Difference between revisions of "Tsunami Simulation - Winter 17"
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− | * Preliminary meeting: ''' | + | * Preliminary meeting: '''Tuesday 11.7.17 10:00''', room '''02.07.023''' (attend for guaranteed registration) - [http://www5.in.tum.de/lehre/praktika/swe_lab/ws17/info.pdf Slides] |
* questions in advance? -> [[Sebastian Rettenberger]] & [[Leonhard Rannabauer]] | * questions in advance? -> [[Sebastian Rettenberger]] & [[Leonhard Rannabauer]] | ||
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= Examples = | = Examples = |
Latest revision as of 15:12, 12 July 2017
- Term
- WS 17
- Lecturer
- Univ.-Prof. Dr. Michael Bader
Sebastian Rettenberger
Leonhard Rannabauer - Time and Place
- Preliminary meeting: Tuesday 11.7.17 10:00, room 02.07.023.
- Audience
- Bachelor-Praktikum (Modul IN0012) Studenten der Informatik (Bachelor)
- Tutorials
- -
- Exam
- -
- Semesterwochenstunden / ECTS Credits
- 10 Credits
- TUMonline
- tba.
Description
In this lab course we systematically address modern software engineering approaches in an application driven context: Tsunami simulations. Starting from implementation of a solver in a one dimensional setting, the complete process over integration in an existing framework to optimization and parallelization is covered. During this process key issues of software engineering are dealt with: versioning, documentation, unit testing, file I/O, ..
During the course, assignments are to be solved by groups of three participants each followed by presentations in regular meetings. A project phase with individual study projects chosen by the groups completes the lab course.
Requirements
- Knowledge of object oriented programming
- Interest in a challenging but exciting topic
The spoken language in the meetings is German, slides and assignments are in English.
Timeline
- Preliminary meeting: Tuesday 11.7.17 10:00, room 02.07.023 (attend for guaranteed registration) - Slides
- questions in advance? -> Sebastian Rettenberger & Leonhard Rannabauer
Examples
Live visualization of the February 2010 Chilean tsunami using OpenGL.
Propagation of the 2011 Tohoku tsunami.
Run-up of the 2011 Tohoku tsunami.
Dart station comparison of the 2011 Tohoku tsunami.
Sketch of the Finite Volume method with shock waves arising in the Riemann solutions.