Source code of the Max Planck Institute atmospheric general circulation model (ECHAM6) adopted to the project PalMod for the concurrent execution of radiative transfer on HPC-systems.

Source code of the Max Planck Institute atmospheric general circulation model (ECHAM6) adopted to the project PalMod for the concurrent execution of radiative transfer on HPC-systems.

Bei der Kartenviewer API handelt es sich um eine OpenSource Software zur Visualisierung von Geoinformationen. Der Kartenclient bietet eine Vielzahl an Funktionalitäten, die sich den Anforderungen der jeweiligen Zielplattform anpassen lassen.

ICON is a modeling framework for weather, climate, and environmental prediction. It solves the full three-dimensional non-hydrostatic and compressible Navier-Stokes equations on an icosahedral grid and allows seamless predictions from local to global scales. More information about ICON is available at https://www.icon-model.org/. The ICON Code is documented in GitLab: https://gitlab.dkrz.de/icon/icon-model. Release information: RELEASE_NOTES.md

ICON is a modeling framework for weather, climate, and environmental prediction. It solves the full three-dimensional non-hydrostatic and compressible Navier-Stokes equations on an icosahedral grid and allows seamless predictions from local to global scales. More information about ICON is available at https://www.icon-model.org/. The ICON Code is documented in GitLab: https://gitlab.dkrz.de/icon/icon-model.

ICON is a modeling framework for weather, climate, and environmental prediction. It solves the full three-dimensional non-hydrostatic and compressible Navier-Stokes equations on an icosahedral grid and allows seamless predictions from local to global scales. More information about ICON is available at https://www.icon-model.org/. The ICON Code is documented in GitLab: https://gitlab.dkrz.de/icon/icon-model. Release information: RELEASE_NOTES.md

ICON is a modeling framework for weather, climate, and environmental prediction. It solves the full three-dimensional non-hydrostatic and compressible Navier-Stokes equations on an icosahedral grid and allows seamless predictions from local to global scales. More information about ICON is available at https://www.icon-model.org/. The ICON Code is documented in GitLab: https://gitlab.dkrz.de/icon/icon-model. Release information: RELEASE_NOTES.md

ICON is a modeling framework for weather, climate, and environmental prediction. It solves the full three-dimensional non-hydrostatic and compressible Navier-Stokes equations on an icosahedral grid and allows seamless predictions from local to global scales. More information about ICON is available at https://www.icon-model.org/. The ICON Code is documented in GitLab: https://gitlab.dkrz.de/icon/icon-model.

Transformation der Koordinaten von Gauß-Krüger 42/83 nach ETRS89 von SQD-Datenbeständen unter Berücksichtigung der Höhe.

NTv2-Gitterdatei zur Transformation vom System 42/83 nach ETRS89 sowie vom System ETRS89 nach 42/83. Diese Datei wird in eine geeignete Transformationssoftware eingebunden. Die Datei steht Ihnen nach der Bestellung im Downloadcenter des Geobrokers zur Verfügung und kann dann wahlweise heruntergeladen bzw. auf dem Postweg zugestellt werden. Die Daten werden über automatisierte Verfahren oder durch Selbstentnahme kostenfrei bereitgestellt. Bei Nutzung der Daten sind die Lizenzbedingungen zu beachten.