Computer simulations of experimentally comparable system sizes in soft matter often require considerable elapsed times. The use of many cores can reduce the needed time, ideally proportionally to the number of processors. In this paper a parallel computational method using coarray Fortran is implemented and tested for large systems of purely block copolymer melts, as well as block copolymer nanocomposites. A satisfactory strong scaling is shown up to 512 cores while a weak scaling with a drop in performance is achieved up to 4096 cores. The scaling of the parallel cell dynamic simulations scheme displays no drawbacks over MPI and provides an example of the simplicity of the coarray approach. The code has been tested on several architectures...
The exponential growth of computing power that we have been used-to since years is about to face new...
The distributed computing infrastructure (DCI) on the basis of BOINC andEDGeS-bridge technologies fo...
Block copolymer melts self-assemble in the bulk into a variety of nanostructures, making them perfec...
Computer simulations of experimentally comparable system sizes in soft matter often require consider...
Block copolymers and nanoparticles are elements of the soft matter family which includes...
© 2013 American Physical SocietyThis article introduces a highly parallel algorithm for molecular dy...
AbstractThe capabilities of polymer science and computational chemistry are reaching a point of conv...
AbstractWe investigate new programming techniques for parallel tempering Monte Carlo simulations of ...
We present a hybrid MPI-OpenMP implementation of Linear-Scaling Density Functional Theory within the...
Abstract. The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge tech...
The distributed computing infrastructure (DCI) on the basis of BOINC andEDGeS-bridge technologies fo...
Multi-component polymer systems are important for the development of new materials because of their ...
We discuss the advantages of parallelization by multithreading on graphics processing units (GPUs) f...
The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge technologies f...
This investigation is held within the GRICCA research group from the UPC (Grup de Reserca e Investig...
The exponential growth of computing power that we have been used-to since years is about to face new...
The distributed computing infrastructure (DCI) on the basis of BOINC andEDGeS-bridge technologies fo...
Block copolymer melts self-assemble in the bulk into a variety of nanostructures, making them perfec...
Computer simulations of experimentally comparable system sizes in soft matter often require consider...
Block copolymers and nanoparticles are elements of the soft matter family which includes...
© 2013 American Physical SocietyThis article introduces a highly parallel algorithm for molecular dy...
AbstractThe capabilities of polymer science and computational chemistry are reaching a point of conv...
AbstractWe investigate new programming techniques for parallel tempering Monte Carlo simulations of ...
We present a hybrid MPI-OpenMP implementation of Linear-Scaling Density Functional Theory within the...
Abstract. The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge tech...
The distributed computing infrastructure (DCI) on the basis of BOINC andEDGeS-bridge technologies fo...
Multi-component polymer systems are important for the development of new materials because of their ...
We discuss the advantages of parallelization by multithreading on graphics processing units (GPUs) f...
The distributed computing infrastructure (DCI) on the basis of BOINC and EDGeS-bridge technologies f...
This investigation is held within the GRICCA research group from the UPC (Grup de Reserca e Investig...
The exponential growth of computing power that we have been used-to since years is about to face new...
The distributed computing infrastructure (DCI) on the basis of BOINC andEDGeS-bridge technologies fo...
Block copolymer melts self-assemble in the bulk into a variety of nanostructures, making them perfec...