Multiscale Simulation Methods in Molecular Sciences

Winter School, 2-6 March 2009, Forschungszentrum Jülich, Germany

Start

2nd March 2009 08:45 AM

End

6th March 2009 01:30 PM

Scope

Computational techniques in the realm of molecular sciences, which cover much of those parts of physics, chemistry and biology that deal with molecules, are well established in terms of extremly powerful but highly specialized approaches such as band structure calculation, quantum chemistry and biomolecular simulation, respectively. This is, for instance, nicely demonstrated by the series of NIC Winter Schools that was devoted over the years to several well-defined and mature areas like "Quantum Chemistry" (2000), "Quantum Many-Body Systems" (2002),"Soft Matter" (2004), or "Nanoscience" (2006).

However, more and more problems tackled in experiments, which became truely molecular in the sense of accessible length and time scales using scanning probe techniques and femtosecond spectroscopy to name but two prominent examples, require to cover several aspects at once. In most cases it is various length-scales and/or time-scales covered by separate computational techniques that need to be intimately connected, or at least traversed, in order to establish a fruitful crosslink between research in the real laboratory and in "virtual lab". This is right at the heart of what the Winter School series aims at addressing in 2009 after having covered the state-of-the-art in many specialized areas that is documented by the publications of several elaborate volumes of Lecture Notes in the NIC publication series (available free of charge for download).

In a nutshell, the Winter School 2009 deals with what we would like to call "eclecticism in simulation". The definition of eclecticism currently found in Wikipedia, i.e. "a conceptual approach that does not hold rigidly to a single paradigm or set of assumptions, but instead draws upon multiple theories, styles, or ideas to gain complementary insights into a subject, or applies different theories in particular cases" although not (yet) with reference to the Sciences but only to Architecture, Music and Psychology among others, captures perfectly the situation that we encounter.

In particular three strings of themes will be covered focusing on how to deal with hard matter, soft matter, and bio matter when it is necessary to cope with disparate length and time scales. Therein aspects like coarse graining of molecular systems and solids, quantum/classical hybrid methods,embedding and multiple time step techniques, creating reactive potentials, multiscale magnetism, adaptive resolution ideas or hydrodynamic interactions will be discussed in detail. In addition, another string of lectures will be devoted to the genuine mathematical and the generic algorithmic aspects of multiscale approaches and their parallel implementation on large, multiprocessor platforms including techniques such as multigrid and wavelet transformations. Although this is beyond what can be achieved in a very systematic fashion given the breadth of the topic, introductions into fundamental techniques such as molecular dynamics, Monte Carlo simulation, and electronic structure (total energy) calculations in the flavor of both wavefunction-based and density-based methods will be provided.

It is clear to the organizers that multiscale simulation is a rapidly evolving and multifaceted field that is far from being coherent and from becoming mature in the near future given unresolved challenges of connecting, in a conceptually sound and theoretically clean fashion, various length and time scales. Still, we think that time is come to organize a Winter School on the very topic in order to provide at least a glimpse at what is going on to the upcoming generation.

Participants of the Winter School "Multiscale Simulation Methods in Molecular Sciences" 2009

Proceedings

The proceedings have been published in the NIC Series:

Multiscale Simulation Methods in Molecular Sciences - Lecture Notes
Winter School, 2 - 6 March 2009, Forschungszentrum Jülich,
edited by Johannes Grotendorst, Norbert Attig, Stefan Blügel, Dominik Marx
NIC Series 42
ISBN 978-3-9810843-8-2
March 2009, vi, 576 pp.
Multiscale Simulation Methods in Molecular Sciences - Lecture Notes (pdf, 16 MB)

Posters

All participants were kindly invited to submit posters on topics from research and development in their working group or on their own work. The one-page abstracts are included in the book.

Cover of "Multiscale Simulation Methods in Molecular Sciences" 2009 - Poster Presentations

Multiscale Simulation Methods in Molecular Sciences - Poster Presentations
Johannes Grotendorst, Norbert Attig, Stefan Blügel, Dominik Marx (Editors)
Winter School, 2 - 6 March 2009, Forschungszentrum Jülich
March 2009, 58 pages
"Multiscale Simulation Methods in Molecular Sciences" 2009 - Poster Presentations (PDF, 5 MB)

Organization

Scientific Programme Committee:

Johannes Grotendorst
Institute for Advanced Simulation, Jülich Supercomputing Centre, Forschungszentrum Jülich

Norbert Attig
Institute for Advanced Simulation, Jülich Supercomputing Centre, Forschungszentrum Jülich

