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DOE ACTS COLLECTION Workshop
Robust and High Performance Tools for Scientific Computing
September 4-7, 2002
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Massimiliano Fatica
Center for Integrated Turbulence SImulations
Stanford University
Computational Problem:
- Immersed boundary method for incompressible flow.
- Large Eddy Simulation.
- Multigrid.
- Performance tuning
Abstract
I am interested in several aspects of high performance
computing related to computational fluid dynamics.
I also help several application developers in our ASCI
alliance center in optimizing their applications.
I would like to learn more on the available tools and
libraries.
Publications:
- R. Verzicco, M. Fatica, G. Iaccarino, P. Moin and B.
Khaligi
Large eddy simulation of a road-vehicle with drag
reduction devices
CTR Manuscript 2001, Stanford University
- H-J. Kaltenbach, M. Fatica, R. Mittal, T.S. Lund and P.
Moin
Study of flow in a planar asymmetric diffuser using
large-eddy simulation .
Journal of Fluid Mechanics vol. 390, pp. 151--187,
(1999).
- M. Briscolini, M. Fatica
Direct numerical simulations of turbulent pipe flow via a
portable message-passing code.
Parallel Computational Fluid Dynamics: Algorithms and
Results Using Advanced Computers,
ed. Schiano, Ecer, Periaux and Satofuka, Elsevier
Science (1997)