itzh-CNenfrdeptrues
Harris
3D Target

Webinar su come gestire i dati nella progettazione di modelli climatici a larga scala

Climate modeling experiments on modern-day supercomputers produce a large volume of data. These complex experiments and historical simulations are designed, planned and executed by climate scientists in collaboration with computational and data scientists and professionals.

The suite of Coupled Model Intercomparison Project Phase 6 (CMIP6) experiments generate several hundred terabytes of data across thousands of files. The team of scientists are often spread across geographically distributed centers and research institutions that make it a challenge to distribute the data for research collaborations.

The Energy Exascale Earth System Modeling Project is a large multi-laboratory and multi-institution effort sponsored by the Earth System Modeling program in the US Department of Energy (DOE) Office of Biological and Environmental Research. This collaborative project involves over 100 scientists, software developers and management personnel from eight US DOE national laboratories, several academic institutions and private industry partners. The main objective of the project is to develop and utilize the ultra-high resolution state-of-the-art earth system model, called the Energy Exascale Earth System Model (E3SM) to address the mission-specific climate change and energy research priorities of the United States and to optimize the use of DOE’s next-generation computational facilities.

E3SM is designed and developed to exploit the modern computer hardware architectures and the associated investments in software development. The 10-year roadmap for E3SM spans three generations of leadership class computer architectures and four phases of model development and corresponding major simulation experiments, supported by the implementation of the E3SM Infrastructure that will maintain a disciplined software engineering structure and turnkey workflows for computational experiment design, execution, analysis of output and distribution of results. The first series of production simulation experiments are expected to generate nearly 2PB of simulation output while consuming over 1 billion core-hours of computing resources across the three major DOE Computing Facilities.

Much of the labor-intensive analysis and data management activities have been streamlined and integrated via an automated end-to-end workflow process. In this talk, Valentine Anantharaj will describe how (a) we plan and schedule the modeling across various supercomputing facilities; (b) gather and manage the data; (c) analyze and publish the results; and (d) preserve the provenance of our activities. He will also discuss some of the lessons learned, especially the challenges involved in orchestrating our simulations and workflow across major computing and data facilities.

More details

Tuesday, July 31, 2018
h. 3.00 - 3.50 pm CEST
Language: English

Presenter: Valentine Anantharaj, Oak Ridge Leadership Computing Facility, Oak Ridge National Laboratory, USA
Moderator: Sandro Fiore, Fondazione CMCC - Centro Euro-Mediterraneo sui Cambiamenti Climatici

JOIN THE WEBINAR

For further information, please visit the webinar web page or contact: Questo indirizzo email è protetto dagli spambots. È necessario abilitare JavaScript per vederlo.


 Copia qui lo "short link" a questo articolo
www.geoforall.it/k43hc

Trimble Italia
Trimble Italia
Getac palmari e pc fully ragged blindati
ProfiloColore
AeroVision

Naviga per temi

teorema webGIS multispettrale monitoraggio geologia osservazione dell'universo pianificazione geoportale catasto Harris CAD hexagon meteorologia utility e-geos numerazione civica digital geography INSPIRE flytop dissesto idrogeologico protezione civile open source top rndt asi cosmo skymed open data arcgis aerofotogrammetria esa interferometria planetek Toponomastica reti tecnologiche misurazione ricevitori remote sensing esri italia in cantiere scansione 3D top story fotogrammetria uav beidou top world copernicus topcon agricoltura tecnologia smartphone mobilita faro SIFET rilievo realta aumentata storytelling formazione Here geospatial urbanistica scienze della terra sentinel topografia cnr app telerilevamento nuvole di punti spazio esri dati galileo osservazione della terra sicurezza leica geosystems droni geomax Bentley sensore eGEOS trasporti smart mobility ict ISPRA uso del suolo ingv modellazione 3d Epsilon Italia tecnologie avanzate infrastrutture openstreetmap geolocalizzazione autodesk terrelogiche codevintec gps geomatica laser scanner mobile mapping internet of things smart city satelliti leica apr intelligenza artificiale big data asita ortofoto dati geografici autocad GIS sar gestione emergenze stazione totale open geo data rilievo 3d technologyforall archeologia mappe metadati Stonex 3D qgis cantiere servizi cartografia catasto europeo GNSS posizionamento satellitare terremoto BIM ambiente FOIF geodesia beni culturali geofisica energia realtà virtuale terra e spazio oceanografia progettazione coste microgeo INTERGEO trimble mare sinergis rischio termografia lidar territorio
VidaLaser

Il video del mese

Planetek ImageryPack
intergeo

Iscriviti alla Newsletter

Rimani aggiornato e registrati per ricevere la nostra newsletter!

Login redazione

Disclaimer

I contenuti redazionali di questo sito (articoli, editoriali, redazionali, video e podcast) sono soggetti ai seguenti Termini di utilizzo
Redazione MediaGEO soc. coop. Via Palestro, 95 00185 Roma. Testata telematica con reg. al Tribunale di Roma n° 231/2009 del 26-6-2009. 

mediaGEO LOGONEW transp80x276

mediaGEO soc. coop.
Via Palestro, 95 - 00185 Roma
Tel. +39 06.64.87.12.09   
Fax +39 06.62.20.95.10
Questo indirizzo email è protetto dagli spambots. È necessario abilitare JavaScript per vederlo.

markerTrovaci su Google Maps