Stefan Blügel
Institute of Solid State Research & Institute for Advanced Simulation, Forschungszentrum Jülich

Dominik Marx
Chair of Theoretical Chemistry, Ruhr-Universität Bochum

The organizing team at Forschungszentrum Jülich includes
Erika Wittig, Monika Marx, Eva Mohr

Programme

Programme of Winter School "Multiscale Simulation Methods in Molecular Sciences" (pdf, 20 kB)

Monday, 2 March 2009

09:45-10:00	Opening Thomas Lippert
10:00-11:00	Large Spatiotemporal-Scale Material Simulations on Petaflops Computers Aiichiro Nakano
11:00-11:30	Coffee Break
11:30-12:30	Molecular Dynamics - Extending the Scale from Microscopic to Mesoscopic Godehard Sutmann
12:30-14:30	Lunch Break
14:30-15:30	Introduction to Multigrid Methods for Elliptic Boundary Value Problems Arnold Reusken
15:30-16:30	Eletronic Structure: Hartree -Fock and Correlation Methods Christof Hättig
16:30-17:00	Coffee Break
17:00-18:00	Monte Carlo and Kinetic Monte Carlo Methods – A Tutorial Peter Kratzer
Evening	Reception and Get-Together

Tuesday, 3 March 2009

09:00-10:00	Density Functional Theory and Linear Scaling Rudolf Zeller
10:00-11:00	QM/MM Methodology: Fundamentals, Scope, and Limitations Walter Thiel
11:00-11:30	Coffee Break
11:30-12:30	Soft Matter, Fundamentals and Coarse Graining Strategies Kurt Kremer
12:30-14:30	Lunch Break
14:30-15:30	Introduction to Parallel Computing Bernd Mohr
15:30-16:30	Adaptive Resolution Schemes Luigi Delle Site
16:30-17:00	Coffee Break
17:00-18:00	Multiscale Modelling of Magnetic Materials: From the Total Energy of the Homogeneous Electron Gas to the Curie Temperature of Ferromagnets Phivos Mavropoulos
Evening	Poster-Session I

Wednesday, 4 March 2009

09:00-10:00	DFT Embedding and Coarse Graining Techniques Mike Payne
10:00-11:00	De Novo Protein Folding with Distributed Computational Resources Wolfgang Wenzel
11:00-11:30	Coffee Break
11:30-12:30	An Introduction to the Tight Binding Approximation – Implementation by Diagonalisation Anthony T. Paxton
12:30-14:30	Lunch Break
14:30-15:30	Strategies for Implementing Scientific Applications on Parallel Computers Bernd Körfgen
15:30-16:30	Practical Session
16:30-17:00	Coffee Break
17:00-18:00	Practical Session
Evening	Poster-Session II

Thursday, 5 March 2009

09:00-10:00	Two Topics in Ab Initio Molecular Dynamics: Multiple Length Scales and Exploration of Free-Energy Surfaces Mark E. Tuckerman
10:00-11:00	Multiscale Methods for the Description of Chemical Events in Biological Systems Marcus Elstner
11:00-11:30	Coffee Break
11:30-12:30	Wavelets and Their Application for the Solution of Poisson’s and Schrödinger’s Equation Stefan Goedecker
12:30-14:30	Lunch Break
14:30-15:30	Bond-Order Potentials for Bridging the Electronic to Atomistic Modelling Hierarchies Ralf Drautz
15:30-16:30	First-Principles Statistical Mechanics Approaches to Surface Physics and Catalysis Karsten Reuter
16:30-17:00	Coffee Break
17:00-18:00	First-Principles Based Multiscale Modelling of Alloys Stefan Müller
Evening	Conference Dinner

Friday, 6 March 2009

09:00-10:00	Coarse Grained Electronic Structure Using Neural Networks Jörg Behler
10:00-11:00	Computer Simulations of Systems with Hydrodynamic Interactions: The Coupled Molecular Dynamics – Lattice Boltzmann Approach Burkhard Dünweg
11:00-11:30	Coffee Break
11:30-12:30	Application of Residue-Based and Shape-Based Coarse Graining to Biomolecular Simulations Klaus Schulten
12:30-14:30	Lunch Break

List of Speakers

Dr. Jörg Behler
Center for Theoretical Chemistry, Ruhr-Universität Bochum, Germany
Coarse Grained Electronic Structure Using Neural Networks

Dr. Luigi Delle Site
Max-Planck Institute for Polymer Research, Mainz, Germany
Adaptive Resolution Schemes

