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  • Blockchain Technology and Applications
  • Ahmed Banafa
  • -
  • Web Encryption / Computer Cryptography / Financial Engineering
  • August 31, 2020
  • 8770221065
  • 9788770221061
  • English
  • 200 pages
  • PDF

Book Description
Blockchain is an emerging technology that can radically improve transactions security at banking, supply chain, and other transaction networks. It’s estimated that Blockchain will generate $3.1 trillion in new business value by 2030. Essentially, it provides the basis for a dynamic distributed ledger that can be applied to save time when recording transactions between parties, remove costs associated with intermediaries, and reduce risks of fraud and tampering. This book explores the fundamentals and applications of Blockchain technology. Readers will learn about the decentralized peer-to-peer network, distributed ledger, and the trust model that defines Blockchain technology. They will also be introduced to the basic components of Blockchain (transaction, block, block header, and the chain), its operations (hashing, verification, validation, and consensus model), underlying algorithms, and essentials of trust (hard fork and soft fork). Private and public Blockchain networks similar to Bitcoin and Ethereum will be introduced, as will concepts of Smart Contracts, Proof of Work and Proof of Stack, and cryptocurrency including Facebook’s Libra will be elucidated. Also, the book will address the relationship between Blockchain technology, Internet of Things (IoT), Artificial Intelligence (AI), Cybersecurity, Digital Transformation and Quantum Computing.
Readers will understand the inner workings and applications of this disruptive technology and its potential impact on all aspects of the business world and society. A look at the future trends of Blockchain Technology will be presented in the book.

Content

Part 1: Blockchain Technology
Chapter 1. Introduction to Blockchain
Chapter 2. Consensus Protocols
Chapter 3. Key Blockchain Use Cases
Chapter 4. Important Topics in Blockchain
Chapter 5. Decentralized Applications – DApps
Part 2: Blockchain Applications
Chapter 6. Using Blockchain to Secure IoT
Chapter 7. IoT and Blockchain: Challenges and Risks
Chapter 8. IoT, AI and Blockchain: Catalysts for Digital Transformation
Chapter 9. Myths about Blockchain Technology
Chapter 10. Cybersecurity & Blockchain
Chapter 11. Blockchain and AI: A Perfect Match?
Chapter 12. Quantum Computing and Blockchain: Facts and Myths
Chapter 13. Cryptocurrency: To Libra or not To Libra
Chapter 14. Future Trends of Blockchain
Chapter 15. Blockchain Technology and COVID-19

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Quantum Computation and Quantum Information
AuthorMichael Nielsen and Isaac Chuang
SubjectQuantum information science
PublisherCambridge University Press
2000 (first ed.)
2010 (second ed.)
ISBN978-1-107-00217-3
OCLC844974180

Quantum Computation and Quantum Information is a textbook about quantum information science written by Michael Nielsen and Isaac Chuang, regarded as a standard text on the subject.[1] It is informally known as 'Mike and Ike', after the candies of that name.[2] The book assumes minimal prior experience with quantum mechanics and with computer science, aiming instead to be a self-contained introduction to the relevant features of both. (Lov Grover recalls a postdoc disparaging it with the remark, 'The book is too elementary – it starts off with the assumption that the reader does not even know quantum mechanics.'[3]) The focus of the text is on theory, rather than the experimental implementations of quantum computers, which are discussed more briefly.[4]

Chapter

As of January 2020, the book has been cited over 39,000 times on Google Scholar.[5] In 2019, Nielsen adapted parts of the book for his Quantum Country project.[6]

Table of Contents (Tenth Anniversary Edition)[edit]

Chapter 12quantum Mechanicsmr.'s Learning Websites

  • Chapter 1: Introduction and Overview
  • Chapter 2: Introduction to Quantum Mechanics
  • Chapter 3: Introduction to Computer Science
  • Chapter 4: Quantum Circuits
  • Chapter 5: The Quantum Fourier Transform and its Applications
  • Chapter 6: Quantum Search Algorithms
  • Chapter 7: Quantum Computers: Physical Realization
  • Chapter 8: Quantum Noise and Quantum Operations
  • Chapter 9: Distance Measures for Quantum Information
  • Chapter 10: Quantum Error-Correction
  • Chapter 11: Entropy and Information
  • Chapter 12: Quantum Information Theory
  • Appendix 1: Notes on Basic Probability Theory
  • Appendix 2: Group Theory
  • Appendix 3: The Solovay–Kitaev Theorem
  • Appendix 4: Number Theory
  • Appendix 5: Public Key Cryptography and the RSA Cryptosystem
  • Appendix 6: Proof of Lieb's Theorem
  • Bibliography
  • Index

