Dr. rer. nat. Oliver Meister: Difference between revisions

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[[Image:Meister.jpg|right|frame|Puerto Montt, 2013]]
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:    85748 Garching b. München  
:    85748 Garching b. München  
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:    Leibniz Supercomputing Centre (Boltzmannstr. 1):
:    Leibniz Supercomputing Centre  
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:    E.2.040  
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=About me=
=About me=
In May 2010, after I received my Diploma degree in Informatics at the Technische Universität München (TUM), I started working as a PhD student of JP Dr. habil. [[Michael Bader]] in the SGS group [https://www.ipvs.uni-stuttgart.de/abteilungen/sgs] at the IPVS, Universität Stuttgart, which back then was led by Prof. Dr. Marc-Alexander Schweitzer [http://wissrech.ins.uni-bonn.de/people/schweitzer.html]. Shorty afterwards, JP Dr. Bader accepted a position as Univ.-Prof. at TUM, so I moved back to Munich in November 2011 to continue my PhD studies as a member of the chair for Scientific Computing in Computer Science under [[Univ.-Prof. Dr. Hans-Joachim Bungartz]], which has been my workplace since.


My topics of interest include High Performance Computing (HPC) for applications such as multi-phase flow in porous media and tsunami simulation, dynamically adaptive grids, parallelization of unstructured meshes and load balancing with space-filling curves.
In May 2010, after I received my Diploma degree in Informatics at the Technische Universität München (TUM), I started working as a PhD student of [[Univ.-Prof. Dr. Michael Bader]], who had a position as a Junior Professor (JP) in the [https://www.ipvs.uni-stuttgart.de/abteilungen/sgs SGS] group at the IPVS, Universität Stuttgart. The group was led by [http://schweitzer.ins.uni-bonn.de/people/schweitzer/ Prof. Dr. Marc-Alexander Schweitzer] at the time. Shorty afterwards, Michael Bader accepted a position as Univ.-Prof. at TUM. So I moved back to Munich in November 2011 to continue working as a member of the SCCS chair under [[Univ.-Prof. Dr. Hans-Joachim Bungartz]], where I finished my PhD in 2016. Since August 2016 I have been employed in a private company.
 
My topics of interest include High Performance Computing (HPC) for applications such as multi-phase flow in porous media and tsunami simulation, dynamically adaptive grids, parallelization of structured meshes and load balancing with space-filling curves.
 
=Research=
 
During my PhD, I developed the software project [https://github.com/meistero/samoa sam(oa)²], a framework for efficient, numerical solution of partial differential equations on HPC architectures based on space-filling curve traversal. Two applications were implemented: two-phase porous media flow and tsunami wave propagation.
 
== Two-Phase Porous Media Flow ==
 
This is a dynamically adaptive, parallel simulation of the [http://www.spe.org/web/csp/datasets/set02.htm SPE10] benchmark, where the vertical axis has been scaled by a factor 5 for better visibility. Colors indicate the water saturation (blue = 0.2, pink = 1.0), the lower right corner has been clipped. A central well (I1) injects water into the domain and wells (P1, P2, P3, P4) at the four corners produce oil.
 
[[File:SPE10.png|500px|link=http://www5.in.tum.de/persons/meistero/SPE10.avi]]
 
Below is a simulation of slice 0 of SPE10. The left video shows the log-scaled permeability (black to gray) and water saturation (blue = 0.2, pink = 1.0). The right video shows adaptive refinement and coarsening of the grid and the domain decomposition due to load balancing, marked by distinct colors.
 
[[File:SPE10_single_slice.0130.png|350px|link=http://www5.in.tum.de/persons/meistero/SPE10_single_slice.avi]]
[[File:SPE10_single_slice_geometry.0130.png|350px|link=http://www5.in.tum.de/persons/meistero/SPE10_single_slice_geometry.avi]]
 
== Tsunami Wave Propagation ==
 
This is a dynamically adaptive, parallel simulation of the [http://www.ngdc.noaa.gov/hazard/11mar2011.html Tohoku tsunami 2011]. The left video shows the Japanese coast line with exaggerated tsunami wave fronts (green: positive elevation, red: negative elevation). The right video shows a top view of the scenario, with focus on adaptive refinement and coarsening of the grid.
 
