Abstract
AbstractOver the decades, the integrated modeling (IM) environment for magnetically confined fusion has evolved from a single, isolated, proprietary numerical computing software to an open, flexible platform emphasizing sharing, communication, and workflow. This development direction is consistent with the FAIR4RS principles put forward by the scientific community in recent years. In this article, we describe how the FAIR4RS principles were put into practice during the development of the IM management tool FyDev for the Experimental Advanced Superconducting Tokamak (EAST). FyDev integrates the process of building, deploying, and invoking research software, automating the entire process. FyDev can also assign a unique ID for each software, convert the software ID to a Python module, and encapsulate a package management tool to enhance the software building process, ensuring consistency throughout the entire phase of the research software find, access, use, and invocation in a uniform contextual environment.
Publisher
Springer Science and Business Media LLC
Subject
Library and Information Sciences,Statistics, Probability and Uncertainty,Computer Science Applications,Education,Information Systems,Statistics and Probability
Reference34 articles.
1. Imbeaux, F. et al. Design and first applications of the ITER integrated modelling & analysis suite. Nuclear Fusion 55 (2015).
2. Hawryluk, R. An Empirical Approach To Tokamak Transport. In Physics of Plasmas Close to Thermonuclear Conditions, 19–46 (Elsevier, 1981).
3. Pereverzev, G. V., Yushmanov, P. N. & eta. ASTRA-Automated System for Transport Analysis in a Tokamak. Tech. Rep. IPP 5/98, Max-Planck-Institut für Plasmaphysik (1991).
4. Artaud, J. et al. The CRONOS suite of codes for integrated tokamak modelling. Nuclear Fusion 50, 043001 (2010).
5. Meneghini, O. et al. Integrated modeling applications for tokamak experiments with OMFIT. Nuclear Fusion 55, 083008 (2015).