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About this course

Welcome to 8.370.2x Quantum Information Science I, Part II

This course is part of a three-course-module series that provides an introduction to the theory and practice of quantum computation. We cover:

  • The physics of information processing

  • Quantum logic gates

  • Quantum algorithms including Shor's factoring algorithm and Grover's search algorithm

  • Quantum error correction

  • Quantum communication and key distribution

This course module will help you establish a foundation of knowledge for understanding what quantum computers can do, how they work, and how you can contribute to discovering new things and solving problems in quantum information science and engineering.

The three-course-module series comprises:

  • 8.370.1x: Foundations of quantum and classical computing – quantum mechanics, reversible computation, and quantum measurement

  • 8.370.2x: Simple quantum protocols and algorithms – teleportation and superdense coding, the Deutsch-Jozsa and Simon's algorithm, Grover's quantum search algorithm, and Shor's quantum factoring algorithm

  • 8.370.3x: Foundations of quantum communication – noise and quantum channels, and quantum key distribution

Prior knowledge of quantum mechanics is helpful but not required. It is best if you know some linear algebra.

A second course-module sequence, 8.371x, will follow, covering more advanced content, including fault-tolerant quantum computation, advanced quantum communication, and advanced quantum algorithms.

The four sub-units of 8.370.2x Quantum Information Science I, Part II

Textbook and Refernces

You may find it helpful to refer to: Quantum Computation and Quantum Information, by Nielsen and Chuang. There are also excellent, freely available lecture notes by John Preskill, and superb video lectures by Daniel Gottesman.

Also possibly available are: MIT 8.05x courses on quantum mechanics, and Berkeley's CS191 course. The Caltech-TU Delft course on quantum cryptography may also be insightful.

This is an intermediate, graduate-level course, and you are expected to largely learn the material on your own. The discussion forums may be a good avenue for help from peers; there will be occasional (but not full-time) help from course staff, on the forums.