A priori hyperreduction method: an adaptive approach D Ryckelynck Journal of computational physics 202 (1), 346-366, 2005 | 481 | 2005 |
Hyper‐reduction of mechanical models involving internal variables D Ryckelynck International Journal for numerical methods in engineering 77 (1), 75-89, 2009 | 249 | 2009 |
On thea priori model reduction: Overview and recent developments D Ryckelynck, F Chinesta, E Cueto, A Ammar Archives of Computational methods in Engineering 13, 91-128, 2006 | 201 | 2006 |
A new extension of the natural element method for non‐convex and discontinuous problems: the constrained natural element method (C‐NEM) J Yvonnet, D Ryckelynck, P Lorong, F Chinesta International journal for numerical methods in engineering 60 (8), 1451-1474, 2004 | 145 | 2004 |
Multi-level a priori hyper-reduction of mechanical models involving internal variables D Ryckelynck, DM Benziane Computer Methods in Applied Mechanics and Engineering 199 (17-20), 1134-1142, 2010 | 102 | 2010 |
On the reduction of kinetic theory models related to finitely extensible dumbbells A Ammar, D Ryckelynck, F Chinesta, R Keunings Journal of Non-Newtonian Fluid Mechanics 134 (1-3), 136-147, 2006 | 95 | 2006 |
Model order reduction assisted by deep neural networks (ROM-net) T Daniel, F Casenave, N Akkari, D Ryckelynck Advanced Modeling and Simulation in Engineering Sciences 7, 1-27, 2020 | 91 | 2020 |
Multidimensional a priori hyper-reduction of mechanical models involving internal variables D Ryckelynck, F Vincent, S Cantournet Computer Methods in Applied Mechanics and Engineering 225, 28-43, 2012 | 58 | 2012 |
Hybrid hyper‐reduced modeling for contact mechanics problems J Fauque, I Ramière, D Ryckelynck International Journal for Numerical Methods in Engineering 115 (1), 117-139, 2018 | 55 | 2018 |
The constrained natural element method (C-NEM) for treating thermal models involving moving interfaces J Yvonnet, F Chinesta, P Lorong, D Ryckelynck International Journal of Thermal Sciences 44 (6), 559-569, 2005 | 54 | 2005 |
Crystal plasticity modeling of the cyclic behavior of polycrystalline aggregates under non-symmetric uniaxial loading: Global and local analyses H Farooq, G Cailletaud, S Forest, D Ryckelynck International Journal of Plasticity 126, 102619, 2020 | 53 | 2020 |
An efficient ‘a priori’model reduction for boundary element models D Ryckelynck, L Hermanns, F Chinesta, E Alarcón Engineering Analysis with Boundary Elements 29 (8), 796-801, 2005 | 52 | 2005 |
Meshless methods and partition of unity finite elements N Sukumar, J Dolbow, A Devan, J Yvonnet, F Chinesta, D Ryckelynck, ... International Journal of Forming Processes 8 (4), 409-427, 2005 | 50 | 2005 |
Hyper-reduced predictions for lifetime assessment of elasto-plastic structures D Ryckelynck, K Lampoh, S Quilicy Meccanica 51, 309-317, 2016 | 46 | 2016 |
An algorithmic comparison of the hyper-reduction and the discrete empirical interpolation method for a nonlinear thermal problem F Fritzen, B Haasdonk, D Ryckelynck, S Schöps Mathematical and computational applications 23 (1), 8, 2018 | 42 | 2018 |
A nonintrusive distributed reduced‐order modeling framework for nonlinear structural mechanics—Application to elastoviscoplastic computations F Casenave, N Akkari, F Bordeu, C Rey, D Ryckelynck International journal for numerical methods in engineering 121 (1), 32-53, 2020 | 40 | 2020 |
Réduction a priori de modèles thermomécaniques D Ryckelynck Comptes Rendus Mécanique 330 (7), 499-505, 2002 | 39 | 2002 |
Beremin model: Methodology and application to the prediction of the Euro toughness data set A Andrieu, A Pineau, J Besson, D Ryckelynck, O Bouaziz Engineering Fracture Mechanics 95, 102-117, 2012 | 37 | 2012 |
A priori reduction method for solving the two-dimensional burgers’ equations C Allery, A Hamdouni, D Ryckelynck, N Verdon Applied Mathematics and Computation 217 (15), 6671-6679, 2011 | 30 | 2011 |
Production mechanism of the X (1740) meson D Alde, FG Binon, M Boutemeur, C Bricman, SV Donskov, M Gouanere, ... Physics Letters B 284 (3-4), 457-460, 1992 | 28 | 1992 |