International audienceIt has been clearly identified that I/O is one of the bottleneck to extend application for the exascale era. New concepts such as ‘in transit’ and ‘in situ’ visualization and analysis have been identified as key technologies to circumvent this particular issue. A new parallel I/O and data management library called Hercule, developed at CEA-DAM, has been integrated to Ramses, an AMR simulation code for self-gravitating fluids. Splitting the original Ramses output format in Hercule database formats dedicated to either checkpoints/restarts (HProt format) or post-processing (HDep format) not only improved I/O performance and scalability of the Ramses code but also introduced much more flexibility in the simulation outputs ...
Abstract—Particle-based simulations running on large high-performance computing systems over many ti...
This paper presents I/O solutions for the visualization of time-varying volume data in a parallel an...
Significant problems facing all experimental and computationalsciences arise from growing data size...
Scientific applications at exascale generate and analyze massive amounts of data. A critical require...
The applications being developed within the U.S. Exascale Computing Project (ECP) to run on imminent...
International audienceThis poster presents the use of Damaris, an I/O middleware for post-petascale ...
Simulations conducted on high-performance, massively parallel mainframes have become a central tool ...
International audienceWith exascale computing on the horizon, the performance variability of I/O sys...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
With exascale computing on the horizon, the performance variability of I/O systems represents a key ...
Resiliency and I/O are two major challenges faced in High Performance Computing when considering bui...
Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-...
The COAST project at CEA/IRFU at Saclay involves astrophysicists and software engineers developing s...
Petascale simulations compute at resolutions ranging into billions of cells and write terabytes of d...
PRACE White PaperInternational audienceAs the exascale era approaches, maintaining scalable performa...
Abstract—Particle-based simulations running on large high-performance computing systems over many ti...
This paper presents I/O solutions for the visualization of time-varying volume data in a parallel an...
Significant problems facing all experimental and computationalsciences arise from growing data size...
Scientific applications at exascale generate and analyze massive amounts of data. A critical require...
The applications being developed within the U.S. Exascale Computing Project (ECP) to run on imminent...
International audienceThis poster presents the use of Damaris, an I/O middleware for post-petascale ...
Simulations conducted on high-performance, massively parallel mainframes have become a central tool ...
International audienceWith exascale computing on the horizon, the performance variability of I/O sys...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
With exascale computing on the horizon, the performance variability of I/O systems represents a key ...
Resiliency and I/O are two major challenges faced in High Performance Computing when considering bui...
Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-...
The COAST project at CEA/IRFU at Saclay involves astrophysicists and software engineers developing s...
Petascale simulations compute at resolutions ranging into billions of cells and write terabytes of d...
PRACE White PaperInternational audienceAs the exascale era approaches, maintaining scalable performa...
Abstract—Particle-based simulations running on large high-performance computing systems over many ti...
This paper presents I/O solutions for the visualization of time-varying volume data in a parallel an...
Significant problems facing all experimental and computationalsciences arise from growing data size...