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 10 (August 2013)

at JSC:

"2+1+1 lattice QCD calculations with hex smeared clover fermions"
Prof. Dr. Zoltan Fodor, Bergische Universität Wuppertal
Project report

"Simulations in physical conditions and large volume"
Dr. Karl Jansen, DESY Zeuthen
project report

"Mechanochemistry of Covalent Bond Breaking from First Principles Simulations"
Prof. Dr. Dominik Marx, Ruhr-Universität Bochum
Project report

"The spectrum of supersymmetric Yang-Mills theory"
Prof. Dr. Gernot Münster, Westfälische Wilhelms-Universität Münster
Project report

"Isospin breaking effects in QCD + QED including up, down, strange, and charmed quarks"
Prof. Dr. Gerrit Schierholz, DESY
Project report

"Non-perturbative Heavy Quark Effective Theory and the strong coupling"
Dr. Rainer Sommer, DESY Zeuthen

"A lattice QCD calculation of the leading order hadronic corrections to g-2 of the muon"
Dr. Kalman Szabo, Bergische Universität Wuppertal
Project report

"Finite temperature lattice QCD with Wilson quarks"
Dr. Balint Toth, Bergische Universität Wuppertal
Project report

"Lattice QCD with Wilson Quarks at zero and non-zero Temperature"
Prof. Dr. Hartmut Wittig, Johannes-Gutenberg-Universität Mainz
Project report

at LRZ:

"Magneticum"
Dr. Klaus Dolag, Ludwig-Maximilians-Universität München
Project report

"Fully-resolved, finite-size particles in statistically stationary, homogeneous turbulence"
Prof. Dr. Markus Uhlmann, Karlsruhe Institute of Technology
Project report

at HLRS:

"LAMTUR - Investigation of Laminar-Turbulent Transition and Flow Control in Boundary Layers"
Prof. Dr.-Ing. Ulrich Rist, Universität Stuttgart
Project report

"Numerical study of aeroacoustics of a round supersonic impinging jet"
Prof. Dr. Jörn Sesterhenn, Technische Universität Berlin
Project report