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Quantum Information Processing I: Concepts
Last Updated: 2026-02-05 15:54:28
Abstract
The course will cover the key concepts and ideas of quantum information processing, including descriptions of quantum algorithms which give the quantum computer the power to compute problems outside the reach of any classical supercomputer.Key concepts such as quantum error correction will be described. These ideas provide fundamental insights into the nature of quantum states and measurement.
Objective
By the end of the course students are able to explain the basic mathematical formalism of quantum mechanics and apply them to quantum information processing problems. They are able to adapt and apply these concepts and methods to analyse and discuss quantum algorithms and other quantum information-processing protocols.
Content
The topics covered in the course will include quantum circuits, gate decomposition and universal sets of gates, efficiency of quantum circuits, quantum algorithms (Shor, Grover, Deutsch-Josza,..), error correction, fault-tolerant design, entanglement, teleportation and dense conding, teleportation of gates, and cryptography.
Resources
Lecture Notes
More details to follow.
Literature
Quantum Computation and Quantum Information Michael Nielsen and Isaac Chuang Cambridge University Press
Learning Materials (Links)
- Moodle course
- Moodle-Kurs / Moodle course
General Information
- Language
- English
- Levels
- DR , MSC
- Frequency
- Yearly recurring
Examination
- Type
- session examination
- Mode
- oral 20 minutes
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture | Quantum Information Processing I: Concepts |
|
2 h weekly |
| exercise | Quantum Information Processing I: Concepts |
|
1 h weekly |
Offered In
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Physics (For the field of specialization `Physics' basic knowledge in quantum mechanics is required.)
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Core Courses (One Core Course in Experimental or Theoretical Physics from Physics Bachelor is eligible; however, this Core Course from Physics Bachelor cannot be used to compensate for the mandatory Core Course in Experimental or Theoretical Physics. For the category assignment keep the choice "no category" and take contact with the Study Administration ( ) after having received the credits.)
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Doctoral Dep. of Information Technology and Electrical Engineering (More Information at: )
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Doctoral and Post-Doctoral Courses (A minimum of 12 ECTS credit points must be obtained during doctoral studies. The courses on offer below are but a small selection out of a much larger available number of courses. Please discuss your course selection with your PhD supervisor.)
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Core Courses (A minimum of 24 credits must be obtained from core courses during the MSc QE, course selection is subject to the tutor's agreement.)
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Physics Core Courses (These core courses target students with an engineering background and all those who need additional physics foundations.)
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