Nowadays, we have entered the era of big data. In the area of high performance computing, large‐scale simulations can generate huge amounts of data with potentially critical information. However, these data are usually saved in intermediate files and are not instantly visible until advanced data analytics techniques are applied after reading all simulation data from persistent storages (eg, local disks or a parallel file system). This approach puts users in a situation where they spend long time on waiting for running simulations while not knowing the status of the running job. In this paper, we build a new computational framework to couple scientific simulations with multi‐step machine learning processes and in‐situ data visualizations. We...
International audienceThe increasing gap between computational power and I/O performance in new supe...
AbstractSupercomputer architectures are being upgraded using different level of parallelism to impro...
The current compute environment that most researchers are using for the calculation of 3D unsteady C...
High-performance computing resources are currently widely used in science and engineering areas. Typ...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
This paper targets an important class of applications that requires combining HPC simulations with d...
The processing power available to scientists and engineers using supercomputers over the last few de...
International audienceReducing the amount of data stored by simulations will be of utmost importance...
Better instruments, faster and bigger supercomputers and easier collaboration and sharing of data in...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
Emerging coupled scientific simulation workflows are composed of multiple component applications tha...
PresentationWorkflows and Computational Processes. Workflows are emerging as a paradigm for represe...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
Next-generation computing systems are expected to have dramatically higher performance than current ...
International audienceThe increasing gap between computational power and I/O performance in new supe...
AbstractSupercomputer architectures are being upgraded using different level of parallelism to impro...
The current compute environment that most researchers are using for the calculation of 3D unsteady C...
High-performance computing resources are currently widely used in science and engineering areas. Typ...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
This paper targets an important class of applications that requires combining HPC simulations with d...
The processing power available to scientists and engineers using supercomputers over the last few de...
International audienceReducing the amount of data stored by simulations will be of utmost importance...
Better instruments, faster and bigger supercomputers and easier collaboration and sharing of data in...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
Emerging coupled scientific simulation workflows are composed of multiple component applications tha...
PresentationWorkflows and Computational Processes. Workflows are emerging as a paradigm for represe...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
Next-generation computing systems are expected to have dramatically higher performance than current ...
International audienceThe increasing gap between computational power and I/O performance in new supe...
AbstractSupercomputer architectures are being upgraded using different level of parallelism to impro...
The current compute environment that most researchers are using for the calculation of 3D unsteady C...