International audienceHigh performance computing systems are today composed of tens of thousands of processors and deep memory hierarchies. The next generation of machines will further increase the unbalance between I/O capabilities and processing power. To reduce the pressure on I/Os, the in situ analytics paradigm proposes to process the data as closely as possible to where and when the data are produced. Processing can be embedded in the simulation code, executed asynchronously on helper cores on the same nodes, or performed in transit on staging nodes dedicated to analytics. Today, software environ- nements as well as usage scenarios still need to be investigated before in situ analytics become a standard practice. In this paper we intr...
This paper targets an important class of applications that requires combining HPC simulations with d...
International audienceIn this paper, an on-line parallel analytics framework is proposed to process ...
Next-generation computing systems are expected to have dramatically higher performance than current ...
Abstract—High performance computing systems are today composed of tens of thousands of processors an...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
Parallel simulations have become a powerwul tool in several scientific areas. To simulate complex ph...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Les simulations paralllèles sont devenues des outils indispensables dans de nombreux domaines scient...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
International audienceThe amount of data generated by numerical simulations in various scientific do...
The exascale era will widen the gap between data generation rate and the time to manage their output...
International audienceIn situ processing proposes to reduce storage needs and I/O traffic by process...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
International audienceThe in situ paradigm proposes to co-locate simulation and analytics on the sam...
High-performance computing resources are currently widely used in science and engineering areas. Typ...
This paper targets an important class of applications that requires combining HPC simulations with d...
International audienceIn this paper, an on-line parallel analytics framework is proposed to process ...
Next-generation computing systems are expected to have dramatically higher performance than current ...
Abstract—High performance computing systems are today composed of tens of thousands of processors an...
International audienceNumerical simulations using supercomputers are producing an ever growing amoun...
Parallel simulations have become a powerwul tool in several scientific areas. To simulate complex ph...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Les simulations paralllèles sont devenues des outils indispensables dans de nombreux domaines scient...
The amount of data generated by numerical simulations in various scientific domains led to a fundame...
International audienceThe amount of data generated by numerical simulations in various scientific do...
The exascale era will widen the gap between data generation rate and the time to manage their output...
International audienceIn situ processing proposes to reduce storage needs and I/O traffic by process...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
International audienceThe in situ paradigm proposes to co-locate simulation and analytics on the sam...
High-performance computing resources are currently widely used in science and engineering areas. Typ...
This paper targets an important class of applications that requires combining HPC simulations with d...
International audienceIn this paper, an on-line parallel analytics framework is proposed to process ...
Next-generation computing systems are expected to have dramatically higher performance than current ...