VisIt

VisIt is an interactive parallel visualization and graphical analysis tool for viewing scientific data. Users can quickly generate visualizations from their data, animate them through time, manipulate them, and save the resulting images for presentations. VisIt contains a rich set of visualization features so that you can view your data in a variety of ways. It can be used to visualize scalar and vector fields defined on two- and three-dimensional (2D and 3D) structured and unstructured meshes. It was designed to interactively handle very large data set sizes in the terascale range, and works well down to small data sets in the kilobyte range. (Source: http://freecode.com/)


References in zbMATH (referenced in 51 articles )

Showing results 21 to 40 of 51.
Sorted by year (citations)
  1. Ducoin, A.; Astolfi, J. A.: Wall-pressure fluctuations of laminar separation bubble based on direct numerical simulation and experiments over a hydrofoil at (\mathrmRe=450,000) (2019)
  2. Frolov, Roman: An efficient algorithm for the multicomponent compressible Navier-Stokes equations in low- and high-Mach number regimes (2019)
  3. Joshaghani, M. S.; Joodat, S. H. S.; Nakshatrala, K. B.: A stabilized mixed discontinuous Galerkin formulation for double porosity/permeability model (2019)
  4. 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)
  5. Lipnikov, Konstantin; Morgan, Nathaniel: A high-order conservative remap for discontinuous Galerkin schemes on curvilinear polygonal meshes (2019)
  6. Lipnikov, Konstantin; Morgan, Nathaniel: A high-order discontinuous Galerkin method for level set problems on polygonal meshes (2019)
  7. Malan, L. C.; Ling, Y.; Scardovelli, R.; Llor, A.; Zaleski, S.: Detailed numerical simulations of pore competition in idealized micro-spall using the VOF method (2019)
  8. Nangia, Nishant; Patankar, Neelesh A.; Bhalla, Amneet Pal Singh: A DLM immersed boundary method based wave-structure interaction solver for high density ratio multiphase flows (2019)
  9. Rasquin, M.; Bauer, A.; Hillewaert, K.: Scientific \textitposthoc and \textitinsitu visualisation of high-order polynomial solutions from massively parallel simulations (2019)
  10. Robert Anderson, Julian Andrej, Andrew Barker, Jamie Bramwell, Jean-Sylvain Camier, Jakub Cerveny, Veselin Dobrev, Yohann Dudouit, Aaron Fisher, Tzanio Kolev, Will Pazner, Mark Stowell, Vladimir Tomov, Johann Dahm, David Medina, Stefano Zampini: MFEM: a modular finite element methods library (2019) arXiv
  11. Roberts, Nathan V.: Camellia: a rapid development framework for finite element solvers (2019)
  12. Sarkar, Tanmay; Chandrashekar, Praveen: Stabilized discontinuous Galerkin scheme for the magnetic induction equation (2019)
  13. Badia, Santiago; Martín, Alberto F.; Principe, Javier: \textttFEMPAR: an object-oriented parallel finite element framework (2018)
  14. Brauss, K. D.; Meir, A. J.: On a parallel, 3-dimensional, finite element solver for viscous, resistive, stationary magnetohydrodynamics equations: velocity-current formulation (2018)
  15. Maunoury, Matthieu; Besse, Christophe; Mouysset, Vincent; Pernet, Sébastien; Haas, Pol-André: Well-suited and adaptive post-processing for the visualization of (hp) simulation results (2018)
  16. Chang, J.; Karra, S.; Nakshatrala, K. B.: Large-scale optimization-based non-negative computational framework for diffusion equations: parallel implementation and performance studies (2017)
  17. Owkes, Mark; Desjardins, Olivier: A mass and momentum conserving unsplit semi-Lagrangian framework for simulating multiphase flows (2017)
  18. Sarkar, Tanmay: Interior penalty discontinuous Galerkin method for magnetic induction equation with resistivity (2017)
  19. Zhao, Jia; Wang, Qi: Three-dimensional numerical simulations of biofilm dynamics with quorum sensing in a flow cell (2017)
  20. Aleksejs Fomins, Benedikt Oswald: Dune-CurvilinearGrid: Parallel Dune Grid Manager for Unstructured Tetrahedral Curvilinear Meshes (2016) arXiv