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20 results found for "*:*"

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ICON release 2025.04

DOI Experiment

ICON Software

Identifier: doi:10.35089/wdcc/iconrelease2025.04
Summary: 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
Project: ICON Model
Authors: ICON partnership (MPI-M, DWD, DKRZ, KIT, C2SM)
Creation Date: 2025-05-06
Status: completely archived

[Entry acronym: IconRelease2025.04] [Entry id: 5285834] [ Score: 22.604982]

ICON release 2024.10

DOI Experiment

ICON Software

Identifier: doi:10.35089/WDCC/IconRelease2024.10
Summary: 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
Project: ICON Model
Authors: ICON partnership (MPI-M, DWD, DKRZ, KIT, C2SM)
Creation Date: 2024-10-10
Status: completely archived

[Entry acronym: IconRelease2024.10] [Entry id: 5281528] [ Score: 22.29275]

ICON release 2024.07

DOI Experiment

ICON Software

Identifier: doi:10.35089/WDCC/IconRelease2024.07
Summary: 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
Project: ICON Model
Authors: ICON partnership (MPI-M, DWD, DKRZ, KIT, C2SM)
Creation Date: 2024-07-18
Status: completely archived

[Entry acronym: IconRelease2024.07] [Entry id: 5280970] [ Score: 22.21984]

ICON release 2024.01

DOI Experiment

ICON Software

Identifier: doi:10.35089/WDCC/IconRelease01
Summary: 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
Project: ICON Model
Authors: ICON partnership (DWD, MPI-M, DKRZ, KIT, C2SM)
Creation Date: 2024-03-11
Status: completely archived

[Entry acronym: IconRelease01] [Entry id: 5275117] [ Score: 22.136877]

nextGEMS: output of the model development cycle 3 simulations for ICON and IFS

DOI Experiment

FESOM ICON IFS nextGEMS storm-resolving Earth-system model

Identifier: doi:10.26050/WDCC/nextGEMS_cyc3
Summary: In the first phase of the nextGEMS project, the two Earth-system models ICON (Version ee0ee6) and IFS (Cycle 48r1 nextGEMS) are developed in three iterative cycles aiming at simulating the climate 30 years
Project: nextGEMS (Next Generation Earth Modelling Systems)
Authors: Koldunov, Nikolay; Kölling, Tobias; Pedruzo-Bagazgoitia, Xabier; Rackow, Thomas; Redler, René; Sidorenko, Dmitry; Wieners, Karl-Hermann; Ziemen, Florian Andreas
Creation Date: 2023-10-04
Temporal Coverage: 2020-01 TO 2025-07
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Status: completely archived

[Entry acronym: nextGEMS_cyc3] [Entry id: 5273861] [ Score: 22.064457]

nextGEMS: Output of the WP6 ocean vertical mixing sensitivity runs

DOI Experiment

FESOM ICON nextGEMS ocean

Identifier: doi:10.26050/WDCC/nextGEMS_WP6oc
Summary: In work package 6 of the nextGEMS project, several ocean-only model runs were performed with FESOM (Version 2.0) and ICON-O (Version 2.6.6), to test the sensitivity of the upper tropical Atlantic to different
Project: nextGEMS (Next Generation Earth Modelling Systems)
Authors: Bastin, Swantje; Koldunov, Aleksei; Haak, Helmuth; Koldunov, Nikolay; Danilov, Sergey; Jungclaus, Johann; Jochum, Markus; Mrozowska, Marta A.; Fischer, Tim; Dengler, Marcus; Brüggemann, Nils; Gutjahr, Oliver; Specht, Mia Sophie
Creation Date: 2023-07-10
Temporal Coverage: 2014-01 TO 2015-12
Spatial Coverage: Longitude: -60.00, 15.00 Latitude: -10.00, 30.00
Additional Info: nextGEMSWp6OceanREADME
Status: completely archived

