Beschreibung
Produktdetails
Einband
Taschenbuch
Erscheinungsdatum
28.01.2019
Abbildungen
Illustrationen, nicht spezifiziert
Verlag
Mcgraw Hill Higher EducationSeitenzahl
176
Maße (L/B/H)
22.8/14.9/1.5 cm
Gewicht
211 g
Sprache
Englisch
ISBN
978-1-260-12311-1
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.
A self-contained, reader-friendly introduction to the principles and applications of quantum computing
Especially valuable to those without a prior knowledge of quantum mechanics, this electrical engineering text presents the concepts and workings of quantum information processing systems in a clear, straightforward, and practical manner. The book is written in a style that helps readers who are not familiar with non-classical information processing more easily grasp the essential concepts; only prior exposure to classical physics, basic digital design, and introductory linear algebra is assumed.
>Quantum Computing: A Beginner's Introduction presents each topic in a tutorial style with examples, illustrations, and diagrams to clarify the material. Written by an experienced electrical engineering educator and author, this is a self-contained resource, with all the necessary pre-requisite material included within the text.
>Coverage includes:
>¿ Complex Numbers, Vector Space, and Dirac Notation
¿ Basics of Quantum Mechanics
¿ Matrices and Operators
¿ Boolean Algebra, Logic Gates and Quantum Information Processing
¿ Quantum Gates and Circuit
¿ Tensor Products, Superposition and Quantum Entanglement
¿ Teleportation and Superdense Coding
¿ Quantum Error Correction
¿ Quantum Algorithms
¿ Quantum Cryptography
>
A self-contained, reader-friendly introduction to the principles and applications of quantum computing
Especially valuable to those without a prior knowledge of quantum mechanics, this electrical engineering text presents the concepts and workings of quantum information processing systems in a clear, straightforward, and practical manner. The book is written in a style that helps readers who are not familiar with non-classical information processing more easily grasp the essential concepts; only prior exposure to classical physics, basic digital design, and introductory linear algebra is assumed.
>Quantum Computing: A Beginner's Introduction presents each topic in a tutorial style with examples, illustrations, and diagrams to clarify the material. Written by an experienced electrical engineering educator and author, this is a self-contained resource, with all the necessary pre-requisite material included within the text.
>Coverage includes:
>¿ Complex Numbers, Vector Space, and Dirac Notation
¿ Basics of Quantum Mechanics
¿ Matrices and Operators
¿ Boolean Algebra, Logic Gates and Quantum Information Processing
¿ Quantum Gates and Circuit
¿ Tensor Products, Superposition and Quantum Entanglement
¿ Teleportation and Superdense Coding
¿ Quantum Error Correction
¿ Quantum Algorithms
¿ Quantum Cryptography
>
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