The CUBIT Geometry and Mesh Generation Toolkit: For more than a decade, CUBIT has been the focus of a broad research and development effort in mesh generation and geometry preparation at Sandia National Laboratories. The primary recipient and stakeholder for this effort has been Sandia and its sister laboratories within the USA, supporting computational field simulations for a variety of physics codes. In recent years CUBIT has also become more significant in academia and industry now supporting hundreds of active users world-wide. In addition to its role as a software provider, CUBIT encompasses ongoing research efforts to improve and discover new mesh generation algorithms, develop new tools for geometry cleanup and simplification and handle ever more complex preprocessing tasks for computational simulations.

References in zbMATH (referenced in 78 articles )

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  1. Behzadinasab, Masoud; Foster, John T.: A semi-Lagrangian constitutive correspondence framework for peridynamics (2020)
  2. Bishop, Joseph E.; Sukumar, N.: Polyhedral finite elements for nonlinear solid mechanics using tetrahedral subdivisions and dual-cell aggregation (2020)
  3. Kolahdouz, Ebrahim M.; Bhalla, Amneet Pal Singh; Craven, Brent A.; Griffith, Boyce E.: An immersed interface method for discrete surfaces (2020)
  4. Dohrmann, Clark R.; Pierson, Kendall H.; Widlund, Olof B.: Vertex-based preconditioners for the coarse problems of BDDC (2019)
  5. Leavy, R. B.; Guilkey, J. E.; Phung, B. R.; Spear, A. D.; Brannon, R. M.: A convected-particle tetrahedron interpolation technique in the material-point method for the mesoscale modeling of ceramics (2019)
  6. Rodriguez, Sal: Applied computational fluid dynamics and turbulence modeling. Practical tools, tips and techniques (2019)
  7. Russ, Jonathan B.; Waisman, Haim: Topology optimization for brittle fracture resistance (2019)
  8. Viertel, Ryan; Osting, Braxton: An approach to quad meshing based on harmonic cross-valued maps and the Ginzburg--Landau theory (2019)
  9. Bishop, Joseph E.; Brown, Judith A.: Adaptive reduction of constitutive model-form error using \textitaposteriori error estimation techniques (2018)
  10. Breuer, Alex; Wang, Xin-Cindy: More robust Chebyshev filtering for SCF iteration, with applications in real-space DFT (2018)
  11. Hong, Brian D.; Perego, Mauro; Bochev, Pavel; Frischknecht, Amalie L.; Phillips, Edward G.: Towards a scalable multifidelity simulation approach for electrokinetic problems at the mesoscale (2018)
  12. Van Beeumen, Roel; Marques, Osni; Ng, Esmond G.; Yang, Chao; Bai, Zhaojun; Ge, Lixin; Kononenko, Oleksiy; Li, Zenghai; Ng, Cho-Kuen; Xiao, Liling: Computing resonant modes of accelerator cavities by solving nonlinear eigenvalue problems via rational approximation (2018)
  13. Eken, Ali; Sahin, Mehmet: A parallel monolithic approach for fluid-structure interaction in a cerebral aneurysm (2017)
  14. Houzeaux, Guillaume; Cajas, J. C.; Discacciati, M.; Eguzkitza, B.; Gargallo-Peiró, A.; Rivero, M.; Vázquez, M.: Domain decomposition methods for domain composition purpose: chimera, overset, gluing and sliding mesh methods (2017)
  15. Kong, Fande; Cai, Xiao-Chuan: A scalable nonlinear fluid-structure interaction solver based on a Schwarz preconditioner with isogeometric unstructured coarse spaces in 3D (2017)
  16. Prokopenko, Andrey; Tuminaro, Raymond S.: An algebraic multigrid method for (Q_2-Q_1) mixed discretizations of the Navier-Stokes equations. (2017)
  17. Michoski, C.; Chan, J.; Engvall, L.; Evans, J. A.: Foundations of the blended isogeometric discontinuous Galerkin (BIDG) method (2016)
  18. Bishop, Joseph E.; Emery, John M.; Field, Richard V.; Weinberger, Christopher R.; Littlewood, David J.: Direct numerical simulations in solid mechanics for understanding the macroscale effects of microscale material variability (2015)
  19. Eguzkitza, B.; Houzeaux, G.; Calmet, H.; Vázquez, M.; Soni, B.; Aliabadi, S.; Bates, A.; Doorly, D.: A gluing method for non-matching meshes (2015)
  20. Mortensen, Mikael; Valen-Sendstad, Kristian: Oasis: a high-level/high-performance open source Navier-Stokes solver (2015)

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