International audienceNumerical simulations using supercomputers are producing an ever growing amount of data. Efficient production and analysis of these data are the key to future discoveries. The in situ paradigm is emerging as a promising solution to avoid the I/O bottleneck encountered in the file system for both the simulation and the analytics by treating the data as soon as they are produced in memory. Various strategies and implementations have been proposed in the last years to support in situ treatments with a low impact on the simulation performance. Yet, little efforts have been made when it comes to perform in situ analytics with hybrid simulations supporting accelerators like GPUs. In this article, we propose a study of the in...
The exascale era will widen the gap between data generation rate and the time to manage their output...
High-Performance Computing (HPC) systems provide input/output (IO) performance growing relatively sl...
Next-generation computing systems are expected to have dramatically higher performance than current ...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
International audienceHigh performance computing systems are today composed of tens of thousands of ...
Parallel simulations have become a powerwul tool in several scientific areas. To simulate complex ph...
The molecular dynamics simulation package GROMACS runs efficiently on a wide variety of hardware fro...
International audienceIn situ processing proposes to reduce storage needs and I/O traffic by process...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
The molecular dynamics simulation package GROMACS runs efficiently on a wide variety of hardware fro...
Les simulations paralllèles sont devenues des outils indispensables dans de nombreux domaines scient...
International audienceThe amount of data generated by numerical simulations in various scientific do...
GROMACS is a widely used package for biomolecular simulation, and over the last two decades it has e...
This paper targets an important class of applications that requires combining HPC simulations with d...
GROMACS is a widely used package for biomolecular sim- ulation, and over the last two decades it has...
The exascale era will widen the gap between data generation rate and the time to manage their output...
High-Performance Computing (HPC) systems provide input/output (IO) performance growing relatively sl...
Next-generation computing systems are expected to have dramatically higher performance than current ...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
International audienceHigh performance computing systems are today composed of tens of thousands of ...
Parallel simulations have become a powerwul tool in several scientific areas. To simulate complex ph...
The molecular dynamics simulation package GROMACS runs efficiently on a wide variety of hardware fro...
International audienceIn situ processing proposes to reduce storage needs and I/O traffic by process...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
The molecular dynamics simulation package GROMACS runs efficiently on a wide variety of hardware fro...
Les simulations paralllèles sont devenues des outils indispensables dans de nombreux domaines scient...
International audienceThe amount of data generated by numerical simulations in various scientific do...
GROMACS is a widely used package for biomolecular simulation, and over the last two decades it has e...
This paper targets an important class of applications that requires combining HPC simulations with d...
GROMACS is a widely used package for biomolecular sim- ulation, and over the last two decades it has...
The exascale era will widen the gap between data generation rate and the time to manage their output...
High-Performance Computing (HPC) systems provide input/output (IO) performance growing relatively sl...
Next-generation computing systems are expected to have dramatically higher performance than current ...