Research
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High-fidelity simulations of complex phenomena.
Development of high-order approximations (in particular, hybridizable discontinuous Galerkin) with exact geometric description (via NURBS-enhanced FEM) of engineering problems.
PIs: A. Huerta and M. Giacomini.
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Robust low-order solvers for large-scale problems.
Development of innovative finite volume strategies and integration in open-source libraries for fast computation of industrial problems.
PIs: A. Huerta and M. Giacomini.
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Reduced order models for parametric studies.
Development of surrogate models (via proper generalized decomposition) for real-time solution of parametric problems.
PIs: A. Huerta and M. Giacomini.
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Credibility of computational engineering solutions.
Development of certification techniques for reliable simulations with goal-oriented error control and adaptivity.
PIs: A. Huerta.
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Open-source solutions for industrial problems.
Development of open-source software and application to fluid, solid, electromagnetics and multi-physics problems of industrial interest.
PIs: A. Huerta and M. Giacomini.
