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Title: PIConGPU and ISAAC software and results bundle for Supercomputing frontiers and innovations submission 2016

Type Software Matthes, Alexander, Huebl, Axel, Widera, René, Grottel, Sebastian, Gumhold, Stefan, Bussmann, Michael (2016): PIConGPU and ISAAC software and results bundle for Supercomputing frontiers and innovations submission 2016. Zenodo. Software. https://zenodo.org/record/163494

Authors: Matthes, Alexander (Helmholtz-Zentrum Dresden - Rossendorf, Technische Universität Dresden) ; Huebl, Axel (Helmholtz-Zentrum Dresden - Rossendorf, Technische Universität Dresden) ; Widera, René (Helmholtz-Zentrum Dresden - Rossendorf) ; Grottel, Sebastian (Technische Universität Dresden) ; Gumhold, Stefan (Technische Universität Dresden) ; Bussmann, Michael (Helmholtz-Zentrum Dresden - Rossendorf) ;

Links

Summary

This is the archive containing the software used for evaluations and the results of the publication "In situ, steerable, hardware-independent and data-structure agnostic visualization with ISAAC" submitted to the Supercomputing frontiers and innovations 2016 based on the talk at the ISC Workshop On In situ Visualization 2016.

The archive has the following content:

PIConGPU Kelvin-Helmholtz Simulation code (picongpu/): Remote: https://github.com/psychocoderHPC/picongpu.git (copy will be removed) Branch: topic-scalingPizDaintISAAC Commit: 500f896ff8dbed768b2e62800072f6416645fc8d The network communication code was removed for the evaluations on Piz Daint. The customized ISAAC version is part of PIConGPU (picongpu/src/picongpu/include/plugins/isaac/). It is based on the following Repository and Commit: Remote: https://github.com/ComputationalRadiationPhysics/isaac.git Branch: dev Commit: a381a31caf9cf568d33568efb2f83d356448abc9 The results of the Piz Daint run (results/). In the subfolder output is the raw simulation output and in the folder csv csv tables created out of these.

The simulation was executed for 30 time steps and the following configuration:

shape is higher then CIC, we used TSC pusher is Boris current solver is Esirkepov (optimized, generalized) Yee field solver trilinear interpolation in field gathering 16 particles per cell

Compile flags:

CPU g++-4.9.2: -g -O3 -m64 GPU nvcc: --use_fast_math --ftz=false -g  -Xcompiler=-pthread -O3 -m64

More information

  • DOI: 10.5281/zenodo.163494

Subjects

  • HPC, in situ, visualization, live rendering, petascale, particle-in-cell, C++11, CUDA, Alpaka, FOSS

Dates

  • Publication date: 2016
  • Issued: October 27, 2016

Rights

Much of the data past this point we don't have good examples of yet. Please share in #rdi slack if you have good examples for anything that appears below. Thanks!

Funding Information

AwardnumberAwarduriFunderidentifierFunderidentifiertypeFundername
654220info:eu-repo/grantAgreement/EC/H2020/654220/10.13039/100010661Crossref Funder IDEuropean Commission

Format

electronic resource

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