In situ visualization on high-performance computing systems allows us to analyze simulation results that would otherwise be impossible, given the size of the simulation data sets and offline post-processing execution time. We develop an in situ adaptor for Paraview Catalyst and Nek5000, a massively parallel Fortran and C code for computational fluid dynamics. We perform a strong scalability test up to 2048 cores on KTH’s Beskow Cray XC40 supercomputer and assess in situ visualization’s impact on the Nek5000 performance. In our study case, a high-fidelity simulation of turbulent flow, we observe that in situ operations significantly limit the strong scalability of the code, reducing the relative parallel efficiency to only ≈ 21 % on 2048 cor...
Turbulent incompressible flows play an important role in a broad range of natural and industrial pro...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
We present our approach to making direct numerical simulations of turbulence with applications in su...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
The growing availability of large scale computing power and facilities has caused a potential for in...
AbstractAn extreme form of pipelining of the Piecewise-Parabolic Method (PPM) gas dynamics code has ...
Military, space, and high-speed civilian applications will continue contributing to the renewed inte...
International audienceNowadays, extreme-scale simulations are widely adopted in the study of modern ...
Large-scale high-performance computing is a very rapidly growing field of research that plays a vita...
A key trend facing extreme-scale computational science is the widening gap between computational and...
Turbulent flows are known for the intermittent occurrence of intense strain rates and local rotatio...
This paper targets an important class of applications that requires combining HPC simulations with d...
With the increase in computational power in the last decade and the forthcoming Exascale supercomput...
We present a reformulation of unsteady turbulent flow simulations. The initial condition is relaxed ...
Turbulent incompressible flows play an important role in a broad range of natural and industrial pro...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
We present our approach to making direct numerical simulations of turbulence with applications in su...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
The growing availability of large scale computing power and facilities has caused a potential for in...
AbstractAn extreme form of pipelining of the Piecewise-Parabolic Method (PPM) gas dynamics code has ...
Military, space, and high-speed civilian applications will continue contributing to the renewed inte...
International audienceNowadays, extreme-scale simulations are widely adopted in the study of modern ...
Large-scale high-performance computing is a very rapidly growing field of research that plays a vita...
A key trend facing extreme-scale computational science is the widening gap between computational and...
Turbulent flows are known for the intermittent occurrence of intense strain rates and local rotatio...
This paper targets an important class of applications that requires combining HPC simulations with d...
With the increase in computational power in the last decade and the forthcoming Exascale supercomput...
We present a reformulation of unsteady turbulent flow simulations. The initial condition is relaxed ...
Turbulent incompressible flows play an important role in a broad range of natural and industrial pro...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
We present our approach to making direct numerical simulations of turbulence with applications in su...