GROMACS is a widely used package for biomolecular simulation, and over the last two decades it has evolved from small-scale efficiency to advanced heterogeneous acceleration and multi-level parallelism targeting some of the largest supercomputers in the world. Here, we describe some of the ways we have been able to realize this through the use of parallelization on all levels, combined with a constant focus on absolute performance. Release 4.6 of GROMACS uses SIMD acceleration on a wide range of architectures, GPU offloading acceleration, and both OpenMP and MPI parallelism within and between nodes, respectively. The recent work on acceleration made it necessary to revisit the fundamental algorithms of molecular simulation, including the co...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
High‐Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
One of the main problems in providing the amount of computation requested by the Molecular Dynamic d...
GROMACS is a widely used package for biomolecular simulation, and over the last two decades it has e...
GROMACS is a widely used package for biomolecular sim- ulation, and over the last two decades it has...
GROMACS is one of the most widely used open-source and free software codes in chemistry, used primar...
AbstractGROMACS is one of the most widely used open-source and free software codes in chemistry, use...
Supplementary information for Páll, S., Zhmurov, A., Bauer, P., Abraham, M., Lundborg, M., Gray, A.,...
This article presents the parallel implementation of a new multiscale model that is currently develo...
This article presents the GPU parallelization of new algorithms SD and DPD types for molecular dynam...
Despite the impending flattening of Moore's law, the system size, complexity, and length of molecula...
Abstract GROMACS is a widely used molecular dynamics simulation package known for its versatility, ...
The work aims at evaluating the performance of GROMACS on different platforms and and determine the ...
A parallel message-passing implementation of a molecular dynamics (MD) program that is useful for bi...
This source code contains the GROMACS version used for the following manuscript: Páll, S., Zhmurov, ...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
High‐Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
One of the main problems in providing the amount of computation requested by the Molecular Dynamic d...
GROMACS is a widely used package for biomolecular simulation, and over the last two decades it has e...
GROMACS is a widely used package for biomolecular sim- ulation, and over the last two decades it has...
GROMACS is one of the most widely used open-source and free software codes in chemistry, used primar...
AbstractGROMACS is one of the most widely used open-source and free software codes in chemistry, use...
Supplementary information for Páll, S., Zhmurov, A., Bauer, P., Abraham, M., Lundborg, M., Gray, A.,...
This article presents the parallel implementation of a new multiscale model that is currently develo...
This article presents the GPU parallelization of new algorithms SD and DPD types for molecular dynam...
Despite the impending flattening of Moore's law, the system size, complexity, and length of molecula...
Abstract GROMACS is a widely used molecular dynamics simulation package known for its versatility, ...
The work aims at evaluating the performance of GROMACS on different platforms and and determine the ...
A parallel message-passing implementation of a molecular dynamics (MD) program that is useful for bi...
This source code contains the GROMACS version used for the following manuscript: Páll, S., Zhmurov, ...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
High‐Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
One of the main problems in providing the amount of computation requested by the Molecular Dynamic d...