Solving partial differential equations (PDEs) is a fundamental challenge in many application domains in industry and academia alike. With increasingly large problems, efficient and highly scalable implementations become more and more crucial. Today, facing this challenge is more difficult than ever due to the increasingly heterogeneous hardware landscape. One promising approach is developing domain‐specific languages (DSLs) for a set of applications. Using code generation techniques then allows targeting a range of hardware platforms while concurrently applying domain‐specific optimizations in an automated fashion. The present work aims to further the state of the art in this field. As domain, we choose PDE solvers and, in particular, those...
The Navier-Stokes equations describe a large class of fluid flows but are difficult to solve analyti...
dissertationPartial differential equations (PDEs) are widely used in science and engineering to mode...
The path to exascale computational fluid dynamics requires novel and disruptive hardware architectur...
Partial Differential Equation (PDE) modelling is an important tool in scientific domains for bridgin...
Numerical simulation with partial differential equations is an important discipline in high performa...
La simulació numèrica directa (DNS) de fluxos complexes és actualment una utopia per la majoria d'ap...
AbstractFinite-Differencing and other regular and direct approaches to solving partial differential ...
Numerical simulation applications requiring the resolution of Partial Differential Equation (PDE) pr...
Many important problems in physics and engineering like fluid dynamics and continuum mechanics are m...
http://lifc.univ-fcomte.fr/dfma07/International audienceThis paper introduces a research project and...
How do we build maintainable, robust, and performance-portable scientific applications? This thesi...
MasterThe purpose of this text is to offer an overview of the most popular domain decomposition meth...
Academia and industry have not yet been able to adapt software and numerical algorithms to the rapid...
SBLI is a large-scale Computational Fluid Dynamics(CFD) application, developed over 20 years at the ...
SBLI (Shock-wave/Boundary-layer Interaction) is a large-scale Computational Fluid Dynamics (CFD) app...
The Navier-Stokes equations describe a large class of fluid flows but are difficult to solve analyti...
dissertationPartial differential equations (PDEs) are widely used in science and engineering to mode...
The path to exascale computational fluid dynamics requires novel and disruptive hardware architectur...
Partial Differential Equation (PDE) modelling is an important tool in scientific domains for bridgin...
Numerical simulation with partial differential equations is an important discipline in high performa...
La simulació numèrica directa (DNS) de fluxos complexes és actualment una utopia per la majoria d'ap...
AbstractFinite-Differencing and other regular and direct approaches to solving partial differential ...
Numerical simulation applications requiring the resolution of Partial Differential Equation (PDE) pr...
Many important problems in physics and engineering like fluid dynamics and continuum mechanics are m...
http://lifc.univ-fcomte.fr/dfma07/International audienceThis paper introduces a research project and...
How do we build maintainable, robust, and performance-portable scientific applications? This thesi...
MasterThe purpose of this text is to offer an overview of the most popular domain decomposition meth...
Academia and industry have not yet been able to adapt software and numerical algorithms to the rapid...
SBLI is a large-scale Computational Fluid Dynamics(CFD) application, developed over 20 years at the ...
SBLI (Shock-wave/Boundary-layer Interaction) is a large-scale Computational Fluid Dynamics (CFD) app...
The Navier-Stokes equations describe a large class of fluid flows but are difficult to solve analyti...
dissertationPartial differential equations (PDEs) are widely used in science and engineering to mode...
The path to exascale computational fluid dynamics requires novel and disruptive hardware architectur...