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Introduction to quantum computing wi...

Wojcieszyn, Filip.

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Introduction to quantum computing with Q# and QDK

Record Type:	Electronic resources : Monograph/item
Title/Author:	Introduction to quantum computing with Q# and QDK/ by Filip Wojcieszyn.
Author:	Wojcieszyn, Filip.
Published:	Cham :Springer International Publishing : : 2022.,
Description:	xvi, 280 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	Historical Background -- Basics of Quantum Mechanics -- Getting Started with QDK and Q# -- Quantum Computing -- Entanglement -- Quantum Key Distribution -- Algorithms -- Where to go next?.
Contained By:	Springer Nature eBook
Subject:	Quantum computing. -
Online resource:	https://doi.org/10.1007/978-3-030-99379-5
ISBN:	9783030993795

Introduction to quantum computing with Q# and QDK
Wojcieszyn, Filip.

Introduction to quantum computing with Q# and QDK[electronic resource] /by Filip Wojcieszyn. - Cham :Springer International Publishing :2022. - xvi, 280 p. :ill. (some col.), digital ;24 cm. - Quantum science and technology,2364-9062. - Quantum science and technology..

Historical Background -- Basics of Quantum Mechanics -- Getting Started with QDK and Q# -- Quantum Computing -- Entanglement -- Quantum Key Distribution -- Algorithms -- Where to go next?.

This book introduces the fundamentals of the theory of quantum computing, illustrated with code samples written in Q#, a quantum-specific programming language, and its related Quantum Development Kit. Quantum computing (QC) is a multidisciplinary field that sits at the intersection of quantum physics, quantum information theory, computer science and mathematics, and which may revolutionize the world of computing and software engineering. The book begins by covering historical aspects of quantum theory and quantum computing, as well as offers a gentle, algebra-based, introduction to quantum mechanics, specifically focusing on concepts essential for the field of quantum programming. Quantum state description, state evolution, quantum measurement and the Bell's theorem are among the topics covered. The readers also get a tour of the features of Q# and familiarize themselves with the QDK. Next, the core QC topics are discussed, complete with the necessary mathematical formalism. This includes the notions of qubit, quantum gates and quantum circuits. In addition to that, the book provides a detailed treatment of a series of important concepts from quantum information theory, in particular entanglement and the no-cloning theorem, followed by discussion about quantum key distribution and its various protocols. Finally, the canon of most important QC algorithms and algorithmic techniques is covered in-depth - from the Deutsch-Jozsa algorithm, through Grover's search, to Quantum Fourier Transform, quantum phase estimation and Shor's algorithm. The book is an accessible introduction into the vibrant and fascinating field of quantum computing, offering a blend of academic diligence with pragmatism that is so central to software development world. All of the discussed theoretical aspects of QC are accompanied by runnable code examples, providing the reader with two different angles - mathematical and programmatic - of looking at the same problem space.

ISBN: 9783030993795

Standard No.: 10.1007/978-3-030-99379-5doiSubjects--Topical Terms:

2115803
Quantum computing.

LC Class. No.: QA76.889 / .W65 2022

Dewey Class. No.: 006.3843

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520 $a This book introduces the fundamentals of the theory of quantum computing, illustrated with code samples written in Q#, a quantum-specific programming language, and its related Quantum Development Kit. Quantum computing (QC) is a multidisciplinary field that sits at the intersection of quantum physics, quantum information theory, computer science and mathematics, and which may revolutionize the world of computing and software engineering. The book begins by covering historical aspects of quantum theory and quantum computing, as well as offers a gentle, algebra-based, introduction to quantum mechanics, specifically focusing on concepts essential for the field of quantum programming. Quantum state description, state evolution, quantum measurement and the Bell's theorem are among the topics covered. The readers also get a tour of the features of Q# and familiarize themselves with the QDK. Next, the core QC topics are discussed, complete with the necessary mathematical formalism. This includes the notions of qubit, quantum gates and quantum circuits. In addition to that, the book provides a detailed treatment of a series of important concepts from quantum information theory, in particular entanglement and the no-cloning theorem, followed by discussion about quantum key distribution and its various protocols. Finally, the canon of most important QC algorithms and algorithmic techniques is covered in-depth - from the Deutsch-Jozsa algorithm, through Grover's search, to Quantum Fourier Transform, quantum phase estimation and Shor's algorithm. The book is an accessible introduction into the vibrant and fascinating field of quantum computing, offering a blend of academic diligence with pragmatism that is so central to software development world. All of the discussed theoretical aspects of QC are accompanied by runnable code examples, providing the reader with two different angles - mathematical and programmatic - of looking at the same problem space.
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