[[File:tohoku_side.0016.png|500px|link=http://www5.in.tum.de/persons/meistero/tohoku_side.avi]]
[[File:tohoku_top.0016.png|500px|link=http://www5.in.tum.de/persons/meistero/tohoku_top.avi]]


=Publications and Presentations=
=Publications and Presentations=


Below you can find a selection of my published work.
Below you can find a selection of published work and talks.
 
==Publications==
<pubsccs>nocaption&noheader=1&utypid=1010&utypid=1020&utypid=2040&&utypid=2030&authorid=86&nocaption=1</pubsccs>
 
==Posters==
<pubsccs>nocaption&noheader=1&authorid=86&utypid=1130&nocaption=1</pubsccs>


==Talks==
==Talks==
<pubsccs>nocaption&noheader=1&authorid=86&utypid=1120&datum=2014&datum=2013&datum=2012&datum=2011&datum=2010nocaption=1</pubsccs>
<pubsccs>nocaption&noheader=1&authorid=86&utypid=1120&nocaption=1</pubsccs>


==Posters==
=Student Theses=
<pubsccs>nocaption&noheader=1&authorid=86&utypid=1130&datum=2014&datum=2013&datum=2012&datum=2011&datum=2010nocaption=1</pubsccs>
 
I do not work for the chair anymore, but if you are interested in a topic for a student project/thesis, then contact me and I will forward your request to the appropriate person.
Open topics include:
* Efficient neighbour search in a parallel, adaptive framework
* Preprocessing permeability tensors for upscaling in porous media flow
* Tuning a parallel tsunami simulation on adaptive grids
More topics are available on request.
 
==Finished Theses==
<pubsccs>noheader=1&betreuerid=86&nocaption=1</pubsccs>


==Publications==
=Research Stays=
<pubsccs>nocaption&noheader=1&authorid=86&utypid=1010&datum=2014&datum=2013&datum=2012&datum=2011&datum=2010&nocaption=1</pubsccs>
* Aug - Sep 2013: Imperial College London under supervision of [http://www.imperial.ac.uk/people/david.ham Dr. David Ham] at the [https://spo.doc.ic.ac.uk/twiki/bin/view.cgi/External Software Performance Optimisation Group] of [http://www.doc.ic.ac.uk/~phjk/ Prof. Paul Kelly]


=Teaching=
=Teaching=


==Lab Courses==
==Lab Courses==
* ST 13, ST 14: Game Physics (BA)
* ST 13, ST 14, ST 15: [http://www5.in.tum.de/wiki/index.php/Bachelor-Praktikum:_Game_Physics_-_Summer_15 Game Physics]


==Seminars==
==Seminars==
* ST 12, ST 13, ST 14: Numerical Methods for Earthquake and Tsunami Simulation
* ST 12, ST 13, ST 14, ST 15: [http://www5.in.tum.de/wiki/index.php/Numerical_Methods_for_Earthquake_and_Tsunami_Simulation_-_Summer_15 Numerical Methods for Earthquake and Tsunami Simulation]
* ST 12: Leading Yourself and Others
* ST 12: [http://www5.in.tum.de/wiki/index.php/BGCE_Seminar_Leading_Yourself_and_Others Leading Yourself and Others]
* ST 11: [http://www.ferienakademie.de/2011/K4/K4.html Ferienakademie]


==Tutorials==
==Tutorials==
* WT 12/13, WT 13/14, WT 14/15: HPC Algorithms and Applications
* WT 12/13, WT 13/14, WT 14/15: [http://www5.in.tum.de/wiki/index.php/HPC_-_Algorithms_and_Applications_-_Winter_14 HPC Algorithms and Applications]
* WT 11/12: Diskrete Strukturen I
* WT 11/12: [http://www5.in.tum.de/wiki/index.php/Diskrete_Strukturen_-_Winter_15 Diskrete Strukturen]
 
