Publications SGS: Bibliography 2005 BibTeX
@inproceedings {INPROC-2005-82,
author = {Srihari Narasimhan and Hans-Joachim Bungartz},
title = {{Congestion-Aware Optimization of Pedestrian Paths}},
booktitle = {Proceedings of the 18th Symposium Simulationstechnique ASIM 2005},
editor = {Frank H{\"u}lsemann and Markus Kowarschik and Ulrich R{\"u}de},
address = {Erlangen},
publisher = {SCS Publishing House},
institution = {University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Germany},
series = {Frontiers in Simulation},
volume = {15},
pages = {242--247},
type = {Conference Paper},
month = {September},
year = {2005},
isbn = {3-936150-41-9},
language = {English},
cr-category = {G.1.6 Numerical Analysis Optimization,
G.2.2 Discrete Mathematics Graph Theory,
I.6 Simulation and Modeling,
I.3.5 Computational Geometry and Object Modeling},
ee = {http://www10.informatik.uni-erlangen.de/asim2005/},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {Today, more and more simulation tasks with a traditionally non-geometric
background need to be embedded into some geometric context in order to provide
spatial context to non-spatial data. This holds especially for graph-based
applications in some location-aware context. As an example, one might think of
a large theme park or a large commercial centre where the customers shall be
provided with some navigation and scheduling information such as where to go
when -- either a priori or even in real time via some mobile device. In this
paper, we present an approach to embed an event-driven simulation tool for
pedestrian traffic into a 3D geometric environment in order find an optimal
path through the graph-based model by considering the congestions caused due to
the pedestrian movements.},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-82&engl=1}
}
@inproceedings {INPROC-2005-42,
author = {Martin Bernreuther and Hans-Joachim Bungartz},
title = {{Molecular Simulation of Fluid Flow on a Cluster of Workstations}},
booktitle = {18th Symposium Simulationstechnique ASIM 2005 Proceedings},
editor = {Frank H{\"u}lsemann and Markus Kowarschik and Ulrich R{\"u}de},
address = {Erlangen},
publisher = {SCS Publishing House},
institution = {University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Germany},
series = {Frontiers in Simulation},
volume = {15},
pages = {117--123},
type = {Conference Paper},
month = {September},
year = {2005},
isbn = {ISBN 3-936150-41-9},
language = {English},
cr-category = {D.1.3 Concurrent Programming,
G.1.0 Numerical Analysis General,
G.4 Mathematical Software,
I.6.8 Types of Simulation,
J.2 Physical Sciences and Engineering},
ee = {http://www10.informatik.uni-erlangen.de/asim2005/},
contact = {Martin Bernreuther Martin.Bernreuther@ipvs.uni-stuttgart.de},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {Simulation of fluid properties and flow below a certain length scale, where the
continuum assumption does not hold any more, has to be done on a molecular
level. Molecular Dynamics (MD) is a proper tool for nanofluidics. The limits of
the system sizes manageable today are pushed not only by advances and
availability of new hardware. It's even more important to achieve enhancements
in the development of fast efficient algorithms and hardware optimized
implementations. High Performance Computing systems and especially Clusters of
Workstations, which turn out to be very well suited for this task, are the
primary target platform for the majority of MD codes today. After a
classification of the flow type addressed here, implementation details and
parallelization strategies will be discussed for MD simulations based on
short-range potentials, suitable for a rich variety of components.},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-42&engl=1}
}
@inproceedings {INPROC-2005-41,
author = {Martin Bernreuther and Hans-Joachim Bungartz},
title = {{Wissenschaftliches Rechnen in der Lehre am Beispiel des Studienprojekts ``Computational Steering - der virtuelle Windkanal''}},
booktitle = {18th Symposium Simulationstechnique ASIM 2005 Proceedings},
editor = {Frank H{\"u}lsemann and Markus Kowarschik and Ulrich R{\"u}de},
address = {Erlangen},
publisher = {SCS Publishing House},
institution = {University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Germany},
series = {Frontiers in Simulation},
volume = {15},
pages = {702--707},
type = {Conference Paper},
month = {September},
year = {2005},
isbn = {ISBN 3-936150-41-9},
language = {German},
cr-category = {D.1.3 Concurrent Programming,
F.1.2 Modes of Computation,
G.1.0 Numerical Analysis General,
G.4 Mathematical Software,
I.6.8 Types of Simulation,
J.2 Physical Sciences and Engineering,
J.6 Computer-Aided Engineering},
ee = {http://www10.informatik.uni-erlangen.de/asim2005/},
contact = {Martin Bernreuther Martin.Bernreuther@ipvs.uni-stuttgart.de},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {The recently finished project ``Computational Steering - the virtual wind
tunnel'' is a team work of nine software engineering students, who worked one
year to develop a software system for the simulation of wind tunnel tests in a
virtual environment. A special feature of the package is the simulation
steering capability, where not only an online visualization of the CFD
simulation results is provided, but also the possiblity to interact with the
simulation during a run in a Virtual Reality environment. To achieve this goal
an intense use of special HPC and VR hardware is indispensable. The software
runs on a distributed system of parallel architectures and was realized on the
department's Linux CoW ``Mozart'', an SGI Onyx multiprocessor visualization
system driving a Powerwall, and a tracking system for user input. The
development process itself is based on software engineering methods while the
student project imitates all phases of a commercial software production
process.},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-41&engl=1}
}
@inproceedings {INPROC-2005-40,
author = {Martin Bernreuther and Markus Brenk and Hans-Joachim Bungartz and Ralf-Peter Mundani and Ioan Lucian Muntean},
title = {{Teaching High-Performance Computing on a High-Performance Cluster}},