[Entry acronym: nextGEMS_WP6oc] [Entry id: 5273690] [ Score: 22.034355]

nextGEMS: output of the model development cycle 2 simulations for ICON and IFS

DOI Experiment

FESOM ICON IFS nextGEMS storm-resolving Earth-system model

Identifier: doi:10.26050/WDCC/nextGEMS_cyc2
Summary: In the first phase of the nextGEMS project, the two Earth-system models ICON (Version ee0ee6) and IFS (Cycle 47r3.3 nextGEMS) are developed in three iterative cycles aiming at simulating the climate 30
Project: nextGEMS (Next Generation Earth Modelling Systems)
Authors: Wieners, Karl-Hermann; Ziemen, Florian Andreas; Koldunov, Nikolay; Pedruzo-Bagazgoitia, Xabier; Rackow, Thomas; Redler, René; Sidorenko, Dmitry; Kölling, Tobias
Creation Date: 2023-03-28
Temporal Coverage: 2020-01 TO 2022-03
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Status: completely archived

[Entry acronym: nextGEMS_cyc2] [Entry id: 3970933] [ Score: 22.003862]

ICON-NWP simulations of the mid-Holocene West African Monsoon using parameterized and explicit convection and mid-Holocene land surface

DOI Experiment

ICON Precipitation West Africa convection-permitting explicitly resolved convection midHolocene resolved deep convection

Identifier: doi:10.26050/WDCC/ICON-NWP_mH_pd
Summary: The experiment aims to investigate how the representation of convection influences the West African Monsoon during the mid-Holocene.
Atmospheric and SST input data originate from the MPI-ESM Holocene
Project: Conv_mH_WAM (Simulations of land-atmosphere feedback during the mid-Holocene West African Monsoon with resolved deep convection)
Authors: Jungandreas, Leonore; Hohenegger, Cathy; Claussen, Martin
Creation Date: 2022-12-15
Temporal Coverage: -7024-05 TO -7024-10
Spatial Coverage: Longitude: -71.00, 100.00 Latitude: -49.00, 59.00
Status: completely archived

[Entry acronym: ICON-NWP_mH_pd] [Entry id: 3965486] [ Score: 21.978598]

Upper Atmosphere ICON model Time Slice experiment under 1985 repeated 30 years R2B4 resolution control run

DOI Experiment

ICON atmosphere atmospheric model gravity waves

Identifier: doi:10.26050/WDCC/UAICON_timesl_ctrl
Summary: We utilize the ICON version 2.6.3 with upper-atmosphere extension as distributed by the German weather service (DWD). The ICON model is a collaborative project of DWD and the Max Planck Institute for Meteorology,
Project: MATELO-FILE (Middle atmosphere localized gravity wave forcing: Formation, impact and long-term evolution)
Authors: Karami, Khalil; Jacobi, Christoph
Creation Date: 2022-09-29
Temporal Coverage: 1985-01 TO 1985-12
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Additional Info: UAICON_timesl_addinfo
Status: completely archived

[Entry acronym: UAICON_timesl_ctrl] [Entry id: 3953008] [ Score: 21.962187]

Upper Atmosphere ICON model Time Slice experiment under 1985 repeated 30 years R2B4 resolution no nonorographic scale orographic gravity waves run

DOI Experiment

ICON atmosphere atmospheric model gravity waves

Identifier: doi:10.26050/WDCC/UAICON_timesl_nonon
Summary: We utilize the ICON version 2.6.3 with upper-atmosphere extension as distributed by the German weather service (DWD). The ICON model is a collaborative project of DWD and the Max Planck Institute for Meteorology,
Project: MATELO-FILE (Middle atmosphere localized gravity wave forcing: Formation, impact and long-term evolution)
Authors: Karami, Khalil; Jacobi, Christoph
Creation Date: 2022-09-29
Temporal Coverage: 1985-01 TO 1985-12
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Additional Info: UAICON_timesl_addinfo
Status: completely archived

[Entry acronym: UAICON_timesl_nonon] [Entry id: 3953010] [ Score: 21.962187]

Upper Atmosphere ICON model Time Slice experiment under 1985 repeated 30 years R2B4 resolution no subgrid scale orographic gravity waves run

DOI Experiment

ICON atmosphere atmospheric model gravity waves

Identifier: doi:10.26050/WDCC/UAICON_timesl_nosso
Summary: We utilize the ICON version 2.6.3 with upper-atmosphere extension as distributed by the German weather service (DWD). The ICON model is a collaborative project of DWD and the Max Planck Institute for Meteorology,
Project: MATELO-FILE (Middle atmosphere localized gravity wave forcing: Formation, impact and long-term evolution)
Authors: Karami, Khalil; Jacobi, Christoph
Creation Date: 2022-09-29
Temporal Coverage: 1985-01 TO 1985-12
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Additional Info: UAICON_timesl_addinfo
Status: completely archived

