We present a highly scalable demonstration of a portable asynchronous many-task programming model and runtime system applied to a grid-based adaptive mesh refinement hydrodynamic simulation of a double white dwarf merger with 14 levels of refinement that spans 17 orders of magnitude in astrophysical densities. The code uses the portable C++ parallel programming model that is embodied in the HPX library and being incorporated into the ISO C++ standard. The model represents a significant shift from existing bulk synchronous parallel programming models under consideration for exascale systems. Through the use of the Futurization technique, seemingly sequential code is transformed into wait-free asynchronous tasks. We demonstrate the potential ...
By 2020, astronomy will be awash with as much as 60 PB of public data. Full scientific exploitation ...
We present Cholla (Computational Hydrodynamics On ParaLLel Architectures), a new three-dimensional h...
On modern supercomputers, asynchronous many task systems are emerging to address the new architectur...
We present a highly scalable demonstration of a portable asynchronous many-task programming model an...
We study the simulation of stellar mergers, which requires complex simulations with high computation...
Analyzing performance within asynchronous many-task-based runtime systems is challenging because mil...
We present a new open-source cosmological code, called SWIFT, designed to solve the equations of hyd...
OCTO-TIGER is an astrophysics code to simulate the evolution of self-gravitating and rotating system...
We introduce a new relativistic astrophysics code, SpECTRE, that combines a discontinuous Galerkin m...
The paper presents a new hydrodynamical code, OMPEGAS, for the 3D simulation of astrophysical flows ...
The last decades have witnessed a rapid improvement of computational capabilities in high-performanc...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
Stellar mergers between two suns are a significant field of study since they can lead to astrophysic...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
By 2020, astronomy will be awash with as much as 60 PB of public data. Full scientific exploitation ...
We present Cholla (Computational Hydrodynamics On ParaLLel Architectures), a new three-dimensional h...
On modern supercomputers, asynchronous many task systems are emerging to address the new architectur...
We present a highly scalable demonstration of a portable asynchronous many-task programming model an...
We study the simulation of stellar mergers, which requires complex simulations with high computation...
Analyzing performance within asynchronous many-task-based runtime systems is challenging because mil...
We present a new open-source cosmological code, called SWIFT, designed to solve the equations of hyd...
OCTO-TIGER is an astrophysics code to simulate the evolution of self-gravitating and rotating system...
We introduce a new relativistic astrophysics code, SpECTRE, that combines a discontinuous Galerkin m...
The paper presents a new hydrodynamical code, OMPEGAS, for the 3D simulation of astrophysical flows ...
The last decades have witnessed a rapid improvement of computational capabilities in high-performanc...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
Stellar mergers between two suns are a significant field of study since they can lead to astrophysic...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
By 2020, astronomy will be awash with as much as 60 PB of public data. Full scientific exploitation ...
We present Cholla (Computational Hydrodynamics On ParaLLel Architectures), a new three-dimensional h...
On modern supercomputers, asynchronous many task systems are emerging to address the new architectur...