booktitle = {Proceedings of the 5th International Conference on Compuatational Science : ICCS 2005; Emory University, Atlanta, USA, May 22-25, 2005},
address = {Atlanta},
publisher = {Springer},
institution = {University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Germany},
series = {Lecture Notes in Computer Science},
pages = {1--9},
type = {Conference Paper},
month = {May},
year = {2005},
language = {English},
cr-category = {D.1.3 Concurrent Programming,
F.1.2 Modes of Computation,
G.1.0 Numerical Analysis General,
G.4 Mathematical Software,
I.6.8 Types of Simulation,
J.2 Physical Sciences and Engineering},
ee = {http://www.iccs-meeting.org/iccs2005/schedule/program.php?show=W01a&showAbstracts=true},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {The university education in parallel and high-performance computing often
suffers from a significant gap between the effects and potential performance
taught in the lectures on the one hand and those practically experienced in
exercises or lab courses on the other hand. With a small number of processors,
the results obtained are often hardly convincing; however, machines crunching
numbers at least a bit are rarely accessible to students doing their first
steps in parallel programming. In this contribution, we present our experiences
of how a state-of-the- art mid-size Linux cluster (64 dual-board P4 nodes with
InfiniBand 4x networking, providing an HPL benchmark performance of almost 0.6
TFlops), bought and operated on a department level primarily for edu- cation
and algorithm development purposes, can be used for teaching a large variety of
HPC aspects such as basics of parallel algorithms, classi- cal tuning, or
hardware-aware programming. Special focus is put on the effects of such an
approach on the intensity and sustainability of learning.},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-40&engl=1}
}
@inproceedings {INPROC-2005-131,
author = {Markus Brenk and Hans-Joachim Bungartz and Miriam Mehl and Ralf-Peter Mundani and Alexander D{\"u}ster and Dominik Scholz},
title = {{Efficient Interface Treatment for Fluid-Structure Interaction on Cartesian Grids}},
booktitle = {Proc. of the ECCOMAS Thematic Conf. on Comp. Methods for Coupled Problems in Science and Engineering},
publisher = {Sonstige},
institution = {University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Germany},
type = {Conference Paper},
month = {January},
year = {2005},
language = {German},
cr-category = {I.6 Simulation and Modeling},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {leer},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-131&engl=1}
}
@inproceedings {INPROC-2005-130,
author = {Miriam Mehl and Christoph Zenger},
title = {{Cache-oblivious parallel multigrid solvers on adaptively refined grids}},
booktitle = {Proceedings of the 18th Symposium Simulationstechnique (ASIM 2005)},
editor = {Frank H{\"u}lsemann and Markus Kowarschik and Ulrich R{\"u}de},
address = {Erlangen},
publisher = {SCS European Publishing House},
institution = {University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Germany},
series = {Fortschritte in der Simulationstechnik - Frontiers in Simulation},
volume = {15},
pages = {173--179},
type = {Conference Paper},
month = {September},
year = {2005},
isbn = {3-936150-41-9},
language = {German},
cr-category = {I.6 Simulation and Modeling},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {leer},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-130&engl=1}
}
@inproceedings {INPROC-2005-108,
author = {Martin Bernreuther and Jadran Vrabec},
title = {{Molecular simulation of fluids with short range potentials}},
booktitle = {High Performance Computing on Vector Systems: Proceedings of the Second Teraflop Workshop; Stuttgart, March 17-18, 2005},
editor = {Michael Resch and Thomas B{\"o}nisch and Katharina Benkert and Toshiyuki Furui and Yoshiki Seo and Wolfgang Bez},
address = {Stuttgart},
publisher = {Springer},
institution = {University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology, Germany},
pages = {187--195},
type = {Conference Paper},
month = {December},
year = {2005},
isbn = {3-540-29124-5},
keywords = {Molecular Dynamics; parallel algorithms; nanofluids; nucleation},
language = {English},
cr-category = {J.2 Physical Sciences and Engineering,
I.6.8 Types of Simulation,
G.4 Mathematical Software,
G.1.0 Numerical Analysis General,
D.1.3 Concurrent Programming},
ee = {http://www.teraflop-workbench.org/htm/events/March_05_Workshop.htm,
http://www.springer.de/3-540-29124-5},
contact = {Martin.Bernreuther Martin.Bernreuther@ipvs.uni-stuttgart.de},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {Molecular modeling and simulation of thermophysical properties using
short-range potentials covers a large variety of real simple fluids and
mixtures. To study nucleation phenomena within a research project, a molecular
dynamics simulation package is developed. The target platform for this software
are Clusters of Workstations (CoW), like the Linux cluster ``Mozart'' with 64
dual nodes, which is available at the Institute of Parallel and Distributed
Systems, or the HLRS cluster ``cacau'', which is part of the Teraflop Workbench.
The used algorithms and data structures are discussed as well as first
simulation results.},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-108&engl=1}
}
@inbook {INBOOK-2005-11,
author = {Markus Langlotz and Miriam Mehl and Tobias Weinzierl and Christoph Zenger},
title = {{High Performance Computing in Science and Engineering, Garching 2004}},
series = {SkvG: Cache-Optimal Parallel Solution of PDEs on High Performance Computers Using Space-Trees and Space-Filling Curves},
address = {Berlin, Heidelberg, New York},
publisher = {Springer-Verlag},
pages = {71--82},
type = {Article in Book},
month = {August},
year = {2005},
isbn = {3-540-26145-1},
language = {German},
cr-category = {I.6 Simulation and Modeling},
department = {University of Stuttgart, Institute of Parallel and Distributed Systems, Simulation of Large Systems},
abstract = {leer},
url = {http://www2.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INBOOK-2005-11&engl=1}
}
