Nielsen And Chuang Solutions Manual 5th
2.111J / 8.411 / 6.898 / 18.435J / ESD.79 Quantum Computation Department of Mechanical Engineering Department of Physics Department of Electrical Engineering Department of Mathematics Massachusetts Institute of Technology Fall 2010 | ||||||||||||||||||||||||
Description | Provides an introduction to the theory and practice of quantum computation. Topics covered: physics of information processing; quantum logic; quantum algorithms including Shor's factoring algorithm and Grover's search algorithm; quantum error correction; quantum communication and cryptography. Prior knowledge of quantum mechanics helpful but not required. First course in a sequence of three core quantum information science courses at MIT, as part of the iQuISE program. | |||||||||||||||||||||||
Information | Instructors:
Lectures: Tuesday and Thursday, 1:00-2:30, Rm 2-135 Office Hours: Tuesday 5-6pm (Sam), Monday 5-6pm (Xie) Syllabus:2010 coursesyllabus. Grading Policy: Weekly Problem Sets 30%, Midterm Quiz 30%, Final Exam 40%. Homework Policy: Collaboration is allowed; please mention those you have collaborated with, and only write your own understanding of the problem. Course Wiki (NEW):Please visit the new MIT QuantumInformation Science Wiki -- Course notes for this class are postedthere, and you are encouraged to contribute (MIT certificates required) Check your recordedgrades (MIT certificates required) | |||||||||||||||||||||||
Problem Sets |
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Textbooks | Our Main References on Quantum Computation: M. Nielsen and I. Chuang, Quantum Computation and Quantum Information, Cambridge University Press, Cambridge, 2000. S. Lloyd, Quantum InformationScience, Notes for 2009. Complimentary References on Quantum Computation (all with many, many solved problems, including many more advanced than this class): J. Preskill, Notes on Quantum Computation, http://www.theory.caltech.edu/people/preskill/ph229 A. Yu. Kitaev, A.H. Shen, and M.N. Vyalyi, Classical and Quantum Computation, American Mathematical Society, Providence, 2002. W.H. Steeb and Y. Hardy, Problems & Solutions in Quantum Computing & Information, World Scientific, River Edge, NJ, 2004. Complimentary Reference on Foundations of Quantum Mechanics A. Peres, Quantum Theory: Concepts and Methods, Kluwer, Boston, 1995. (On reserve in Science Library.) | |||||||||||||||||||||||
Archive of Prior Course Webpages | Course web page for Fall 2001 Course web page for Fall 2003 Course web page for Fall 2004 Course web page for Fall 2007 Course web page for Fall 2009 |
Nielsen Chuang Solutions
© Massachusetts Institute of Technology 2010
(source: Nielsen Book Data) Summary The second edition of A First Course in Integral Equations integrates the newly developed methods with classical techniques to give modern and robust approaches for solving integral equations. The manual accompanying this edition contains solutions to all exercises with complete step-by-step details. Those who want to read more (much more.): see the book by Nielsen and Chuang 117. Attribution, acknowledgments, subsequent updates Most of the material in Chapters 16 chapter numbers in this paragraph are for the 2011 ver-sion comes from the rst chapter of my PhD thesis 138, with a number of additions: the lower.