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Introduction to Quantum Computing
(Year: 3 Period: 2 Category: Elective )
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Course Objectives:
- 1. (understand)Students should be able to describe the mathematical model of quantum computers.
- 2. (understand)Students should be able to compare it to probabilistic and deterministic classical computers.
- 3. (understand)Students should be able to state basic quantum algorithms.
- 4. (understand)Students should be able to analyze them step by step.
- 5. (understand)Students should be able to manipulate quantum states and quantum gates.
- 6. (understand)Students should be able to create a program in Cirq that implements a given quantum algorithm.
- 7. (understand)Students should be able to state basic quantum information protocols.
- 8. (understand)Students should be able to analyze them step by step.
- 9. (understand)Students should be able to explain the tasks they achieve.
- 10. (understand)Students should be able to explain classical correlations and quantum entanglement.
- 11. (understand)Students should be able to explain the advantage of entanglement over classical correlations.
- 12. (understand)Students should be able to explain the power and limitations of quantum computers.