Prof. Dr. Ralf Drautz
Interdisciplinary Centre for Advanced Materials Simulation, Ruhr-Universität Bochum, Germany
Bond-Order Potentials for Bridging the Electronic to Atomistic Modelling Hierarchies

Prof. Dr. Burkhard Dünweg
Max-Planck Institute for Polymer Research, Mainz, Germany
Computer Simulations of Systems with Hydrodynamic Interactions: The Coupled Molecular Dynamics – Lattice Boltzmann Approach

Prof. Dr. Marcus Elstner
Institute for Physical and Theoretical Chemistry, Technische Universität Braunschweig, Germany
Multiscale Methods for the Description of Chemical Events in Biological Systems

Prof. Dr. Stefan Goedecker
Department of Physics und Astronomy, University of Basel, Switzerland
Wavelets and Their Application for the Solution of Poisson's and Schrödinger's Equation

Prof. Dr. Christof Hättig
Center for Theoretical Chemistry, Ruhr-Universität Bochum, Germany
Electronic Structure:
Hartree-Fock and Correlation Methods

Dr. Bernd Körfgen
Institute for Advanced Simulation - Jülich Supercomputing Centre, Forschungszentrum Jülich, Germany
Strategies for Implementing Scientific Applications on Parallel Computers

Prof. Dr. Peter Kratzer
Department of Physics, Universität Duisburg-Essen, Germany
Monte Carlo and Kinetic Monte Carlo Methods – A Tutorial

Prof. Dr. Kurt Kremer
Max-Planck Institute for Polymer Research, Mainz, Germany
Soft Matter, Fundamentals and Coarse Graining Strategies

Dr. Phivos Mavropoulos
Institute of Solid State Research, Forschungszentrum Jülich, Germany
Multiscale Modelling of Magnetic Materials: From the Total Energy of the Homogeneous Electron Gas to the Curie Temperature of Ferromagnets

Dr. Bernd Mohr
Institute for Advanced Simulation - Jülich Supercomputing Centre, Forschungszentrum Jülich, Germany
Introduction to Parallel Computing

Prof. Dr. Stefan Müller
Institute of Condensed Matter Physics, Universität Erlangen-Nürnberg, Germany
First-Principles Based Multiscale Modelling of Alloys

Prof. Dr. Aiichiro Nakano
Collaboratory for Advanced Computing and Simulations (CACS), University of Southern California, Los Angeles, California
Large Spatiotemporal-Scale Material Simulations on Petaflops Computers

Prof. Dr. Mike Payne
Cavendish Laboratory, University of Cambridge, United Kingdom
DFT Embedding and Coarse Graining Techniques

Prof. Dr. Anthony T. Paxton
Department of Physics and Astronomy, Queen's University Belfast, United Kingdom
An Introduction to the Tight Binding Approximation – Implementation by Diagonalisation

Prof. Dr. Arnold Reusken
Institute for Geometry and Applied Mathematics, RWTH Aachen University, Germany
Introduction to Multigrid Methods for Elliptic Boundary Value Problems

Dr. Karsten Reuter
Fritz Haber Institute, Max-Planck Society, Berlin, Germany
First-Principles Statistical Mechanics Approaches to Surface Physics and Catalysis

Dr. Godehard Sutmann
Institute for Advanced Simulation - Jülich Supercomputing Centre, Forschungszentrum Jülich, Germany
Molecular Dynamics - Extending the Scale from Microscopic to Mesoscopic

Prof. Dr. Klaus Schulten
Beckman Institute, University of Illinois at Urbana-Champaign
Application of Residue-Based and Shape-Based Coarse Graining to Biomolecular Simulations

Prof. Dr. Walter Thiel
Max Planck Institute for Coal Research, Mülheim an der Ruhr, Germany
QM/MM Methodology: Fundamentals, Scope, and Limitations

Prof. Dr. Mark E. Tuckerman
Department of Chemistry and Courant Institute of Mathematical Sciences, New York University
Two Topics in Ab Initio Molecular Dynamics: Multiple Length Scales and Exploration of Free-Energy Surfaces

Dr. Wolfgang Wenzel
Institut für Nanotechnologie, Forschungszentrum Karlsruhe, Germany
De Novo Protein Folding with Distributed Computational Resources

Dr. Rudolf Zeller
Institute of Solid State Research, Forschungszentrum Jülich, Germany
Density Functional Theory and Linear Scaling

Venue

Invitation poster

Save to calendar (ICS)

Last Modified: 13.04.2026

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