Exascale computing will feature novel and potentially disruptive hardware architectures. Exploiting these to their full potential is non-trivial. Numerical modelling frameworks involving finite difference methods are currently limited by the 'static' nature of the hand-coded discretisation schemes and repeatedly may have to be re-written to run efficiently on new hardware. In contrast, OpenSBLI uses code generation to derive the model's code from a high-level specification. Users focus on the equations to solve, whilst not concerning themselves with the detailed implementation. Source-to-source translation is used to tailor the code and enable its execution on a variety of hardware
The solution of problems in computational fluid dynamics (CFD) represents a classical field for the ...
The portable software system FoSSI is presented that allows for an efficient and scalable parallel s...
Time domain or frequency domain Finite Difference (FD) methods are one of the most popular numerical...
The path to exascale computational fluid dynamics requires novel and disruptive hardware architectur...
OpenSBLI is an open-source code-generation system for compressible fluid dynamics (CFD) on heterogen...
OpenSBLI is an open-source code-generation system for compressible fluid dynamics (CFD) on heterogen...
This project serves to apply numerical methods to obtain solutions for the wave equation. Paralleliz...
The continued development of improved algorithms and architecture for numerical simulations is at th...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
In this work, the main ideas, the key concepts and the implementation details of the Open Compute St...
Abstract—Finite-difference methods can be useful for solv-ing certain partial differential equations...
SBLI is a large-scale Computational Fluid Dynamics(CFD) application, developed over 20 years at the ...
Not only in the field of High-Performance Computing (HPC), Field Programmable Gate Arrays (FPGAs) ar...
OpenFOAM, an open source industrial Computational Fluid Dynamics (CFD) tool, which contains dozens o...
Finite difference solvers are key elements of many numerical applications such as modern weather pre...
The solution of problems in computational fluid dynamics (CFD) represents a classical field for the ...
The portable software system FoSSI is presented that allows for an efficient and scalable parallel s...
Time domain or frequency domain Finite Difference (FD) methods are one of the most popular numerical...
The path to exascale computational fluid dynamics requires novel and disruptive hardware architectur...
OpenSBLI is an open-source code-generation system for compressible fluid dynamics (CFD) on heterogen...
OpenSBLI is an open-source code-generation system for compressible fluid dynamics (CFD) on heterogen...
This project serves to apply numerical methods to obtain solutions for the wave equation. Paralleliz...
The continued development of improved algorithms and architecture for numerical simulations is at th...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
In this work, the main ideas, the key concepts and the implementation details of the Open Compute St...
Abstract—Finite-difference methods can be useful for solv-ing certain partial differential equations...
SBLI is a large-scale Computational Fluid Dynamics(CFD) application, developed over 20 years at the ...
Not only in the field of High-Performance Computing (HPC), Field Programmable Gate Arrays (FPGAs) ar...
OpenFOAM, an open source industrial Computational Fluid Dynamics (CFD) tool, which contains dozens o...
Finite difference solvers are key elements of many numerical applications such as modern weather pre...
The solution of problems in computational fluid dynamics (CFD) represents a classical field for the ...
The portable software system FoSSI is presented that allows for an efficient and scalable parallel s...
Time domain or frequency domain Finite Difference (FD) methods are one of the most popular numerical...