International audienceThe increasing gap between computational power and I/O performance in new supercomputers drives a shift from an offline approach of data analysis to an inline approach, termed in situ visualization (ISV). While many parallel visualization tools now provide ISV, the trend has been to feed such software with what previously was large dumps of raw data, and let them render everything at the highest possible resolution. This leads to a potentially large performance impact in simulations that support ISV, in particular when ISV is performed interactively.In this paper, we present a smarter method of performing ISV. Our approach aims to detect potentially interesting regions in the generated dataset in order to feed ISV fra...
Nowadays, we have entered the era of big data. In the area of high performance computing, large‐scal...
As simulation codes become more powerful and more interactive, it is increasingly desirable to monit...
With the push to exascale, in situ visualization and analysis will play an increasingly important ro...
International audienceThe increasing gap between computational power and I/O performance in new supe...
The increasing gap between computational power and I/O performance in new supercomputers has started...
International audienceWhile many parallel visualization tools now provide in situ visualization capa...
International audienceReducing the amount of data stored by simulations will be of utmost importance...
While many parallel visualization tools now provide in situ visualization capabilities, the trend ha...
High-performance computing resources are currently widely used in science and engineering areas. Typ...
The processing power available to scientists and engineers using supercomputers over the last few de...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
With large-scale simulation models on massively parallel supercomputers generating increasingly larg...
International audienceThe amount of data generated by numerical simulations in various scientific do...
Nowadays, we have entered the era of big data. In the area of high performance computing, large‐scal...
As simulation codes become more powerful and more interactive, it is increasingly desirable to monit...
With the push to exascale, in situ visualization and analysis will play an increasingly important ro...
International audienceThe increasing gap between computational power and I/O performance in new supe...
The increasing gap between computational power and I/O performance in new supercomputers has started...
International audienceWhile many parallel visualization tools now provide in situ visualization capa...
International audienceReducing the amount of data stored by simulations will be of utmost importance...
While many parallel visualization tools now provide in situ visualization capabilities, the trend ha...
High-performance computing resources are currently widely used in science and engineering areas. Typ...
The processing power available to scientists and engineers using supercomputers over the last few de...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
With large-scale simulation models on massively parallel supercomputers generating increasingly larg...
International audienceThe amount of data generated by numerical simulations in various scientific do...
Nowadays, we have entered the era of big data. In the area of high performance computing, large‐scal...
As simulation codes become more powerful and more interactive, it is increasingly desirable to monit...
With the push to exascale, in situ visualization and analysis will play an increasingly important ro...