A key trend facing extreme-scale computational science is the widening gap between computational and I/O rates, and the challenge that follows is how to best gain insight from simulation data when it is increasingly impractical to save it to persistent storage for subsequent visual exploration and analysis. One approach to this challenge is centered around the idea of in situ processing, where visualization and analysis processing is performed while data is still resident in memory. This paper examines several key design and performance issues related to the idea of in situ processing at extreme scale on modern platforms: Scalability, overhead, performance measurement and analysis, comparison and contrast with a traditional post hoc approac...
Abstract—High performance computing systems are today composed of tens of thousands of processors an...
We present the results of a series of experiments studying how visualization software scales to mass...
Abstract—This work focuses on tools for investigating algorithm performance at extreme scale with mi...
The considerable interest in the high performance computing (HPC) community regarding analyzing and ...
The considerable interest in the high performance computing (HPC) community regarding analyzing and ...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
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...
International audienceThe amount of data generated by numerical simulations in various scientific do...
With the push to exascale, in situ visualization and analysis will play an increasingly important ro...
Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-...
High-Performance Computing (HPC) systems provide input/output (IO) performance growing relatively sl...
In the first week of January 2014 Dagstuhl hosted a Perspectives Workshop on "Connecting Performance...
This paper targets an important class of applications that requires combining HPC simulations with d...
As supercomputers scale to 1,000 PFlop/s over the next decade, investi-gating the performance of par...
Abstract—High performance computing systems are today composed of tens of thousands of processors an...
We present the results of a series of experiments studying how visualization software scales to mass...
Abstract—This work focuses on tools for investigating algorithm performance at extreme scale with mi...
The considerable interest in the high performance computing (HPC) community regarding analyzing and ...
The considerable interest in the high performance computing (HPC) community regarding analyzing and ...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
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...
International audienceThe amount of data generated by numerical simulations in various scientific do...
With the push to exascale, in situ visualization and analysis will play an increasingly important ro...
Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-...
High-Performance Computing (HPC) systems provide input/output (IO) performance growing relatively sl...
In the first week of January 2014 Dagstuhl hosted a Perspectives Workshop on "Connecting Performance...
This paper targets an important class of applications that requires combining HPC simulations with d...
As supercomputers scale to 1,000 PFlop/s over the next decade, investi-gating the performance of par...
Abstract—High performance computing systems are today composed of tens of thousands of processors an...
We present the results of a series of experiments studying how visualization software scales to mass...
Abstract—This work focuses on tools for investigating algorithm performance at extreme scale with mi...