Parallel simulations have become a powerwul tool in several scientific areas. To simulate complex phenomena, these simulations are running on large parallel machines. The computational power available on those machines has increased a lot in the last years allowing to simulate very large models. Unfortunately, the I/O capabilities necessary to save the data produced by simulation has not grown at the same pace. Nowadays, it is already difficult to save all the needed data and to have enough computational power to analyse them afterwards. At the exascale time frame, it is expected that less than 1% of the total data produced by simulations will be saved. Yet, these data may lead to major discoveries. In-situ analytics are a promising solutio...
Next-generation computing systems are expected to have dramatically higher performance than current ...
AbstractCombining molecular dynamics simulations with user interaction would have various applicatio...
During its execution, Molecular Dynamic (MD) simulations output molecular trajectories that are anal...
Parallel simulations have become a powerwul tool in several scientific areas. To simulate complex ph...
Les simulations paralllèles sont devenues des outils indispensables dans de nombreux domaines scient...
International audienceHigh performance computing systems are today composed of tens of thousands of ...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
The exascale era will widen the gap between data generation rate and the time to manage their output...
International audienceCombining molecular dynamics simulations with user interaction would have vari...
L’ère de l’exascale creusera encore plus l’écart entre la vitesse de génération des données de simul...
International audienceThe amount of data generated by molecular dynamics simulations of large molecu...
The need for more computing power for scientific applications leads supercomputer manufacturers to r...
International audienceIn situ processing proposes to reduce storage needs and I/O traffic by process...
Next-generation computing systems are expected to have dramatically higher performance than current ...
AbstractCombining molecular dynamics simulations with user interaction would have various applicatio...
During its execution, Molecular Dynamic (MD) simulations output molecular trajectories that are anal...
Parallel simulations have become a powerwul tool in several scientific areas. To simulate complex ph...
Les simulations paralllèles sont devenues des outils indispensables dans de nombreux domaines scient...
International audienceHigh performance computing systems are today composed of tens of thousands of ...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
The exascale era will widen the gap between data generation rate and the time to manage their output...
International audienceCombining molecular dynamics simulations with user interaction would have vari...
L’ère de l’exascale creusera encore plus l’écart entre la vitesse de génération des données de simul...
International audienceThe amount of data generated by molecular dynamics simulations of large molecu...
The need for more computing power for scientific applications leads supercomputer manufacturers to r...
International audienceIn situ processing proposes to reduce storage needs and I/O traffic by process...
Next-generation computing systems are expected to have dramatically higher performance than current ...
AbstractCombining molecular dynamics simulations with user interaction would have various applicatio...
During its execution, Molecular Dynamic (MD) simulations output molecular trajectories that are anal...