==Student Thesis==
<pubsccs>noheader=1&betreuerid=86&datum=2014&datum=2013&datum=2012&datum=2011&datum=2010&datum=2009&nocaption=1</pubsccs>
 
=Multimedia=
[http://www5.in.tum.de/persons/meistero/spe10_slice0.avi SPE10 Slice 0, dynamically adaptive and parallel]

Latest revision as of 19:59, 8 February 2017

Address:
TU München
Institut für Informatik
Boltzmannstr. 3
85748 Garching b. München
Office:
Leibniz Supercomputing Centre
Boltzmannstr. 1
E.2.040
Email:
Meisteromail.png
Phone:
(089) 35831-7812
Office hours:
by arrangement


About me

In May 2010, after I received my Diploma degree in Informatics at the Technische Universität München (TUM), I started working as a PhD student of Univ.-Prof. Dr. Michael Bader, who had a position as a Junior Professor (JP) in the SGS group at the IPVS, Universität Stuttgart. The group was led by Prof. Dr. Marc-Alexander Schweitzer at the time. Shorty afterwards, Michael Bader accepted a position as Univ.-Prof. at TUM. So I moved back to Munich in November 2011 to continue working as a member of the SCCS chair under Univ.-Prof. Dr. Hans-Joachim Bungartz, where I finished my PhD in 2016. Since August 2016 I have been employed in a private company.

My topics of interest include High Performance Computing (HPC) for applications such as multi-phase flow in porous media and tsunami simulation, dynamically adaptive grids, parallelization of structured meshes and load balancing with space-filling curves.

Research

During my PhD, I developed the software project sam(oa)², a framework for efficient, numerical solution of partial differential equations on HPC architectures based on space-filling curve traversal. Two applications were implemented: two-phase porous media flow and tsunami wave propagation.

Two-Phase Porous Media Flow

This is a dynamically adaptive, parallel simulation of the SPE10 benchmark, where the vertical axis has been scaled by a factor 5 for better visibility. Colors indicate the water saturation (blue = 0.2, pink = 1.0), the lower right corner has been clipped. A central well (I1) injects water into the domain and wells (P1, P2, P3, P4) at the four corners produce oil.

Below is a simulation of slice 0 of SPE10. The left video shows the log-scaled permeability (black to gray) and water saturation (blue = 0.2, pink = 1.0). The right video shows adaptive refinement and coarsening of the grid and the domain decomposition due to load balancing, marked by distinct colors.

Tsunami Wave Propagation

This is a dynamically adaptive, parallel simulation of the Tohoku tsunami 2011. The left video shows the Japanese coast line with exaggerated tsunami wave fronts (green: positive elevation, red: negative elevation). The right video shows a top view of the scenario, with focus on adaptive refinement and coarsening of the grid.

Publications and Presentations

Below you can find a selection of published work and talks.

Publications

<pubsccs>nocaption&noheader=1&utypid=1010&utypid=1020&utypid=2040&&utypid=2030&authorid=86&nocaption=1</pubsccs>

Posters

<pubsccs>nocaption&noheader=1&authorid=86&utypid=1130&nocaption=1</pubsccs>

Talks

<pubsccs>nocaption&noheader=1&authorid=86&utypid=1120&nocaption=1</pubsccs>

Student Theses

I do not work for the chair anymore, but if you are interested in a topic for a student project/thesis, then contact me and I will forward your request to the appropriate person. Open topics include:

  • Efficient neighbour search in a parallel, adaptive framework
  • Preprocessing permeability tensors for upscaling in porous media flow
  • Tuning a parallel tsunami simulation on adaptive grids

More topics are available on request.

Finished Theses

<pubsccs>noheader=1&betreuerid=86&nocaption=1</pubsccs>

Research Stays

Teaching

Lab Courses

Seminars

Tutorials

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