporting information, breaking supposedly “unbreakable” codes, generating true random numbers, and communicating with messages that betray the presence of eavesdropping.
This widely anticipated second edition of Explorations in Quantum Computing explains the field from a fresh perspective, emphasizing lesser known quantum transforms, and practical applications of quantum algorithms and quantum information theory. The required mathematical machinery is developed systematically, and the students’ knowledge tested through several end-of-chapter exercises. This easy-to-read, time-tested, and comprehensive textbook provides a unique perspective on the capabilities of quantum computers, and supplies readers with the tools necessary to make their own foray into this exciting field.
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This text/reference is ideal for anyone wishing to learn more about this incredible, perhaps “ultimate,” computer revolution.
Dr. Colin P. Williams is Program Manager for Advanced Computing Paradigms at the NASA Jet Propulsion Laboratory, California Institute of Technology, and formerly acting Associate Professor of Computer Science at Stanford University where he taught courses on quantum computing and quantum information theory, and computer-algebra systems. He has spent over a decade working in quantum computing, and inspiring and leading high technology teams. Today his interests include quantum computing, artificial intelligence, cognitive computing, evolutionary computing, computational material design, computer visualization, and computationally-enabled remote olfaction. He was formerly a Research Scientist at Xerox PARC and a Research Assistant to Prof. Stephen W. Hawking at Cambridge University.
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