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Introduction to Quantum Computing

Vorlesung mit Übung im Wintersemester 2017/18 Prof. Dr. D. Kranzlmüller, Prof. Dr. Marian Bubak
Dr. Katarzyna Rycerz, T. Guggemos, M.Sc.

D-Wave
source: D-Wave

Welcome to the course webpage Quantum Computing for winter-term 2017/18 at LMU Munich.
This course will be held in English!

News

11.10.2017

The FAQ session will be in Room 131 at Oettingenstr. 67.

10.10.2017

The announced FAQ session will be on Thursday, 12.10.2017 16:00. The room will be announced soon.

09.10.2017

The oral exams are going to be on Monday, 16.10.2017 9:00 - 14:00. The individual dates are available in UniWorx

31.7.2017

Welcome to the course webpage Quantum Computing for winter-term 2017/18 at LMU Munich. Registration will be opened the 7th of August in UniWorx.
Important: The course will be held as a blocked course from 02.10.2017 - 07.10.2017. There will be no lecture on 03.10.2017.

Contents of the lecture

Two scientific revolutions embossed the first half of the 20th century. First, pioneers like Konrad Zuse, Alan Turing and John von Neumann developed the principles for the first useful computers. On the other hand, the theories on quantum mechanics shattered the world of classical physics, which hasn't been significantly changed since the days of Isaac Newton.

While computers are ubiqutious in the modern world and changed our society in many ways, the impact of quantum mechanics is less obvious but equally important. Without the quantum mechanic description of atoms, semiconductors and lasers would not be possible. Modern technologies like CD/DVD players or computer hardware rely on this technology.

In the last decades, both scientific disciplines have been slowly merged together, forming a new discipline called Quantum Computing. The goal is to build a quantum computer, develop quantum algorithms and to study how quantum mechanics influences modern computer science.

This lecture will give an overview and introduction to quantum computing, including:

introduction to quantum mechanics
new classes of complexity for quantum computers
quantum computers and quantum registers
quantum teleportation
challenges for modern cryptography caused by quantum computers
(already existing) quantum hardware and quantum computers

The exercises will further deepen the knowledge learned during the lectures and will give first experiences on developping quantum algorithms.

Audience

The course is intended for master students of computer science and related fields.
More formally, in German:
Die Vorlesung richtet sich an Studenten der Informatik bzw. Medieninformatik (Diplom) nach dem Vordiplom sowie an Studenten der Informatik, Bioinformatik bzw. Medieninformatik (Master) im Rahmen der vertiefenden Themen der Informatik. Bachelorstudenten können im Falle von freien Plätzen teilnehmen, Masterstudenten werden aber bevorzugt behandelt. Für Vorlesung und Übung werden 6 ECTS-Punkte vergeben.

The number of students will be limited to 16. The registration will open 07.08.2017 0:00 via UniWorx and closes 15.09.2017 0:00

Important:
All applicants for the course will receive an e-mail either if they are accepted or on the waiting list. Successful applicants will have to formally accept to attend the course and will be signed up to the final oral exam. Students who are signed up but do not show up at the course/exam will be reported with grade 5.0.

Important Dates

Registration

The registration will open 07.08.2017 0:00 via UniWorx

Course and Exercises

The course will be held as a blocked course from 02.10.2017 - 07.10.2017.
There will be no lecture on 03.10.2017.

Lecture: Oettingenstr. 67 Room 027
Exercise: Cip-Pool1, Oettingenstr. 67 L055

Please be aware that the following schedule is preliminary and the individual session may be swapped (lectures and exercises).

	Monday 02.10	Tuesday 03.10	Wednesday 04.10	Thursday 05.10	Friday 06.10	Saturday 07.10
08:00 - 10:00	Lecture 1	Public Holiday	Lecture	Lecture	Lecture	Lecture
10:00 - 12:00	Lecture 2	Public Holiday	Exercise 3	Exercise 5	Exercise 7	Exercise 9
13:00 - 15:00	Exercise 1	Public Holiday	Lecture	Lecture	Lecture	Exercise 10
15:00 - 17:00	Exercise 2	Public Holiday	Exercise 4	Exercise 6	Exercise 8	Final Lecture (topics,links, questions)

optional FAQ session

There will be an optional FAQ session on Thursday, 12.10.2017 16:00 in Room 131 at Oettingenstr. 67.

Exam

The oral exams are going to be on Monday, 16.10.2017 9:00 - 14:00 at Oettingenstr. 67 room 052. The individual dates are available in UniWorx.
Important: The participation in the lectures and exercises is obligatory for the exam

Recommended Literature

KAYE, Phillip; LAFLAMME, Raymond; MOSCA, Michele.
An introduction to quantum computing
Oxford University Press, 2007

HOMEISTER, Matthias.
Quantum Computing verstehen: Grundlagen-Anwendungen-Perspektiven.
Springer-Verlag, 2015

Quantum Computation Lecture Notes and Homework Assignments
Cornell, Spring 2006
http://www.lassp.cornell.edu/mermin/qcomp/CS483.html

David McMahon
Quantum Computing Explained
John Wiley & Sons, June 2008
EAN: 9780470181362

Papers

Lov K. Grover
A fast quantum mechanical algorithm for database search

Seth Lloyd, Silvano Garnerone, Paolo Zanardi
Quantum algorithms for topological and geometric analysis of data

Web Links

IBM Quantum Computer experience
https://quantumexperience.ng.bluemix.net/qx/editor

IBM Q Experience: Decoherence
https://quantumexperience.ng.bluemix.net/qx/tutorial?sectionId=71972f437b08e12d1f465a8857f4514c&pageIndex=5

QuIDE Quantum Simulator
http://quide.eu

Wolfram QUbit demostrators:

Kontakt/Sprechstunde

Über email bzw. nach den Übungen und Vorlesungen oder nach Vereinbarung.

Funktionen