Refine
Year of publication
- 2013 (2)
Document Type
- ZIB-Report (2)
Language
- English (2)
Has Fulltext
- yes (2)
Is part of the Bibliography
- no (2)
Keywords
- Meshfree (2) (remove)
Institute
Obtaining a sufficient sampling of conformational space is a common problem in molecular simulation. We present the implementation of an umbrella-like adaptive sampling approach based on function-based meshless discretization of conformational space that is compatible with state of the art molecular dynamics code and that integrates an eigenvector-based clustering approach for conformational analysis and the computation of inter-conformational transition rates. The approach is applied to three example systems, namely n-pentane, alanine dipeptide, and a small synthetic host-guest system, the latter two including explicitly modeled solvent.
It is the ultimate goal of concurrent multiscale methods to
provide computational tools that allow to simulation physical processes
with the accuracy of micro-scale and the computational speed of
macro-scale models. As a matter of fact, the efficient and scalable
implementation of concurrent multiscale methods on clusters and supercomputers
is a complicated endeavor. In this article we present the parallel
multiscale simulation tool MACI which has been designed for
efficient coupling between molecular dynamics and finite element codes.
We propose a specification for a thin yet versatile interface for the
coupling of molecular dynamics and finite element codes in a modular
fashion. Further we discuss the parallelization strategy pursued in
MACI, in particular, focusing on the parallel assembly of transfer
operators and their efficient execution.