Today’s fluid simulations deal with complex geometries and numerical data on an extreme scale. As computation approaches the exascale, it will no longer be possible to write and store the full-sized data set. In situ data analysis and scientific visualisation provide feasible solutions to the analysis of complex large scaled CFD simulations. To bring pre- and postprocessing to the exascale we must consider modifications to data structure and memory layout, and address latency and error resiliency. In this respect, a particular challenge is the exascale data processing for the sparse geometry lattice-Boltzmann code HemeLB, intended for hemodynamic simulations. In this paper, we assess the needs and challenges of HemeLB users and sketc...
In clinical diagnostics of the coronary artery stenosis, the state of fluid flow is analyzed by inva...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
In the next years, the first Exascale class supercomputers will go online. In this paper, we portray...
Today's simulations are typically not a single application but cover an entire tool chain. There is ...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
With the increasing power of the HPC hardware systems, numerical simulations are heading towards ex...
We investigate the performance of the HemeLB lattice-Boltzmann simula-tor for cerebrovascular blood ...
AbstractWe investigate the performance of the HemeLB lattice-Boltzmann simulator for cerebrovascular...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...
This thesis presents efforts to attain efficient Lattice Boltzmann simulations on large-scale parall...
Obtaining a good load balance is a significant challenge in scaling up lattice-Boltzmann simulations...
In recent years, it has become increasingly common for high performance computers (HPC) to possess s...
Lattice-Boltzmann methods are versatile numerical modeling techniques capable of reproducing a wide ...
In clinical diagnostics of the coronary artery stenosis, the state of fluid flow is analyzed by inva...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
In the next years, the first Exascale class supercomputers will go online. In this paper, we portray...
Today's simulations are typically not a single application but cover an entire tool chain. There is ...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
With the increasing power of the HPC hardware systems, numerical simulations are heading towards ex...
We investigate the performance of the HemeLB lattice-Boltzmann simula-tor for cerebrovascular blood ...
AbstractWe investigate the performance of the HemeLB lattice-Boltzmann simulator for cerebrovascular...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...
This thesis presents efforts to attain efficient Lattice Boltzmann simulations on large-scale parall...
Obtaining a good load balance is a significant challenge in scaling up lattice-Boltzmann simulations...
In recent years, it has become increasingly common for high performance computers (HPC) to possess s...
Lattice-Boltzmann methods are versatile numerical modeling techniques capable of reproducing a wide ...
In clinical diagnostics of the coronary artery stenosis, the state of fluid flow is analyzed by inva...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
In the next years, the first Exascale class supercomputers will go online. In this paper, we portray...