Multiscale analysis provides an algorithm for the efficient simulation of macromolecular assemblies. This algorithm involves the coevolution of a quasiequilibrium probability density of atomic configurations and the Langevin dynamics of spatial coarse-grained variables denoted order parameters (OPs) characterizing nanoscale system features. In practice, implementation of the probability density involves the generation of constant OP ensembles of atomic configurations. Such ensembles are used to construct thermal forces and diffusion factors that mediate the stochastic OP dynamics. Generation of all-atom ensembles at every Langevin time step is computationally expensive. Here, multiscale computation for macromolecular systems is made more ef...
Coarse-grained features of macromolecular assemblies are understood via a set of order parameters (O...
In this dissertation, we introduce a novel accelerated-stochastic simulation method, known as the ‘p...
Multiscale Molecular Dynamics is a popular trend in the field of computational chemistry and physics...
Multiscale analysis provides an algorithm for the efficient simulation of macromolecular assemblies....
Many mesoscopic N-atom systems derive their structural and dynamical properties from processes coupl...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
We describe a novel coarse grained simulation method for modelling the dynamics of globular macromol...
International audienceDescription of macromolecular materials involves numerous computational challe...
Thesis (Ph.D.) - Indiana University, Chemistry, 2009Viruses are composed of millions of atoms functi...
Abstract. We present and discuss a framework for computer-aided multiscale analysis, which enables m...
The 60's gave birth to the practical implementation of classical mechanics to unravel the dynamics a...
A coarse-graining (CG) approach is developed to infer mesoscale interaction potentials in aggregatin...
Macromolecular assemblies often display a hierarchical organization of macromolecules or their subas...
ABSTRACT: Mesoscopic N-atom systems derive their structural and dynamical properties from processes ...
We review the state-of-the-art in computational molecular simulations for biological systems. We lim...
Coarse-grained features of macromolecular assemblies are understood via a set of order parameters (O...
In this dissertation, we introduce a novel accelerated-stochastic simulation method, known as the ‘p...
Multiscale Molecular Dynamics is a popular trend in the field of computational chemistry and physics...
Multiscale analysis provides an algorithm for the efficient simulation of macromolecular assemblies....
Many mesoscopic N-atom systems derive their structural and dynamical properties from processes coupl...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
We describe a novel coarse grained simulation method for modelling the dynamics of globular macromol...
International audienceDescription of macromolecular materials involves numerous computational challe...
Thesis (Ph.D.) - Indiana University, Chemistry, 2009Viruses are composed of millions of atoms functi...
Abstract. We present and discuss a framework for computer-aided multiscale analysis, which enables m...
The 60's gave birth to the practical implementation of classical mechanics to unravel the dynamics a...
A coarse-graining (CG) approach is developed to infer mesoscale interaction potentials in aggregatin...
Macromolecular assemblies often display a hierarchical organization of macromolecules or their subas...
ABSTRACT: Mesoscopic N-atom systems derive their structural and dynamical properties from processes ...
We review the state-of-the-art in computational molecular simulations for biological systems. We lim...
Coarse-grained features of macromolecular assemblies are understood via a set of order parameters (O...
In this dissertation, we introduce a novel accelerated-stochastic simulation method, known as the ‘p...
Multiscale Molecular Dynamics is a popular trend in the field of computational chemistry and physics...