RT @PEPS_JpGU: PEPS the Most Cited Paper Award winning-papers for 2021 DYAMOND: the DYnamics of the Atmospheric general circulation... Ste…
RT @PEPS_JpGU: PEPS the Most Cited Paper Award winning-papers for 2021 DYAMOND: the DYnamics of the Atmospheric general circulation... Ste…
RT @PEPS_JpGU: PEPS the Most Cited Paper Award winning-papers for 2021 DYAMOND: the DYnamics of the Atmospheric general circulation... Ste…
RT @PEPS_JpGU: PEPS the Most Cited Paper Award winning-papers for 2021 DYAMOND: the DYnamics of the Atmospheric general circulation... Ste…
PEPS the Most Cited Paper Award winning-papers for 2021 DYAMOND: the DYnamics of the Atmospheric general circulation... Stevens B et al. https://t.co/IwVDT7VDat Review of the accomplishments of mid-latitude Super Dual Auroral Radar... Nishitani N et al.
RT @FugakuAtmos: ポスト京・富岳関連の論文が #日本地球惑星科学会 のジャーナルPEPS #最多被引用論文賞 を受賞致しました🏆(2021年6月4日) PEPS Most Cited paper award 2021<1位> https://t.co/qHLR…
ポスト京・富岳関連の論文が #日本地球惑星科学会 のジャーナルPEPS #最多被引用論文賞 を受賞致しました🏆(2021年6月4日) PEPS Most Cited paper award 2021<1位> https://t.co/qHLRXEKDov 詳しくは下記サイトをご覧ください。 https://t.co/oo9mBzGkRq
RT @MPI_Meteo: Only one of the following Earths is a satellite image, the rest are climate simulations. Can you identify it? If not, check…
#DYAMOND-Winter follows-on from the @MPI_Meteo @esiwace #DYAMOND initiative, which compared 9 global atmospheric storm-resolving simulations,ran at 2-4km resolution for 40 days, including #ICON-ESM and @ECMWF #IFS. https://t.co/Ixgh5w2IEh
RT @juracan82: @climatedynamics @NCAR_Science Yes, it's available on NCAR's Cheyenne computer if you have access, or you can contact the le…
@climatedynamics @NCAR_Science Yes, it's available on NCAR's Cheyenne computer if you have access, or you can contact the lead author of https://t.co/HCd8SQfLLS
RT @PEPS_JpGU: The 3 papers have received "the PEPS Most downloaded Paper Award 2020". Stevens B et al. DYAMOND: the DYnamics of the Atmos…
ポスト京・富岳関連の2編の論文が PEPS Most downloaded Paper Award 2020 を受賞! https://t.co/vKYI0bDjhS Bjorn Stevens et al. (2019): DYAMOND... https://t.co/qHLRXEKDov Matsuoka et al. (2019): Deep learning approach for detecting tropical cyclones... https://t.co/3POog3zvtD
RT @PEPS_JpGU: The 3 papers have received "the PEPS Most downloaded Paper Award 2020". Stevens B et al. DYAMOND: the DYnamics of the Atmos…
RT @PEPS_JpGU: The 3 papers have received "the PEPS Most downloaded Paper Award 2020". Stevens B et al. DYAMOND: the DYnamics of the Atmos…
The 3 papers have received "the PEPS Most downloaded Paper Award 2020". Stevens B et al. DYAMOND: the DYnamics of the Atmospheric general circulation Modeled On Non-hydrostatic Domains. https://t.co/IwVDT7VDat And 2 more papers. For details >> ht
Bjorn Stevens' DYAMOND Review paper won "The Most Downloaded Paper Award 2020" of JpGU PEPS: https://t.co/FKEG3AI8ZS Stevens et al. (2019) DYAMOND: The DYnamics of the Atmospheric general circulation Modeled On Non-hydrostatic Domains. https://t.co/EE6GZl
And of course a very special @ECMWF friend & one of the driving forces in #EUREC4A, Bjorn Stevens @MPI_Meteo who is now well equiped for our 🇪🇺 efforts towards km-scale simulations with @MPI_Meteo #ICON & @ECMWF IFS #DYAMOND @esiwace (& the Ba
B. Stevens et al., DYAMOND: the DYnamics of the Atmospheric general circulation Modeled On Non-hydrostatic Domains https://t.co/O0EYPjGcXh
RT @anlomedad: "Eight of these employed a tiling of the sphere that was uniformly less than 5 km." It awes me. It's sci-fi level. Like the…
solution in the pic. Taken from the paper https://t.co/uYnxKqgHzq. https://t.co/Icfrpv2Wbm
"Eight of these employed a tiling of the sphere that was uniformly less than 5 km." It awes me. It's sci-fi level. Like the mice in Douglas Adams' trilogy re-creating Earth. Slartibartfast is dwarfed to being a mere tinkerer with his fiords compared to thi
RT @juracan82: @RogerAPielkeSr @RyanMaue @WeatherProf @CliffMass Thanks. Yes, I mean grid spacing. I'm aware that the effective resolution…
Da leggere!