Reviews[edit]

Peter Shor called the text 'an excellent book'. Lou Grover called it 'the bible of the quantum information field'. Scott Aaronson said about it, ''Mike and Ike' as it's affectionately called, remains the quantum computing textbook to which all others are compared.'[7]David DiVincenzo said, 'More than any of the previous attempts, this book has identified the essential foundations of quantum information theory with a clarity that has even, in a few cases, permitted the authors to obtain some original results and point toward new research directions.'[8] A review in the November 2001 edition of Foundations of Physics says, 'Among the handful of books that have been written on this new subject, the present volume is the most complete and comprehensive.'[9]

Editions[edit]

  1. Nielsen, Michael A.; Chuang, Isaac L. (2000). Quantum Computation and Quantum Information (1st ed.). Cambridge: Cambridge University Press. ISBN978-0-521-63503-5. OCLC634735192.
  2. Nielsen, Michael A.; Chuang, Isaac L. (2010). Quantum Computation and Quantum Information (2nd ed.). Cambridge: Cambridge University Press. ISBN978-1-107-00217-3. OCLC844974180.

References[edit]

Chapter 12quantum Mechanicsmr.'s Learning Website Free

  1. ^Vogel, Manuel (2011-11-01). 'Quantum Computation and Quantum Information, by M.A. Nielsen and I.L. Chuang'. Contemporary Physics. 52 (6): 604–605. Bibcode:2011ConPh.52.604V. doi:10.1080/00107514.2011.587535. ISSN0010-7514. S2CID118307371.
    Gudder, Stanley P. (2001-11-01). 'Book Review: Quantum Computation and Quantum Information. By Michael A. Nielsen and Isaac L. Chuang. Cambridge University Press, Cambridge, United Kingdom, 2000, i–xxv+676 pp., $42.00 (hardcover)'. Foundations of Physics. 31 (11): 1665–1667. doi:10.1023/a:1012603118140. ISSN0015-9018. S2CID118557951.
    DiVincenzo, David P. (2001). 'Book Review on Quantum Computation and Quantum Information'(PDF). Quantum Information and Computation. 1: 95–96.
    Mermin, N. David (2003). 'From Cbits to Qbits: Teaching computer scientists quantum mechanics'. American Journal of Physics. 71 (1): 23–30. arXiv:quant-ph/0207118. Bibcode:2003AmJPh.71..23M. doi:10.1119/1.1522741. ISSN0002-9505. S2CID13068252.
  2. ^Wilde, Mark M. (2017-02-28). 'Preface to the Second Edition'. Quantum Information Theory. Cambridge University Press. pp. xi–xii. arXiv:1106.1445. Bibcode:2011arXiv1106.1445W. doi:10.1017/9781316809976.001. ISBN9781316813300.
    Strauch, Frederick W. (2016-06-21). 'Resource Letter QI-1: Quantum Information'. American Journal of Physics. 84 (7): 495–507. Bibcode:2016AmJPh.84.495S. doi:10.1119/1.4948608. ISSN0002-9505.
  3. ^Grover, Lov (2002-04-12). 'Quantum Computation and Quantum Information'. American Journal of Physics. 70 (5): 558–559. Bibcode:2002AmJPh.70.558N. doi:10.1119/1.1463744. ISSN0002-9505.
  4. ^James, Daniel F. V. (2001-11-01). 'Quantum Computation and Quantum Information'. Physics Today. 54 (11): 60–62. Bibcode:2001PhT..54k.60N. doi:10.1063/1.1428442. ISSN0031-9228.
  5. ^'Michael Nielsen - Google Scholar Citations'. scholar.google.com. Retrieved 2017-11-10.
  6. ^Matuschak, Andy; Nielsen, Michael (2019). 'Quantum computing for the very curious'.Cite journal requires |journal= (help)
  7. ^Michael Nielsen, Isaac Chuang. Quantum Computing and Quantum Information. Cambridge University Press. pp. reviews.
  8. ^DiVincenzo, David P. (2001). 'BOOK REVIEW on Quantum Computation and Quantum Information'(PDF). Quantum Information and Computation. 1 (2): 95–96 – via Rinton Press.
  9. ^Gudder, S. P. (November 2001). 'Book Review, Quantum Computation and Quantum Information'. Foundations of Physics. 31 (11): 1665–1667. doi:10.1023/A:1012603118140. S2CID118557951.

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