A multidisciplinary, collaborative simulation has been performed on a Grid of geographically distributed PC clusters. The multiscale simulation approach seamlessly combines i) atomistic simulation based on the molecular dynamics (MD) method and ii) quantum mechanical (QM) calculation based on the density functional theory (DFT), so that accurate but less scalable computations are performed only where they are needed. The multiscale MD/QM simulation code has been Grid-enabled using i) a modular, additive hybridization scheme, ii) multiple QM clustering, and iii) computation/communication overlapping. The Gridified MD/QM simulation code has been used to study environmental effects of water molecules on fracture in silicon. A preliminary run o...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
The understanding of H diffusion in materials is pivotal to designing suitable processes. Though a n...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
A multidisciplinary, collaborative simulation has been performed on a Grid of geographically distrib...
Molecular dynamics simulations are able to predict structural, dynamical and energetic properties of...
Recent advances in quantum mechanical (QM)-based molecular dynamics (MD) simulations have used machi...
Our goal was to investigate the suitability of parallel supercomputer architectures for Quantum Mont...
The past several decades have witnessed tremendous strides in the capabilities of computational chem...
A suite of scalable atomistic simulation programs has been developed for materials research based on...
High‐Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge technologies f...
Multi-scale computer simulations combine the computationally efficient classical algorithms with mor...
The distributed computing infrastructure (DCI) on the basis of BOINC andEDGeS-bridge technologies fo...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
Abstract. The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge tech...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
The understanding of H diffusion in materials is pivotal to designing suitable processes. Though a n...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
A multidisciplinary, collaborative simulation has been performed on a Grid of geographically distrib...
Molecular dynamics simulations are able to predict structural, dynamical and energetic properties of...
Recent advances in quantum mechanical (QM)-based molecular dynamics (MD) simulations have used machi...
Our goal was to investigate the suitability of parallel supercomputer architectures for Quantum Mont...
The past several decades have witnessed tremendous strides in the capabilities of computational chem...
A suite of scalable atomistic simulation programs has been developed for materials research based on...
High‐Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge technologies f...
Multi-scale computer simulations combine the computationally efficient classical algorithms with mor...
The distributed computing infrastructure (DCI) on the basis of BOINC andEDGeS-bridge technologies fo...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
Abstract. The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge tech...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
The understanding of H diffusion in materials is pivotal to designing suitable processes. Though a n...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
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