10% off all books and free delivery over £40 - Last Express Posting Date for Christmas: 20th December
Buy from our bookstore and 25% of the cover price will be given to a school of your choice to buy more books. *15% of eBooks.

Reversible Logic Synthesis Methodologies With Application to Quantum Computing

View All Editions

The selected edition of this book is not available to buy right now.
Add To Wishlist
Write A Review

About

Reversible Logic Synthesis Methodologies With Application to Quantum Computing Synopsis

This book opens the door to a new interesting and ambitious world of reversible and quantum computing research. It presents the state of the art required to travel around that world safely. Top world universities, companies and government institutions are in a race of developing new methodologies, algorithms and circuits on reversible logic, quantum logic, reversible and quantum computing and nano-technologies. In this book, twelve reversible logic synthesis methodologies are presented for the first time in a single literature with some new proposals. Also, the sequential reversible logic circuitries are discussed for the first time in a book. Reversible logic plays an important role in quantum computing. Any progress in the domain of reversible logic can be directly applied to quantum logic. One of the goals of this book is to show the application of reversible logic in quantum computing. A new implementation of wavelet and multiwavelet transforms using quantum computing is performed for this purpose. Researchers in academia or industry and graduate students, who work in logic synthesis, quantum computing, nano-technology, and low power VLSI circuit design, will be interested in this book.

About This Edition

ISBN: 9783319234786
Publication date: 8th October 2015
Author: Saleem M R Taha
Publisher: Springer an imprint of Springer International Publishing
Format: Hardback
Pagination: 174 pages
Series: Studies in Systems, Decision and Control
Genres: Electrical engineering
Electronics: circuits and components
Mathematical theory of computation
Computer architecture and logic design
Quantum physics (quantum mechanics and quantum field theory)