UCNS3D is a computational-fluid-dynamics (CFD) code for the simulation of viscous flows on arbitrary unstructured meshes. It employs very high-order numerical schemes which inherently are easier to scale than lower-order numerical schemes due to the higher ratio of computation versus communication. In this white paper, we report on optimisations of the UCNS3D code implemented in the course of the PRACE Preparatory Access Type C project “HOVE” in the time frame of February to August 2016. Through the optimisation of dense linear algebra operations, in particular matrix-vector products, by formula rewriting, pre-computation and the usage of BLAS, significant speedups of the code by factors of 2 to 6 have been achieved for representative bench...
High-order numerical methods for unstructured grids combine the superior accuracy of high-order spec...
This paper presents a number of optimisations for improving the performance of unstructured computat...
High‐speed compressible turbulent flows typically contain discontinuities and have been widely model...
UCNS3D is a computational-fluid-dynamics (CFD) code for the simulation of viscous flows on arbitrary...
UCNS3D is an open-source computational solver for compressible flows on unstructured meshes. State-o...
Understanding the motion of fluids is crucial for the development and analysis of new designs and pr...
An assessment of two numerical formulations for high-order reconstruction on unstructured triangular...
Current trends on high performance computing are moving towards the deployment of several cores on t...
This paper describes performance tuning experiences with a parallel CFD code to enhance its performa...
Performing LES of compressible flows is a challenging affair. On the one hand, one strives to minimi...
This paper is concerned with the application of k-exact finite volume methods for compressible Reyno...
An implementation of a novel low-mach number treatment for high-order finite-volume schemes using ar...
The solution of the non-hydrostatic compressible Euler equations using Weighted Essentially Non-Osci...
High-order numerical methods for Computational Fluid Dynamics have undergone significant fundamental...
This paper is concerned with the application of k-exact finite volume methods for compressible Reyno...
High-order numerical methods for unstructured grids combine the superior accuracy of high-order spec...
This paper presents a number of optimisations for improving the performance of unstructured computat...
High‐speed compressible turbulent flows typically contain discontinuities and have been widely model...
UCNS3D is a computational-fluid-dynamics (CFD) code for the simulation of viscous flows on arbitrary...
UCNS3D is an open-source computational solver for compressible flows on unstructured meshes. State-o...
Understanding the motion of fluids is crucial for the development and analysis of new designs and pr...
An assessment of two numerical formulations for high-order reconstruction on unstructured triangular...
Current trends on high performance computing are moving towards the deployment of several cores on t...
This paper describes performance tuning experiences with a parallel CFD code to enhance its performa...
Performing LES of compressible flows is a challenging affair. On the one hand, one strives to minimi...
This paper is concerned with the application of k-exact finite volume methods for compressible Reyno...
An implementation of a novel low-mach number treatment for high-order finite-volume schemes using ar...
The solution of the non-hydrostatic compressible Euler equations using Weighted Essentially Non-Osci...
High-order numerical methods for Computational Fluid Dynamics have undergone significant fundamental...
This paper is concerned with the application of k-exact finite volume methods for compressible Reyno...
High-order numerical methods for unstructured grids combine the superior accuracy of high-order spec...
This paper presents a number of optimisations for improving the performance of unstructured computat...
High‐speed compressible turbulent flows typically contain discontinuities and have been widely model...