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22 results on '"Pardo, David"'

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1. Refined isogeometric analysis for fluid mechanics and electromagnetics.

2. The value of continuity: Refined isogeometric analysis and fast direct solvers.

3. A Deep Double Ritz Method (D[formula omitted]RM) for solving Partial Differential Equations using Neural Networks.

4. A Deep Fourier Residual method for solving PDEs using Neural Networks.

5. The cost of continuity: A study of the performance of isogeometric finite elements using direct solvers

6. A Finite Element based Deep Learning solver for parametric PDEs.

7. A two-dimensional self-adaptive hp finite element method for the characterization of waveguide discontinuities. Part I: Energy-norm based automatic hp-adaptivity

8. A two-dimensional self-adaptive hp finite element method for the characterization of waveguide discontinuities. Part II: Goal-oriented hp-adaptivity

9. Refined isogeometric analysis for generalized Hermitian eigenproblems.

10. Goal-oriented adaptivity for a conforming residual minimization method in a dual discontinuous Galerkin norm.

11. A DPG-based time-marching scheme for linear hyperbolic problems.

12. Explicit-in-time goal-oriented adaptivity.

13. Computational cost of isogeometric multi-frontal solvers on parallel distributed memory machines.

14. Refined isogeometric analysis of quadratic eigenvalue problems.

15. Adaptive Deep Fourier Residual method via overlapping domain decomposition.

16. Error representation of the time-marching DPG scheme.

17. Robust Variational Physics-Informed Neural Networks.

18. Sensitivity and uncertainty analysis by discontinuous Galerkin of lock-in thermography for crack characterization.

19. Machine learning discovery of optimal quadrature rules for isogeometric analysis.

20. A painless multi-level automatic goal-oriented [formula omitted]-adaptive coarsening strategy for elliptic and non-elliptic problems.

21. On quadrature rules for solving Partial Differential Equations using Neural Networks.

22. A three-dimensional self-adaptive hp finite element method for the characterization of waveguide discontinuities

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