International audiencePost Moore's era supercomputing will certainly require more hierarchical parallelism and variable precision floating-point arithmetic to satisfy the computing need of exascale numerical simulations. Nevertheless floating-point addition will remain non asso-ciative and so parallel computations will still be prone to return results being different from one run to another one. These failures of the numerical reproducibility reduce the simulation reliability and complicate the debugging and the validating steps of large scale software. We present two case studies to illustrate how to recover this numerical reproducibility without jeopardizing the computing efficiency. Hydrodynamics parallel simulations with the openTelemac...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
Numerical simulation of the physical behaviour for 3D Fluid Dynamics usually requires supercomputing...
International audienceThe lack of numerical reproducibility for parallel floating-point computations...
International audienceFloating-point arithmetic may introduce failures of the numerical reproducibil...
HPC simulations in various scientific domains suffer from failures of numerical reproducibility beca...
International audienceOpenTelemac suffers from numerical reproducibil-ity failures. In parallel simu...
Questions whether numerical simulation is reproducible or not have been reported in severa...
Abstract. Questions whether numerical simulation is reproducible or not have been reported in severa...
Questions whether numerical simulation is reproducible or not have been reported in severa...
International audienceOne of the major criteria for the scientificity of a research study is reprodu...
International audienceModern high performance computation (HPC) performs a huge amount of floating p...
International audienceThe recent evolution of processors and hardware accelerators, compilers, compi...
After a decade where high-end computing was dominated by the rapid pace of improvements to CPU frequ...
Abstract—The advent of general purpose graphics processing units (GPGPU’s) brings about a whole new ...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
Numerical simulation of the physical behaviour for 3D Fluid Dynamics usually requires supercomputing...
International audienceThe lack of numerical reproducibility for parallel floating-point computations...
International audienceFloating-point arithmetic may introduce failures of the numerical reproducibil...
HPC simulations in various scientific domains suffer from failures of numerical reproducibility beca...
International audienceOpenTelemac suffers from numerical reproducibil-ity failures. In parallel simu...
Questions whether numerical simulation is reproducible or not have been reported in severa...
Abstract. Questions whether numerical simulation is reproducible or not have been reported in severa...
Questions whether numerical simulation is reproducible or not have been reported in severa...
International audienceOne of the major criteria for the scientificity of a research study is reprodu...
International audienceModern high performance computation (HPC) performs a huge amount of floating p...
International audienceThe recent evolution of processors and hardware accelerators, compilers, compi...
After a decade where high-end computing was dominated by the rapid pace of improvements to CPU frequ...
Abstract—The advent of general purpose graphics processing units (GPGPU’s) brings about a whole new ...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
Numerical simulation of the physical behaviour for 3D Fluid Dynamics usually requires supercomputing...