@RogerAPielkeSr @RyanMaue @WeatherProf @CliffMass Thanks. Yes, I mean grid spacing. I'm aware that the effective resolution is 4 to 6 times delta-x, but here I was trying to also reach a non-technical audience. FYI, in the #DYAMOND initiative we now run gl
RT @irinasandu_ec: And one of the images is simulated with a 4km version of @ECMWF #IFS - which one ? 😉 https://t.co/fg9ftxGbGb
RT @irinasandu_ec: And one of the images is simulated with a 4km version of @ECMWF #IFS - which one ? 😉 https://t.co/fg9ftxGbGb
RT @smlmrn: Étude très impressionnante, avec 40 jours de simulation du modèle @meteofrance #ARPEGE en mode non-hydrostatique à 2.5 km de ré…
RT @smlmrn: Étude très impressionnante, avec 40 jours de simulation du modèle @meteofrance #ARPEGE en mode non-hydrostatique à 2.5 km de ré…
RT @smlmrn: Étude très impressionnante, avec 40 jours de simulation du modèle @meteofrance #ARPEGE en mode non-hydrostatique à 2.5 km de ré…
RT @smlmrn: Étude très impressionnante, avec 40 jours de simulation du modèle @meteofrance #ARPEGE en mode non-hydrostatique à 2.5 km de ré…
RT @smlmrn: Étude très impressionnante, avec 40 jours de simulation du modèle @meteofrance #ARPEGE en mode non-hydrostatique à 2.5 km de ré…
RT @smlmrn: Étude très impressionnante, avec 40 jours de simulation du modèle @meteofrance #ARPEGE en mode non-hydrostatique à 2.5 km de ré…
Étude très impressionnante, avec 40 jours de simulation du modèle @meteofrance #ARPEGE en mode non-hydrostatique à 2.5 km de résolution sur toute la Terre. Bravo à L. Auger & autres collègues #GMAP #CNRM @meteofrance @CNRS pour repousser les limites &a
Només una d'aquestes imatges és una imatge de satèl·lit de debó. Jo no sóc capaç d'identificar-la. Algú es capaç? Això mostra els avanços en modelització atmosférica.
RT @irinasandu_ec: And one of the images is simulated with a 4km version of @ECMWF #IFS - which one ? 😉 https://t.co/fg9ftxGbGb
RT @irinasandu_ec: And one of the images is simulated with a 4km version of @ECMWF #IFS - which one ? 😉 https://t.co/fg9ftxGbGb
RT @masakisatoh2015: DYAMOND paper on-line published! Bjorn Stevens et al. (2019) DYAMOND: The DYnamics of the Atmospheric general circul…
RT @juracan82: Can you tell simulation from reality? With the next-generation of weather/climate models, we will be able to simulate our…
RT @juracan82: Can you tell simulation from reality? With the next-generation of weather/climate models, we will be able to simulate our…
RT @juracan82: Can you tell simulation from reality? With the next-generation of weather/climate models, we will be able to simulate our…
RT @masakisatoh2015: DYAMOND paper on-line published! Bjorn Stevens et al. (2019) DYAMOND: The DYnamics of the Atmospheric general circul…
RT @juracan82: Can you tell simulation from reality? With the next-generation of weather/climate models, we will be able to simulate our…
RT @juracan82: Can you tell simulation from reality? With the next-generation of weather/climate models, we will be able to simulate our…
Can you tell simulation from reality? With the next-generation of weather/climate models, we will be able to simulate our atmosphere more realistically than ever before. Learn about the #DYAMOND initiative, a next-gen model intercomparison here: https:
RT @masakisatoh2015: DYAMOND paper on-line published! Bjorn Stevens et al. (2019) DYAMOND: The DYnamics of the Atmospheric general circul…
RT @PEPS_JpGU: A new review article: Published 30 September 2019 DYAMOND: the DYnamics of the Atmospheric general circulation Modeled On N…
A new review article: Published 30 September 2019 DYAMOND: the DYnamics of the Atmospheric general circulation Modeled On Non-hydrostatic Domains Bjorn Stevens et al. https://t.co/IwVDT7VDat #Climate_modelling #Model_intercomparison_project #Tropical_Co
RT @masakisatoh2015: DYAMOND paper on-line published! Bjorn Stevens et al. (2019) DYAMOND: The DYnamics of the Atmospheric general circul…
Intercomparison of 9 models run at non-hydrostatic resolutions (O(5km)), w/stunning images Should we focus more on running higher resolution models or on improving models with ML/data assimilation, etc.?
DYAMOND paper on-line published! Bjorn Stevens et al. (2019) DYAMOND: The DYnamics of the Atmospheric general circulation Modeled On Non-hydrostatic Domains. Progress in Earth and Planetary Science, 6, 61, https://t.co/EE6GZlkFao