For the purpose of molecular dynamics simulations of large biopolymers we have built a parallel computer with a systolic loop architecture, based on Transputers as computational units, and have programmed it in Occam 11. The computational nodes of the computer are linked together in a systolic ring. The program based on this .topology for large biopolymers increases its computational throughput nearly linearly with the number of computational nodes. The program developed is closely related to the simulation programs CHARMM and XPLOR, the input files required (force field, protein structure file, coordinates) and output files generated (sets of atomic coordinates representing dynamic trajectories and energies) are compatible with the corresp...
The group for computer-aided chemistry at the ETH Zurich focuses its research on the development of ...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
Molecular dynamics simulations play an increasingly important role in the rational design of (nano)-...
For the purpose of molecular dynamics simulations of large biopolymers we have built a parallel comp...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
For the purpose of molecular dynamics simulations of large biopolymers we have developed a new metho...
This paper is concerned with the development of techniques for massively parallel computation at th...
Molecular dynamics simulation has become an important tool for testing and developing hypotheses abo...
Molecular dynamics (MD) simulations are a powerful tool for describing the structure, dynamics, and ...
Major computational challenges have historically prevented molecular dynamics simulations of biomole...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
We have developed and built several clusters of Personal Computers (PCs) that we use to perform para...
International audienceThis article outlines the recent developments in the field of large-scale para...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
The group for computer-aided chemistry at the ETH Zurich focuses its research on the development of ...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
Molecular dynamics simulations play an increasingly important role in the rational design of (nano)-...
For the purpose of molecular dynamics simulations of large biopolymers we have built a parallel comp...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
For the purpose of molecular dynamics simulations of large biopolymers we have developed a new metho...
This paper is concerned with the development of techniques for massively parallel computation at th...
Molecular dynamics simulation has become an important tool for testing and developing hypotheses abo...
Molecular dynamics (MD) simulations are a powerful tool for describing the structure, dynamics, and ...
Major computational challenges have historically prevented molecular dynamics simulations of biomole...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
We have developed and built several clusters of Personal Computers (PCs) that we use to perform para...
International audienceThis article outlines the recent developments in the field of large-scale para...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
The group for computer-aided chemistry at the ETH Zurich focuses its research on the development of ...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
Molecular dynamics simulations play an increasingly important role in the rational design of (nano)-...