High-Performance Computing (HPC) systems provide input/output (IO) performance growing relatively slowly compared to peak computational performance and have limited storage capacity. Computational Fluid Dynamics (CFD) applications aiming to leverage the full power of Exascale HPC systems, such as the solver Nek5000, will generate massive data for further processing. These data need to be efficiently stored via the IO subsystem. However, limited IO performance and storage capacity may result in performance, and thus scientific discovery, bottlenecks. In comparison to traditional post-processing methods, in-situ techniques can reduce or avoid writing and reading the data through the IO subsystem, promising to be a solution to these problems. ...
Numerical simulations produce large amounts of data. A key challenge is how to cope with the resulti...
High Performance Computing (HPC) is necessary in the analysis of complex flows using Computational F...
International audienceThe increasing gap between computational power and I/O performance in new supe...
A key trend facing extreme-scale computational science is the widening gap between computational and...
The growing availability of large scale computing power and facilities has caused a potential for in...
This paper targets an important class of applications that requires combining HPC simulations with d...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
The considerable interest in the high performance computing (HPC) community regarding analyzing and ...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
International audienceNowadays, extreme-scale simulations are widely adopted in the study of modern ...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
AbstractIncreased levels of parallel CFD by utilizing graphical processing units (GPUs) in a high pe...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
Numerical simulations produce large amounts of data. A key challenge is how to cope with the resulti...
High Performance Computing (HPC) is necessary in the analysis of complex flows using Computational F...
International audienceThe increasing gap between computational power and I/O performance in new supe...
A key trend facing extreme-scale computational science is the widening gap between computational and...
The growing availability of large scale computing power and facilities has caused a potential for in...
This paper targets an important class of applications that requires combining HPC simulations with d...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
The considerable interest in the high performance computing (HPC) community regarding analyzing and ...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
International audienceNowadays, extreme-scale simulations are widely adopted in the study of modern ...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
AbstractIncreased levels of parallel CFD by utilizing graphical processing units (GPUs) in a high pe...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
Numerical simulations produce large amounts of data. A key challenge is how to cope with the resulti...
High Performance Computing (HPC) is necessary in the analysis of complex flows using Computational F...
International audienceThe increasing gap between computational power and I/O performance in new supe...