Final time table for the EULAG Workshop 2014 in Mainz (23rd October 2014)
Note: the number in the time table indicates the abstract number, which can be found in the second table below. If you find mistakes or have questions, please contact Philipp Reutter.
| Time | MONDAY | TUESDAY | WEDNESDAY | THURSDAY | FRIDAY |
|---|---|---|---|---|---|
| 8:45-9:15 | Registration | 1 Software engineering | 10 Numerics | 32 Fundamental Fluid Dynamics and Solar Physics | Education with EULAG ("Baby EULAG") |
| 9:15 - 9:45 | Registration | 2 Software engineering | 11 Numerics | 33 Fundamental Fluid Dynamics and Solar Physics | Discussion |
| 9:45 - 10:15 | Registration | 43 Large Scale Flows | 12 Numerics | 34 Fundamental Fluid Dynamics and Solar Physics | Future Developments |
| Coffee break | |||||
| 10:45 - 11:15 | WELCOME | 4 Software engineering | 24 Clouds | 35 Fundamental Fluid Dynamics and Solar Physics | Discussion |
| 11:15 - 11:45 | 13 Orography | 5 Software engineering | 25 Clouds | 36 Fundamental Fluid Dynamics and Solar Physics | Logistics of EULAG |
| 11:45 - 12:15 | 14 Orography | 6 Numerics | 26 Clouds | GROUP PICTURE | Discussion |
| Lunch | |||||
| 13:30 - 14:00 | 15 Orography | 7 Numerics | 27 Clouds | 21 Clouds | |
| 14:00 - 14:30 | 16 Orography | 8 Numerics | 28 Clouds | 22 Clouds | |
| 14:30 - 15:00 | 17 Orography | 9 Numerics | 29 Clouds | 23 Clouds | |
| Coffee break | |||||
| 15:30 - 16:00 | 41 Large Scale Flows | 38 Gravity waves | 30 Clouds | 18 Orography | |
| 16:00 - 16:30 | 42 Large Scale Flows | 40 Gravity waves | 31 Clouds | 20 Orography | |
| 16:30 - 17:00 | 39 Talk cancelled | 19 Talk cancelled | |||
| 18:30 City Tour | 19:00 CONFERENCE DINNER |
| Session name | Abstract number | Authors | Title |
|---|---|---|---|
| SOFTWARE ENGINEERING | 1 | Piotrowski, Smolarkiewicz, Wyszogrodzki | EULAG 2014 model with three-dimensional MPI decomposition |
| 2 | Ciznicki, Kopta, Kulczewski, Kurowski | Towards efficient implementation of EULAG elliptic solver on GPU architectures | |
| 3 | Talk cancelled | ||
| 4 | Waruszewski, Jaruga, Arabas, Jarecka, Pawlowska, Smolarkiewicz | libmpdata++: library of parallel MPDATA-based solvers built with emphasis on maintainability | |
| 5 | Wyrzykowski, Rojek, Szustak | Using GPU and Intel Xeon Phi coprocessors to accelerate computations in 3D MPDATA algorithm | |
| NUMERICS | 6 | Yelash, Lukacova-Medvidova, Bispen, Mueller, Giraldo, Wirth | Large time step discontinuous evolution Galerkin methods for multiscale atmospheric flow |
| 7 | Kuehnlein, Smolarkiewicz, Wedi | Combining a conservative non-oscillatory forward-in-time solver for soundproof and compressible PDEs with moving meshes | |
| 8 | Deconinck, Hamrud, Smolarkiewicz, Szmelter, Zhang | A massively-parallel framework for finite-volume simulation of global atmospheric dynamics | |
| 9 | Papke, Klein | Multi-scale behavior in vortical flows: a numerical approach | |
| 10 | Smolarkiewicz, Kuehnlein, Wedi | A consistent framework for discrete integrations of all-scale atmospheric dynamics | |
| 11 | Klein, Benacchio, O'Neill | Observations from the construction of two time level integrators for compressible and sound-proof models | |
| 12 | Szmelter, Smolarkiewicz, Zhang, Cao | An unstructured-mesh nonhydrostatatic model for orographic flows | |
