Overview
- Authors:
-
-
Colin P. Williams
-
Scott H. Clearwater
Access this book
Other ways to access
About this book
As miniaturization deepens, and nanotechnology and its machines become more prevalent in the real world, the need to consider using quantum mechanical concepts to perform various tasks in computation increases. Such talks include: the teleporting of information, breaking heretofore "unbreakable" codes, communicating with messages that betray eavesdropping, and the generation of random munbers. To date, there has been no book written which applies quantum physics to the basic operations of a computer. This one does, thus presenting us with the ideal vehicle for explaining the complexities of quantum mechanics to students, researchers and computer engineers, alike, as they prepare to design and create the computing and information delivery systems for the future. Both authors have solid backgrounds in the subject matter at the theoretical and research level, as well as experience on a more practical plane. While also intended for use as a text for senior/grad level students in computer science/physics/engineering, this book has its primary use as an up-to-date reference work in the emerging interdisciplinary field of quantum computing. It does require knowledge of calculus and familiarity with the concept of the Turing machine.
Similar content being viewed by others
Table of contents (10 chapters)
-
-
- Colin P. Williams, Scott H. Clearwater
Pages 1-21
-
- Colin P. Williams, Scott H. Clearwater
Pages 23-43
-
- Colin P. Williams, Scott H. Clearwater
Pages 45-88
-
- Colin P. Williams, Scott H. Clearwater
Pages 89-116
-
- Colin P. Williams, Scott H. Clearwater
Pages 117-141
-
- Colin P. Williams, Scott H. Clearwater
Pages 143-156
-
- Colin P. Williams, Scott H. Clearwater
Pages 157-172
-
- Colin P. Williams, Scott H. Clearwater
Pages 173-190
-
- Colin P. Williams, Scott H. Clearwater
Pages 191-215
-
- Colin P. Williams, Scott H. Clearwater
Pages 217-232
-
Back Matter
Pages 233-250