Search results for "Petascale computing"

showing 2 items of 2 documents

A prospect for computing in porous materials research: Very large fluid flow simulations

2016

Abstract Properties of porous materials, abundant both in nature and industry, have broad influences on societies via, e.g. oil recovery, erosion, and propagation of pollutants. The internal structure of many porous materials involves multiple scales which hinders research on the relation between structure and transport properties: typically laboratory experiments cannot distinguish contributions from individual scales while computer simulations cannot capture multiple scales due to limited capabilities. Thus the question arises how large domain sizes can in fact be simulated with modern computers. This question is here addressed using a realistic test case; it is demonstrated that current …

General Computer ScienceComputer scienceLattice Boltzmann method0208 environmental biotechnologyGPULattice Boltzmann methods02 engineering and technologyParallel computing01 natural sciencesPermeability010305 fluids & plasmasTheoretical Computer ScienceComputational sciencePorous materialPetascale computing0103 physical sciencesFluid dynamicsFluid flow simulationPorosityta113ta114Supercomputer020801 environmental engineeringAddressing modePermeability (earth sciences)Petascale computingModeling and SimulationPorous mediumJournal of Computational Science
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Lattice Boltzmann Simulations at Petascale on Multi-GPU Systems with Asynchronous Data Transfer and Strictly Enforced Memory Read Alignment

2015

The lattice Boltzmann method is a well-established numerical approach for complex fluid flow simulations. Recently general-purpose graphics processing units have become accessible as high-performance computing resources at large-scale. We report on implementing a lattice Boltzmann solver for multi-GPU systems that achieves 0.69 PFLOPS performance on 16384 GPUs. In addition to optimizing the data layout on the GPUs and eliminating the halo sites, we make use of the possibility to overlap data transfer between the host CPU and the device GPU with computing on the GPU. We simulate flow in porous media and measure both strong and weak scaling performance with the emphasis being on a large scale…

ta113ta114Computer scienceLattice Boltzmann methodsGPUParallel computingSolverLattice Boltzmannmemory alignmentComputational sciencePetascale computingAsynchronous communicationData structure alignmentGraphicsasynchronous communicationTitanHost (network)ComputingMethodologies_COMPUTERGRAPHICSData transmissionEuromicro international conference on parallel, distributed and network-based processing
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