| OROGRAPHY | 13 | Bettiol, Giaiotti, Stel | The sensitivity of mesoscale heavy precipitation on atmospheric boundary layer over complex orography |
| 14 | Eichhorn, Prestel, Wirth | Sensitivity of Banner Cloud Formation to Mountain Geometry | |
| 15 | Prestel, Wirth | Boundary layer separation in the lee of steep mountains | |
| 16 | Wyszogrodzki, Lobocki | Surface-layer flux-gradient relationships over inclined terrain: implementation in EULAG | |
| 17 | Nurowska, Piotrowski, Malinowski, Grabowski | High resolution modeling of flows over Tatra mountains | |
| 18 | Bachmann, Dörnbrack, Gisinger | Large Eddy Simulation of turbulent urban flows | |
| 19 | Kulczewski, Kurowski, Tronowski, Wyszogrodzki | Modelling air quailty in urban canyons | |
| 20 | Korycki,Lobocki, Wyszogrodzki | Application of EULAG to the simulation of flow through the urban structure in Warsaw | |
| CLOUDS | 21 | Wojcik, Piotrowski, Rosa, Ziemianski | The development and testing of EULAG version for numerical weather prediction |
| 22 | Kurowski, Grabowski | Towards high-resolution simulation of moist global flows | |
| 23 | Kopec, Malinowski, Piotrowski | Physics of Stratocumulus Top: results of large eddy simulations sampled with a virtual aircraft method compared to airborne data | |
| 24 | Voigt, Spichtinger | Formation of thin cirrus clouds: Homogeneous or heterogeneous nucleation? | |
| 25 | Spichtinger | Subvisible cirrus clouds driven by slow updrafts | |
| 26 | Kempf, Craig | Testing a Phase Transition Theory for Convective Organisation | |
| 27 | Kopec, Malinowski, Piotrowski | Impact of wind shear on the top of stratocumulus cloud | |
| 28 | Scheufele, Craig | Resolution Dependence of Cumulus Statistics in Radiative-Convective Equilibrium | |
| 29 | Unterstrasser, Sölch, Stegmaier, Lainer, Görsch | The Lagrangian ice microphysics code LCM within EULAG: Introduction, current developments and applications | |
| 30 | Grabowski, Kurowski | A novel methodology for testing multiscale moist atmospheric models | |
| 31 | Rosa, Wojcik, Ziemianski, Grabowski | Modeling of daytime convective development over land with a new prototype model COSMO-EULAG | |
| FUNDAMENTAL FLUID DYNAMICS AND SOLAR PHYSICS | 32 | Charbonneau, Lawson, Passos, Smolarkiewicz | Simulations of the solar magnetic cycle with EULAG-MHD |
| 33 | Kumar, Bhattacharyya, Smolarkiewicz | Formation of current sheets and magnetic ejecta: A numerical study | |
| 34 | Kumar, Bhattacharyya, Smolarkiewicz | Formation of magnetic discontinuities through viscous relaxation | |
| 35 | Schreiber, Schmidt, Sommer, Garcia-Bardon, Breit, Graafen, Kreitner | Computational Fluid Dynamics Simulations to Understand Mass Transport in Major Vessels of the Heart and Brain | |
| 36 | Schröttle, Dörnbrack, Schumann | Meandering of a wind mill wake vortex | |
| 37 | Talk cancelled | ||
| GRAVITY WAVES | 38 | Bense, Spichtinger | Propagation of gravity waves through the tropopause |
| 39 | Talk cancelled | ||
| 40 | Remmler, Fruman, Hickel, Achatz | Largy-Eddy Simulation of Gravity-Wave Breaking: Validation against DNS | |
| LARGE SCALE FLOWS | 41 | von Larcher, Doernbrack | Modeling baroclinic driven flows with the immersed boundary method |
| 42 | Prusa | Baroclinic Dynamics in the Atmosphere: Soundproof vs. Compressible Computations | |
| 43 | Wedi | Increasing horizontal resolution in global NWP and climate simulations -- illusion or panacea |