Managing adaptive meshes in parallel is a major challenge, especially when the meshes are refined and coarsened frequently during a single simulation. Important factors for scalability are for example an efficient encoding of the mesh, mesh adaptation, load-balancing and the creation of a layer of ghost(halo) elements. In the past decades the forest-of-trees approach using space-filling curves has been established as a fast and reliable method that offers both geometric flexibility and excellent parallel scalability. However, it was mostly limited to hexahedral meshes. Our work that we present in this talk is an extension of this approach to meshes with arbitrary element types with particular focus on tetrahedral and hybrid meshes. For t...
AbstractWe devise a strategy in order to generate large-size adapted anisotropic meshes O(108 −109) ...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
AbstractWe present a new method for parallelization of adaptive mesh refinement called Concurrent St...
Meshes are a core part of almost any numerical simulation code. A good choice of mesh is crucial t...
The forest of octrees meshing paradigm has been established primarily using cubic elements. Recently...
Increasing the resolution of the computational mesh is one of the most effective tools to boost the ...
We present highly scalable parallel distributed-memory algorithms and associated data structures for...
We discuss parallel algorithms to compute the ghost layer in computational, distributed memory, recu...
Mesh generation is an essential component for many engineering applications. The ability to generate...
In tree-based adaptive mesh refinement (AMR) we store refinement trees in the cells of an unstructu...
We present a space-filling curve for pyramids to enable fully hybrid adaptive mesh refinement. The S...
In (dynamic) adaptive mesh refinement (AMR), a given input mesh is refined and coarsened during the ...
: Increasing the mesh resolution is one the most important tools for increasing the accuracy of num...
In this paper we present a novel algorithm for adaptive mesh refinement in computational physics mes...
To enable the solution of large-scale applications on distributed memory architectures, we are desig...
AbstractWe devise a strategy in order to generate large-size adapted anisotropic meshes O(108 −109) ...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
AbstractWe present a new method for parallelization of adaptive mesh refinement called Concurrent St...
Meshes are a core part of almost any numerical simulation code. A good choice of mesh is crucial t...
The forest of octrees meshing paradigm has been established primarily using cubic elements. Recently...
Increasing the resolution of the computational mesh is one of the most effective tools to boost the ...
We present highly scalable parallel distributed-memory algorithms and associated data structures for...
We discuss parallel algorithms to compute the ghost layer in computational, distributed memory, recu...
Mesh generation is an essential component for many engineering applications. The ability to generate...
In tree-based adaptive mesh refinement (AMR) we store refinement trees in the cells of an unstructu...
We present a space-filling curve for pyramids to enable fully hybrid adaptive mesh refinement. The S...
In (dynamic) adaptive mesh refinement (AMR), a given input mesh is refined and coarsened during the ...
: Increasing the mesh resolution is one the most important tools for increasing the accuracy of num...
In this paper we present a novel algorithm for adaptive mesh refinement in computational physics mes...
To enable the solution of large-scale applications on distributed memory architectures, we are desig...
AbstractWe devise a strategy in order to generate large-size adapted anisotropic meshes O(108 −109) ...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
AbstractWe present a new method for parallelization of adaptive mesh refinement called Concurrent St...