[Entry acronym: UAICON_timesl_nosso] [Entry id: 3953009] [ Score: 21.962187]

Tides simulated by the global ocean model ICON-O in various set-ups

DOI Experiment

ICON global harmonic analysis ocean simulation ocean tides

Identifier: doi:10.26050/WDCC/Tides_ICON-O
Summary: For the development of the earth-system model ICON, carried out at the Max-Planck Institute for Meteorology in cooperation with the German meteorological service (DWD), the ocean compartment plays a major
Project: SMT-Wave (Interaction between submesoscale eddies and internal waves)
Authors: Hertwig, Eileen; von Storch, Jin-Song; Haak, Helmuth; Lüschow, Veit
Creation Date: 2022-09-13
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Status: completely archived

[Entry acronym: Tides_ICON-O] [Entry id: 3952976] [ Score: 21.959013]

ICON-NWP simulations of the mid-Holocene West African Monsoon using parameterized an explicit convection and present-day land surface

DOI Experiment

ICON West Africa convection-permitting explicitly resolved convection midHolocene

Identifier: doi:10.26050/WDCC/ICON-NWP_mH_convection
Summary: The experiment aims to investigate how the representation of convection influences the West African Monsoon during the mid-Holocene.
Atmospheric and SST input data originate from the MPI-ESM Holocene
Project: Conv_mH_WAM (Simulations of land-atmosphere feedback during the mid-Holocene West African Monsoon with resolved deep convection)
Authors: Jungandreas, Leonore; Hohenegger, Cathy; Claussen, Martin
Creation Date: 2021-06-29
Temporal Coverage: -7023-05 TO -7023-12
Spatial Coverage: Longitude: -71.00, 100.00 Latitude: -49.00, 59.00
Status: completely archived

[Entry acronym: ICON-NWP_mH_convection] [Entry id: 3889522] [ Score: 21.893627]

Annual ETCCDI Extreme Indices For ICON-Sapphire And IFS-FESOM (nextGEMS Cycle 4)

Experiment

CLICCS ICON IFS climate extrem indices nextGEMS

Identifier: https://www.wdc-climate.de/ui/entry?acronym=nextGEMS_ExtrInd
Summary: ETCCDI indices calculated from two km-scale global models developed within the nextGEMS project (https://nextgems-h2020.eu/): ICON-Sapphire (Hohenegger et al. 2023) and IFS-FESOM (Rackow et al. 2025).
Project: CLICCS (Cluster of Excellence “Climate, Climatic Change, and Society”)
Authors: Brunner, Lukas
Creation Date: 2025-05-21
Temporal Coverage: 2021-01 TO 2029-12
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Status: metadata only

[Entry acronym: nextGEMS_ExtrInd] [Entry id: 5285837] [ Score: 17.640568]

nextGEMS: output of the production simulations for ICON and IFS

Experiment

FESOM ICON IFS nextGEMS storm-resolving Earth-system model

Identifier: https://www.wdc-climate.de/ui/entry?acronym=nextGEMS_prod
Summary: In the first phase of the nextGEMS project, the two Earth-system models ICON and IFS were developed in three iterative cycles aiming at simulating the climate 30 years into the future at storm-resolving
Project: nextGEMS (Next Generation Earth Modelling Systems)
Authors: Wieners, Karl-Hermann; Rackow, Thomas; Aguridan, Razvan; Becker, Tobias; Beyer, Sebastian; Cheedela, Suvarchal Kumar; Dreier, Nils-Arne; Engels, Jan Frederik; Esch, Monika; Frauen, Claudia; Klocke, Daniel; Kölling, Tobias; Pedruzo-Bagazgoitia, Xabier; Putrasahan, Dian; Sidorenko, Dmitry; Schnur, Reiner; Stevens, Bjorn; Zimmermann, Janos
Creation Date: 2024-04-08
Temporal Coverage: 2020-01 TO 2049-12
Spatial Coverage: Longitude: -180.00, 180.00 Latitude: -90.00, 90.00
Additional Info: nextGEMS_prod_addinfov1
Status: metadata only

[Entry acronym: nextGEMS_prod] [Entry id: 5275156] [ Score: 17.15245]

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