Next-generation exascale systems will fundamentally expand the reach of biomolecular simulations and the resulting scientific insight, enabling the simulation of larger biological systems (weak scaling), longer timescales (strong scaling), more complex molecular interactions, and robust uncertainty quantification (more accurate sampling). Since currently envisioned exascale hardware architectures are essentially larger versions of systems available today, it will be challenging to solve biological problems that require longer timescales, involve more complex interactions and robust uncertainty quantification without significant algorithmic improvements. We believe that high-level simulation algorithms incorporating high-level parallelism an...
Future hardware development will have a significant impact on all areas of scientific computing incl...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
Future software and hardware development will have a significant impact on all areas of scientific c...
Molecular simulations increasingly seek to estimate numerical quantities rather than yield single “m...
Exascale computing has been a dream for ages and is close to becoming a reality that will impact how...
Exascale computing has been a dream for ages and is close to becoming a reality that will impact how...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
Biomolecular simulations play a key role in the study of complex biological processes at microscopic...
The amount of data generated by molecular dynamics simulations of large molec-ular assemblies and th...
Despite the impending flattening of Moore's law, the system size, complexity, and length of molecula...
GROMACS is a widely used package for biomolecular simulation, and over the last two decades it has e...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
Agent-based modelling has proven its usefulness in several biomedical projects by explaining and unc...
Future hardware development will have a significant impact on all areas of scientific computing incl...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
Future software and hardware development will have a significant impact on all areas of scientific c...
Molecular simulations increasingly seek to estimate numerical quantities rather than yield single “m...
Exascale computing has been a dream for ages and is close to becoming a reality that will impact how...
Exascale computing has been a dream for ages and is close to becoming a reality that will impact how...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
Biomolecular simulations play a key role in the study of complex biological processes at microscopic...
The amount of data generated by molecular dynamics simulations of large molec-ular assemblies and th...
Despite the impending flattening of Moore's law, the system size, complexity, and length of molecula...
GROMACS is a widely used package for biomolecular simulation, and over the last two decades it has e...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...
Agent-based modelling has proven its usefulness in several biomedical projects by explaining and unc...
Future hardware development will have a significant impact on all areas of scientific computing incl...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
Biomolecular simulation is increasingly central to understanding and designing biological molecules ...