for supporting scenario preparation and plasma operation through a standardised data model designed to support both simulated and experimental data 1. The IMAS platform provides a high degree of modularity between physics models and physics workflows. One of the most sophisticated physics workflows developed so far in IMAS is for Heating and Current Drive (H&CD) modelling. The H&CD workflow developed by the ITER Organization is based upon an earlier development carried out within the European Integrated Modelling activities 2. It has been written in Python for its availability and portability, and its extensive use within the modelling community worldwide.
Simulation of Heating and Current Drive Sources for various Scenarios of the ITER Research Plan using the IMAS H&CD Workflow
Figini L;
2021
Abstract
for supporting scenario preparation and plasma operation through a standardised data model designed to support both simulated and experimental data 1. The IMAS platform provides a high degree of modularity between physics models and physics workflows. One of the most sophisticated physics workflows developed so far in IMAS is for Heating and Current Drive (H&CD) modelling. The H&CD workflow developed by the ITER Organization is based upon an earlier development carried out within the European Integrated Modelling activities 2. It has been written in Python for its availability and portability, and its extensive use within the modelling community worldwide.| File | Dimensione | Formato | |
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Descrizione: Simulation of Heating and Current Drive Sources for various Scenarios of the ITER Research Plan using the IMAS H&CD Workflow
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