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 and approved projects start on 1 May and 1 November, respectively.

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

GCS Large-Scale Projects, Call 29, 2023/1


Computing time period for all projects of this call: May 1, 2023 - April 30, 2024


At HLRS:

  • “Atomistic Molecular Dynamics Simulations of the Human Nuclear Pore Complex”
    Prof. Gerhard Hummer, Max-Planck-Gesellschaft
    HPC platform: Hawk

  • “Standard model's predictions on near-critical behaviour to be seen in collider experiments”
    Prof. Zoltán Fodor, Bergische Universität Wuppertal
    HPC platform: Hawk

  • „Ab initio simulation of QCD at physical quark masses and small lattice spacing”
    Prof. Harvey Meyer, Universität Mainz
    HPC platform: Hawk

  • “Analysis of transonic buffet, investigation of fluid-particle interactions, and extraction of dynamical systems from particle images”
    Dr. Matthias Meinke, RWTH Aachen
    HPC platform: Hawk and JUWELS Booster

At JSC:

  • “Structure-to-function relations in large-scale models of cortical circuits”
    Dr. Sandra Diaz, Forschungszentrum Jülich GmbH
    HPC platform: JUWELS Booster and JUWELS CPU

  • “State-of-the-art lattice QCD simulation for hadron structure”
    Dr. Karl Jansen, Deutsches Elektronen-Synchrotron DESY
    HPC platform: JUWELS Booster and SuperMUC-NG

  • “Nuclear Lattice Simulations”
    Prof. Ulf-G. Meißner, Forschungszentrum Jülich GmbH
    HPC platform: JUWELS Booster and JUWELS CPU

  • “Flavor-singlet meson physics from lattice QCD”
    Prof. Kálmán Szabó, Forschungszentrum Jülich GmbH
    HPC platform: JUWELS Booster and SuperMUC-NG

  • “Centennial-scAle Storm Plus Eddy Rich climate model for project European Eddy-RIch Earth System Models”
    Dr. Jin-Song von Storch, Max-Planck-Gesellschaft
    HPC platform: JUWELS Booster and JUWELS CPU

  • “Multi-scale Data-driven Engine Modeling Using Direct Numerical Simulations”
    Mathis Bode, Forschungszentrum Jülich GmbH
    HPC platform: JUWELS Booster

  • “Analysis of transonic buffet, investigation of fluid-particle interactions, and extraction of dynamical systems from particle images”
    Dr. Matthias Meinke, RWTH Aachen
    HPC platform: JUWELS Booster and Hawk

  • “OpenGPT-X: Large-Scale European Language Models”
    Prof. Georg Rehm, Deutsches Forschungszentrum für Künstliche Intelligenz
    HPC platform: JUWELS Booster and JUWELS CPU

  • “Large-Scale Generative Language-Vision Models for Strong Transfer and Out-of-Distribution Generalization”
    Dr. Jenia Jitsev, Forschungszentrum Jülich GmbH
    HPC platform: JUWELS Booster

At LRZ:

  •  “Emergent and critical phenomena in correlated electron systems: Quantum Monte Carlo simulations”
    Prof. Fakher Assad, Universität Würzburg
    HPC platform: SuperMUC-NG

  • “State-of-the-art lattice QCD simulation for hadron structure”
    Dr. Karl Jansen, Deutsches Elektronen-Synchrotron DESY
    HPC platform: SuperMUC-NG and JUWELS Booster

  • “Charmonium and Confinement from Lattice QCD”
    Prof. Francesco Knechtli, Bergische Universität Wuppertal
    HPC platform: SuperMUC-NG

  • “Flavor-singlet meson physics from lattice QCD”
    Prof. Kálmán Szabó, Forschungszentrum Jülich GmbH
    HPC platform: SuperMUC-NG and JUWELS Booster

  • “Thermal Turbulence at Extreme Rayleigh Numbers”
    Prof. Detlef Lohse, Max-Planck-Gesellschaft
    HPC platform: SuperMUC-NG

  • “Form factors of pseudoscalar mesons with Lattice QCD”
    Dr. Georg von Hippel, Universität Mainz
    HPC platform: SuperMUC-NG