Spacetrees are a popular formalism to describe dynamically adaptive Cartesian grids. Though they directly yield an adaptive spatial discretisation, i.e. a mesh, it is often more efficient to augment them by regular Cartesian blocks embedded into the spacetree leaves. This facilitates stencil kernels working efficiently on homogeneous data chunks. The choice of a proper block size, however, is delicate. While large block sizes foster simple loop parallelism, vectorisation, and lead to branch-free compute kernels, they bring along disadvantages. Large blocks restrict the granularity of adaptivity and hence increase the memory footprint and lower the numerical-accuracy-per-byte efficiency. Large block sizes also reduce the block-level concurr...
short paperThe present paper introduces a new communication and load-balancing scheme based on a clu...
We introduce dynamically warping grids for adaptive liquid simulation. Our primary contributions are...
Managing adaptive meshes in parallel is a major challenge, especially when the meshes are refined an...
Spacetrees are a popular formalism to describe dynamically adaptive Cartesian grids. Even though the...
The Shallow Water Equations model the fluid dynamics of deep ocean flow, and are used to simulate ti...
A GPU-parallel numerical model for the solution of the 2D Shallow Water Equations, based on a novel ...
Abstract—In this work we present an approach for the paral-lelization of hyperbolic simulations on s...
International audienceThis article presents the first dynamically adaptive wavelet method for the sh...
This is the author accepted manuscript. The final version is available from the Society for Industri...
We present a load-balancing technique that exploits the temporal coherence, among successive computa...
In this paper we aim at exploiting the temporal coherence among successive phases of a computation, ...
We revisit the generation of balanced octrees for adaptive mesh refinement (AMR) of Cartesian domain...
AbstractNumerical modelling of wide ranges of different physical scales, which are involved in Shall...
More than ten years ago, the Gordon Bell Prize was awarded for a seismic calibration code [2]. Acco...
Numerical modelling of wide ranges of different physical scales, which are involved in Shallow Water...
short paperThe present paper introduces a new communication and load-balancing scheme based on a clu...
We introduce dynamically warping grids for adaptive liquid simulation. Our primary contributions are...
Managing adaptive meshes in parallel is a major challenge, especially when the meshes are refined an...
Spacetrees are a popular formalism to describe dynamically adaptive Cartesian grids. Even though the...
The Shallow Water Equations model the fluid dynamics of deep ocean flow, and are used to simulate ti...
A GPU-parallel numerical model for the solution of the 2D Shallow Water Equations, based on a novel ...
Abstract—In this work we present an approach for the paral-lelization of hyperbolic simulations on s...
International audienceThis article presents the first dynamically adaptive wavelet method for the sh...
This is the author accepted manuscript. The final version is available from the Society for Industri...
We present a load-balancing technique that exploits the temporal coherence, among successive computa...
In this paper we aim at exploiting the temporal coherence among successive phases of a computation, ...
We revisit the generation of balanced octrees for adaptive mesh refinement (AMR) of Cartesian domain...
AbstractNumerical modelling of wide ranges of different physical scales, which are involved in Shall...
More than ten years ago, the Gordon Bell Prize was awarded for a seismic calibration code [2]. Acco...
Numerical modelling of wide ranges of different physical scales, which are involved in Shallow Water...
short paperThe present paper introduces a new communication and load-balancing scheme based on a clu...
We introduce dynamically warping grids for adaptive liquid simulation. Our primary contributions are...
Managing adaptive meshes in parallel is a major challenge, especially when the meshes are refined an...