The aim of this module is to introduce the theory of quantum computation. In it we will learn about the pioneering quantum algorithms that promise a qualitative leap in computation power over conventional computers.
Occurrence | Teaching period |
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A | Semester 2 2024-25 |
Introducing both the promise and limitations of quantum computation. Gate operations, evolving quantum states, calculating the result of measurements on quantum states, designing and analyzing quantum computational circuits, key algorithms (e.g., Shor's, Grover's and the Deutsch-Jozsa algorithms).
Articulate both the promise and limitations of quantum computation
Apply some of the many concepts and techniques in quantum computation (e.g., applying gate operations and evolving quantum states, calculating the result of measurements on quantum states, designing and analyzing quantum computational circuits);
Explain some of the key algorithms (e.g., Shor's, Grover's and the Deutsch-Jozsa algorithms) and their implications, and are able to simulate these algorithms on quantum states.
Establish concepts and techniques in quantum information science (e.g., simulating quantum cryptography, evolving quantum states, teleportation, etc.)
Task | % of module mark |
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Online Exam -less than 24hrs (Centrally scheduled) | 100 |
None
Task | % of module mark |
---|---|
Online Exam -less than 24hrs (Centrally scheduled) | 100 |
Feedback is provided through work in practical sessions, and after the final assessment as per normal University guidelines.
*** G. Benenti, et al., Principles of Quantum Computation and Information, vol I, World Scientific, 2004
*** G. Benenti, et al., Principles of Quantum Computation and Information, vol II, World Scientific, 2007
*** P. Kaye, et al., An Introduction to Quantum Computing, Oxford University Press, 2007