GCS Large-Scale Projects, Call 26 (August 2021) Gauss Centre for Supercomputing e.V.

GCS LARGE-SCALE PROJECTS

Large-scale projects and highly scalable parallel applications are characterised by large computing time requirements, not only for short time frames but often for longer time periods. Projects are currently classified as "large-scale", if they require at least 100 Mcore-h on Hawk, or 45,000 EFLOP on JUWELSor 45 Mcore-h on SuperMUC-NG. These values correspond to 2% of the systems’ annual production in terms of estimated availability. The call for GCS Large-Scale Projects is issued twice a year.

For an overview of approved GCS Large-Scale Projects, please chose from the list below.

GCS Large-Scale Projects, Call 26 (August 2021)


Computing time period for all projects of this call: November 1, 2021 – October 31, 2022


at HLRS:

  • “Lattice QCD with high precision” (wprecision) / project extension
    Principal Investigator:  Prof. Dr. Zoltán Fodor, University of Wuppertal, Institute for Particle Physics
    HPC platform: Hawk
     
  • “Hadronic conributions to the anomalous magnetic moment of the muon from Lattice QCD” (GCS-HQCD) / project extension
    Principal Investigator: Prof. Dr. Hartmut Wittig, Institute for Nuclear Physics and PRISMA Cluster of Excellence, Johannes Gutenberg University of Mainz
    HPC platform: Hawk
     
  • “Large Eddy Simulation of Complex Boundary Layer Flows with Interactions” (GCS-lesdg)
    Principal Investigator: Dr.-Ing Andrea Beck, Institute of Aerodynamics and Gas Dynamics, Working Group Numerical Methods, University of Stuttgart
    HPC platform: Hawk
     
  • “Advanced aerodynamic, aeroelastic and aeroacoustic simulation of rotorcraft” (GCSHelisim) / project extension
    Principal Investigator: Dr. rer. nat. Manuel Keßler, Institute of Aerodynamics und Gas Dynamics, Working Group Helicopters and Aeroacoustics, University of Stuttgart
     
  • “Investigation of Turbulence and Flow Control in Boundary Layers” (GCS-Lamt) / project extension
    Principal Investigator: Dr.-Ing. Markus J. Kloker, Working Group Transition and Turbulence, Institute of Aerodynamics und Gas Dynamics, University of Stuttgart

at JSC:

  • “Emulation of hybrid quantum-classical simulations” (ehqcs) / project extension
    Principal Investigator: Prof. Dr. Kristel Michielsen, Quantum Information Processing Group, Forschungszentrum Jülich
    HPC platform: JUWELS CPU and JUWELS Booster
     
  • “Direct QCD simulations at finite density” (signqcd) / project extension
    Principal Investigator: Prof. Dr. Szabolcs Borsányi, Theoretische Physik, Fachbereich C - Bergische Universität Wuppertal
    HPC platform: JUWELS Booster
     
  • “High-precision calculation of the muon anomalous magnetic moment with chiral fermions” (gm2dwf) / project extension
    Principal Investigator: Prof. Dr. Christoph Lehner, Fakultät für Physik, Universität Regensburg
    HPC platform: JUWELS Booster
     
  • “Pion-nucleon excited state effects in extracting nucleon observables from lattice QCD” (pines)
    Principal Investigator: Principal Investigator: Dr. Marcus Petschlies, Helmholtz-Institut für Strahlen- und Kernphysik, Rheinische Friedrich-Wilhelms-Universität Bonn
    HPC platform: JUWELS Booster
     
  • “Flavour Singlet Structure of Hadrons” (fssh) / project extension
    Principal Investigator: Prof. Dr. Carsten Urbach, Helmholtz-Institut für Strahlen- und Kernphysik, Rheinische Friedrich-Wilhelms-Universität Bonn
    HPC platform: JUWELS Booster
     
  • “Hadronic Interactions and Spectroscopy in Lattice QCD with Wilson Quarks” (hintspec)
    Principal Investigator: Prof. Dr. Hartmut Wittig, Institute for Nuclear Physics and PRISMA Cluster of Excellence, Johannes Gutenberg University of Mainz
    HPC platform: JUWELS CPU and JUWELS Booster

at LRZ:

  • “Ab-initio modelling of paramagnetic active sites in Zeolites and giant Metal-Organic Frameworks” (pn73va)
    Principal Investigator: Prof. Dr. Andreas Pöppl, Felix Bloch Institute for Solid State Physics, Universität Leipzig
    HPC platform: SuperMUC-NG
     
  • “Non-perturbative Heavy Quark Effective Theory” (pr84mi)
    Principal Investigator: Prof. Dr. Jürgen Heitger, Institute of Theoretical Physics, Westfälische Wilhelms-Universität Münster
    HPC platform: SuperMUC-NG
     
  • “Weak decays of beauty and charm mesons to multi-hadron final states on the lattice” (pr27yo) / project extension
    Principal Investigator: Dr. Marcus Petschlies, Helmholtz-Institut für Strahlen- und Kernphysik, Rheinische Friedrich-Wilhelms-Universität Bonn
    HPC platform: SuperMUC-NG
     
  • “Isospin breaking effects in QCD” (pn56bu) / project extension
    Principal Investigator: Prof. Dr. Kálmán Szabó, Institute for Advanced Simulation (IAS), Jülich Supercomputing Centre (JSC), Forschungszentrum Jülich GmbH
    HPC platform: SuperMUC-NG

     

Computing time period: November 1, 2021 – October 31, 2022