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Autores principales: Rodriguez-Fernandez, P., Howard, N. T., Hall, J., Saltzman, A., Martin-Sanabria, A., Ho, A., Snoep, G., Pimentel-Aldaz, J., Holland, C., Muraca, M., Montoya, P. de Lara, Yanna, K., White, A. E., Body, T., Creely, A. J., Hillesheim, J. C., Snyder, P. B.
Formato: Preprint
Publicado: 2026
Materias:
Acceso en línea:https://arxiv.org/abs/2605.07047
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author Rodriguez-Fernandez, P.
Howard, N. T.
Hall, J.
Saltzman, A.
Martin-Sanabria, A.
Ho, A.
Snoep, G.
Pimentel-Aldaz, J.
Holland, C.
Muraca, M.
Montoya, P. de Lara
Yanna, K.
White, A. E.
Body, T.
Creely, A. J.
Hillesheim, J. C.
Snyder, P. B.
author_facet Rodriguez-Fernandez, P.
Howard, N. T.
Hall, J.
Saltzman, A.
Martin-Sanabria, A.
Ho, A.
Snoep, G.
Pimentel-Aldaz, J.
Holland, C.
Muraca, M.
Montoya, P. de Lara
Yanna, K.
White, A. E.
Body, T.
Creely, A. J.
Hillesheim, J. C.
Snyder, P. B.
contents This paper introduces the MAESTRO workflow, that enables the coupling of the PORTALS framework [P. Rodriguez-Fernandez et al, Nucl. Fusion 2024] with external solvers for the plasma equilibrium, pedestal physics, divertor constraints and heating. The surrogate-based optimization nature of the transport solver is ideally suited for external coupling, allowing efficient steady-state predictions of plasma profiles with full physics models. Improvements in the surrogate modeling of quasilinear transport models with PORTALS are presented, which enable the efficient handling of discontinuities in the transport fluxes that can arise from numerical issues or physical instabilities with extreme stiffness. The combination of physics-informed methods and advanced numerical techniques allows the MAESTRO workflow to provide accurate and efficient predictions of steady-state plasma profiles, which are critical for fusion reactor design and optimization.
format Preprint
id arxiv_https___arxiv_org_abs_2605_07047
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Accelerating integrated modeling with surrogate-based optimization: the MAESTRO workflow
Rodriguez-Fernandez, P.
Howard, N. T.
Hall, J.
Saltzman, A.
Martin-Sanabria, A.
Ho, A.
Snoep, G.
Pimentel-Aldaz, J.
Holland, C.
Muraca, M.
Montoya, P. de Lara
Yanna, K.
White, A. E.
Body, T.
Creely, A. J.
Hillesheim, J. C.
Snyder, P. B.
Plasma Physics
This paper introduces the MAESTRO workflow, that enables the coupling of the PORTALS framework [P. Rodriguez-Fernandez et al, Nucl. Fusion 2024] with external solvers for the plasma equilibrium, pedestal physics, divertor constraints and heating. The surrogate-based optimization nature of the transport solver is ideally suited for external coupling, allowing efficient steady-state predictions of plasma profiles with full physics models. Improvements in the surrogate modeling of quasilinear transport models with PORTALS are presented, which enable the efficient handling of discontinuities in the transport fluxes that can arise from numerical issues or physical instabilities with extreme stiffness. The combination of physics-informed methods and advanced numerical techniques allows the MAESTRO workflow to provide accurate and efficient predictions of steady-state plasma profiles, which are critical for fusion reactor design and optimization.
title Accelerating integrated modeling with surrogate-based optimization: the MAESTRO workflow
topic Plasma Physics
url https://arxiv.org/abs/2605.07047