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Quantum Computing
- Verantwortliche/Verantwortlicher
- Prof. Dr. Michael J. Hartmann
- Angaben
- Hauptseminar
Online/Präsenz 2 SWS, benoteter Schein, ECTS-Studium, ECTS-Credits: 5, Sprache Englisch
- Studienfächer / Studienrichtungen
- WPF Ph-BA 5 (ECTS-Credits: 5)
WPF Ph-MA ab 1 (ECTS-Credits: 5)
WPF DS-BA 5 (ECTS-Credits: 5)
WPF TM-MA ab 1 (ECTS-Credits: 5)
- Voraussetzungen / Organisatorisches
- Link zur Seite: https://www.studon.fau.de/crs4133300.html
Link zum Beitritt: https://www.studon.fau.de/crs4133300_join.html
- Inhalt
- The course provides an introduction to quantum computing. The development of quantum hardware has progressed substantially in recent years and has now reached a level of maturity where first industrial applications are being explored. This course will introduce the fundamental ingredients of quantum algorithms, quantum bits and quantum gates, the most important hardware implementations and in particular algorithms that can run on near term hardware implementations of so called Noisy Intermediate Scale Quantum (NISQ) devices. The course will be completed with introductions to the basic concepts of error correction, which is needed in the next stage of development to fully exploit the potential of this emerging computing technology. Prerequisites: the main concepts of quantum theory, including quantum states, the Schrödinger equation, unitary evolution and measurements.
Learning goals and competences:
Students:
- Empfohlene Literatur
- The course will present all the relevant material. Useful additional reading contains “Quantum Computation and Quantum Information” by Nielsen and Chuang (Cambridge Univ. Press), “Quantum Computating: A Gentle Introduction” by Rieffel and Polak (MIT Press) as well as lecture notes by John Preskill available at http://theory.caltech.edu/~preskill/ph229/ and Ronald de Wolf available at https://homepages.cwi.nl/~rdewolf/qc19.html .
- ECTS-Informationen:
- Title:
- Quantum Computing
- Credits: 5
- Contents
- The course provides an introduction to quantum computing. The development of quantum hardware has progressed substantially in recent years and has now reached a level of maturity where first industrial applications are being explored. This course will introduce the fundamental ingredients of quantum algorithms, quantum bits and quantum gates, the most important hardware implementations and in particular algorithms that can run on near term hardware implementations of so called Noisy Intermediate Scale Quantum (NISQ) devices. The course will be completed with introductions to the basic concepts of error correction, which is needed in the next stage of development to fully exploit the potential of this emerging computing technology. Prerequisites: the main concepts of quantum theory, including quantum states, the Schrödinger equation, unitary evolution and measurements.
Learning goals and competences:
Students:
explain the relevant topics of the lecture
apply the methods to specific examples
- Literature
- The course will present all the relevant material. Useful additional reading contains “Quantum Computation and Quantum Information” by Nielsen and Chuang (Cambridge Univ. Press), “Quantum Computating: A Gentle Introduction” by Rieffel and Polak (MIT Press) as well as lecture notes by John Preskill available at http://theory.caltech.edu/~preskill/ph229/ and Ronald de Wolf available at https://homepages.cwi.nl/~rdewolf/qc19.html .
- Zusätzliche Informationen
- www: https://www.studon.fau.de/crs4133300.html
- Verwendung in folgenden UnivIS-Modulen
- Startsemester WS 2021/2022:
- Quantum Computing (PW-QC)
- Institution: Lehrstuhl für Theoretische Physik (Prof. Dr. Hartmann)
Kurse
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