Multidimensional nucleosynthesis studies with hundreds of nuclei linked through thousands of nuclear processes are still computationally prohibitive. To date, most nucleosynthesis studies rely either on hydrostatic/hydrodynamic simulations in spherical symmetry, or on post-processing simulations using temperature and density versus time profiles directly linked to huge nuclear reaction networks. Parallel computing has been regarded as the main permitting factor of computationally intensive simulations. This paper explores the different pros and cons in the parallelization of stellar codes, providing recommendations on when and how parallelization may help in improving the performance of a code for astrophysical applications. We report on...
Simulations of nucleosynthesis in astrophysical environments are at the intersection of nuclear phys...
We investigate core-collapse supernova (CCSN) nucleosynthesis with self-consistent, axisymmetric (2D...
AbstractThis review concentrates on the two principle methods used to evolve nuclear abundances with...
Multidimensional nucleosynthesis studies with hundreds of nuclei linked through thousands of nuclear...
Type I XRBs are thermonuclear flashes on the surface of neutron stars (NS) associated with mass-accr...
We present a performance analysis of different parallelization schemes for direct codes used in the ...
We describe source code level parallelization for the kira direct gravitational N-body integrator, t...
Our knowledge of massive star evolution and nucleosynthesis is limited by uncertainties related to m...
The main target of this work is the discussion of the modern techniques (software and hardware) apt ...
We discuss the performance of direct summation codes used in the simulation of astrophysical stellar...
We discuss the high performance computing issues involved in the numerical simulation of binary neut...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
An essential aspect of studying the nuclei important for cosmochemistry is their production in stars...
Massive stars are key sources of radiative, kinetic, and chemical feedback in the universe. Grids of...
We have introduced parallel algorithm simulation of neutron star configurations for set of equation...
Simulations of nucleosynthesis in astrophysical environments are at the intersection of nuclear phys...
We investigate core-collapse supernova (CCSN) nucleosynthesis with self-consistent, axisymmetric (2D...
AbstractThis review concentrates on the two principle methods used to evolve nuclear abundances with...
Multidimensional nucleosynthesis studies with hundreds of nuclei linked through thousands of nuclear...
Type I XRBs are thermonuclear flashes on the surface of neutron stars (NS) associated with mass-accr...
We present a performance analysis of different parallelization schemes for direct codes used in the ...
We describe source code level parallelization for the kira direct gravitational N-body integrator, t...
Our knowledge of massive star evolution and nucleosynthesis is limited by uncertainties related to m...
The main target of this work is the discussion of the modern techniques (software and hardware) apt ...
We discuss the performance of direct summation codes used in the simulation of astrophysical stellar...
We discuss the high performance computing issues involved in the numerical simulation of binary neut...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
An essential aspect of studying the nuclei important for cosmochemistry is their production in stars...
Massive stars are key sources of radiative, kinetic, and chemical feedback in the universe. Grids of...
We have introduced parallel algorithm simulation of neutron star configurations for set of equation...
Simulations of nucleosynthesis in astrophysical environments are at the intersection of nuclear phys...
We investigate core-collapse supernova (CCSN) nucleosynthesis with self-consistent, axisymmetric (2D...
AbstractThis review concentrates on the two principle methods used to evolve nuclear abundances with...