A novel optimized framework for unstructured finite-volume methods is presented, with an emphasis on memory bandwidth optimizations and parallel efficiency. The same numerical methods as an OpenFOAM-based solver named caafoam are used, which was recently developed for direct computation of aeroacoustic simulations. The current work presents a bottom-up optimization of caafoam. The mesh cells are ordered using Hamiltonian paths, where two consecutive cells in the path are guaranteed to be contiguous in memory, greatly reducing the failed data requests inherent to unstructured grids. To further reduce the memory footprint from the CPU, efficient data structures and compute kernel fusion are used. For optimal parallel efficiency, boundary and ...
This paper presents GPU parallelization for a computational fluid dynamics solver which works on a m...
This paper presents the development of a fourth-order finite difference computational aeroacoustics ...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
A novel optimized framework for unstructured finite-volume methods is presented, with an emphasis on...
This paper presents an optimized framework for simulating aeroacoustic flow on unstructured meshes. ...
AbstractComputational fluid dynamics (CFD) has become increasingly used in the industry for the simu...
A generic solver eliminates the need to write new finite-volume codes for each type of physics. By s...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
This paper presents a high order finite volume scheme built on a new k-exact reconstruction algorith...
This paper presents the development of a fourth-order finite difference computational aeroacoustics ...
Prize winning PETSc-FUN3D aerodynamics code, extending it with highly-tuned shared-memory paralleliz...
This paper aims to report on the open multi-processing (OpenMP) parallel implementation of a fully u...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76576/1/AIAA-2005-2825-326.pd
Complex geometries pose multiple challenges to the field of computational fluid dynamics. Grid gener...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
This paper presents GPU parallelization for a computational fluid dynamics solver which works on a m...
This paper presents the development of a fourth-order finite difference computational aeroacoustics ...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
A novel optimized framework for unstructured finite-volume methods is presented, with an emphasis on...
This paper presents an optimized framework for simulating aeroacoustic flow on unstructured meshes. ...
AbstractComputational fluid dynamics (CFD) has become increasingly used in the industry for the simu...
A generic solver eliminates the need to write new finite-volume codes for each type of physics. By s...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
This paper presents a high order finite volume scheme built on a new k-exact reconstruction algorith...
This paper presents the development of a fourth-order finite difference computational aeroacoustics ...
Prize winning PETSc-FUN3D aerodynamics code, extending it with highly-tuned shared-memory paralleliz...
This paper aims to report on the open multi-processing (OpenMP) parallel implementation of a fully u...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76576/1/AIAA-2005-2825-326.pd
Complex geometries pose multiple challenges to the field of computational fluid dynamics. Grid gener...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
This paper presents GPU parallelization for a computational fluid dynamics solver which works on a m...
This paper presents the development of a fourth-order finite difference computational aeroacoustics ...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...