Difference between revisions of "Dominic Röhm"

From ICPWiki
Jump to navigation Jump to search
Line 14: Line 14:
 
several boundary conditions.  For this reason the use of the
 
several boundary conditions.  For this reason the use of the
 
multiple-relaxation-time lattice Boltzmann model is required to
 
multiple-relaxation-time lattice Boltzmann model is required to
include thermal fluctuations. With ESPResSo one is able to simulate
+
include thermal fluctuations. Our Institute is focused on dynamic simulation of systems
the behavior of charged (el. or mag.)  particles or polymers within a
 
solvent. Our Institute is focused on dynamic simulation of systems
 
 
with large particle numbers.  To handle large particle numbers one has
 
with large particle numbers.  To handle large particle numbers one has
 
to generate and use massively parallel software. Due to this, the goal
 
to generate and use massively parallel software. Due to this, the goal
Line 22: Line 20:
 
Boltzmann solver which uses the advantages of modern GPUs. This code
 
Boltzmann solver which uses the advantages of modern GPUs. This code
 
will be implemented into the ESPResSo code, and will be able to couple
 
will be implemented into the ESPResSo code, and will be able to couple
the MD particles to the LB fluid.
+
the MD particles to the LB fluid. With ESPResSo one is able to simulate
 +
the behavior of charged (el. or mag.)  particles or polymers within a
 +
solvent.
  
 
== Publications ==
 
== Publications ==

Revision as of 09:11, 13 September 2010

Dominic Röhm
Diploma Student
Office:210
Phone:+49 711 685-63594
Fax:+49 711 685-63658
Email:Dominic.Roehm _at_ icp.uni-stuttgart.de
Address:Dominic Röhm
Institute for Computational Physics
Universität Stuttgart
Allmandring 3
70569 Stuttgart
Germany

Diploma Thesis

Lattice-Boltzmann-Simulations on GPUs

I am writing my diploma theses about Lattice-Boltzmann theory (D3Q19) for simulating particles within a thermal solvent with usage of several boundary conditions. For this reason the use of the multiple-relaxation-time lattice Boltzmann model is required to include thermal fluctuations. Our Institute is focused on dynamic simulation of systems with large particle numbers. To handle large particle numbers one has to generate and use massively parallel software. Due to this, the goal of my diploma thesis is to create a massively parallel Lattice Boltzmann solver which uses the advantages of modern GPUs. This code will be implemented into the ESPResSo code, and will be able to couple the MD particles to the LB fluid. With ESPResSo one is able to simulate the behavior of charged (el. or mag.) particles or polymers within a solvent.

Publications

Curriculum vitae

Scientific education

Oct. 2005 - ... (May. 2011) Studies of Physics at the University of Stuttgart