000			02772nam a22002177a 4500
005			20240827102159.0
008			240827b |||||||| |||| 00| 0 eng d
020			_a9780128219829 (PB)
041			_aeng
082			_a530.12 _bDJO
100			_aDjordjevic, Ivan B
245			_aQuantum information processing, quantum computing, and quantum error correction : an engineering approach
250			_aSecond edition
260			_a London, United Kingdom _bAcademic Press is an imprint of Elsevier _c2021
300			_a xxi, 815 p
505			_a1. Introduction2. Quantum Mechanics Fundamentals3. Quantum Circuits and Modules4. Quantum Information Processing Fundamentals5. Quantum Algorithms and Methods6. Information Theory and Classical Error Correcting Codes7. Quantum Information Theory8. Quantum Error Correction9. Quantum Stabilizer Codes and Beyond10. Quantum LDPC Codes11. Fault-Tolerant Quantum Error-Correction and Fault-Tolerant Quantum Computing12. Cluster State-Based Quantum Computing13. Physical Implementations of Quantum Information Processing14. Quantum Machine Learning15. Quantum Key Distribution
520			_aThe Second Edition of Quantum Information Processing, Quantum Computing, and Quantum Error Correction: An Engineering Approach presents a self-contained introduction to all aspects of the area, teaching the essentials such as state vectors, operators, density operators, measurements, and dynamics of a quantum system. In additional to the fundamental principles of quantum computation, basic quantum gates, basic quantum algorithms, and quantum information processing, this edition has been brought fully up to date, outlining the latest research trends. These include: Key topics include: Quantum error correction codes (QECCs), including stabilizer codes, Calderbank-Shor-Steane (CSS) codes, quantum low-density parity-check (LDPC) codes, entanglement-assisted QECCs, topological codes, and surface codes Quantum information theory, and quantum key distribution (QKD) Fault-tolerant information processing and fault-tolerant quantum error correction, together with a chapter on quantum machine learning. Both quantum circuits- and measurement-based quantum computational models are described The next part of the book is spent investigating physical realizations of quantum computers, encoders and decoders; including photonic quantum realization, cavity quantum electrodynamics, and ion traps In-depth analysis of the design and realization of a quantum information processing and quantum error correction circuits This fully up-to-date new edition will be of use to engineers, computer scientists, optical engineers, physicists and mathematicians
650			_aQuantum electronics
650			_aQuantum computing
942			_2ddc _cBK
999			_c2367 _d2367