Lectures
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Introduction & History
Subject(s) Module 01. Introduction & History
Week(s) Week 1
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Lecture 01 – Hilbert space, entanglement and quantum gates
Subject(s) Module 03. Hilbert space, entanglement and quantum gates
Week(s) Week 3
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Lecture 02 – Pauli matrices, qubit notations and universal gates
Subject(s) Module 04. Pauli matrices, qubit notations and universal gates
Week(s) Week 4
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Lecture 03 – Quantum circuits, elements of university and teleportation
Subject(s) Module 05. Quantum circuits, elements of university and teleportation
Week(s) Week 5
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Lecture 04 – Density matrices and non-unitary processes.
Subject(s) Module 06. Density matrices and non-unitary processes
Week(s) Week 6
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Lecture 05 – Decoherence and quantum measurement
Subject(s) Module 07. Decoherence and quantum measurement
Week(s) Week 7
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Lecture 06 – Factoring, quantum parallelism and algorithm period finding
Subject(s) Module 08. Factoring, quantum parallelism and algorithm period finding
Week(s) Week 8
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Lecture 07 – Grover’s algorithm.
Subject(s) Module 09. Grover’s algorithm
Week(s) Week 9
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Lecture 08 – Quantum simulation
Subject(s) Module 10. Quantum simulation
Week(s) Week 10
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Lecture 09 – Quantum error correction
Subject(s) Module 11. Quantum error correction
Week(s) Week 11
Quantum Information Processing by TU Delft OpenCourseWare is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
Based on a work at https://ocw.tudelft.nl/courses/quantum-information-processing/.