XLiFE++

XLiFE++ - eXtended Library of Finite Elements in C++. XLiFE++ is an FEM-BEM C++ code developed by P.O.e.m.s. laboratory and I.R.M.A.R. laboratory, that can solve 1D / 2D / 3D, scalar / vector, transient / stationnary / harmonic problems. It provides: Advanced mesh tools, with refinement methods, including an advanced interface to the mesh generator Gmsh; High order Lagrange Finite Elements (every order); High order edge Finite Elements (every order); Boundary Elements methods: Laplace, Helmholtz, Maxwell, Stokes (in progress); Essential conditions (periodic, quasi-periodic); Absorbing conditions: DtN, PML, ...; Export to visualization tools such as Gmsh, Paraview, Matlab; Many solvers (direct solvers, iterative solvers, eigenvalue solvers, wrappers to Arpack, UmfPack and Eigen libraries)

Keywords for this software

Anything in here will be replaced on browsers that support the canvas element

References in zbMATH (referenced in 5 articles )

Showing results 1 to 5 of 5.
Sorted by year (citations)

  1. Guzina, Bojan B.; Bonnet, Marc: Effective wave motion in periodic discontinua near spectral singularities at finite frequencies and wavenumbers (2021)
  2. Gopal, Abinand; Trefethen, Lloyd N.: Solving Laplace problems with corner singularities via rational functions (2019)
  3. Alouges, François; Aussal, Matthieu: FEM and BEM simulations with the Gypsilab framework (2018)
  4. Dauge, Monique; Lafranche, Yvon; Ourmières-Bonafos, Thomas: Dirichlet spectrum of the Fichera layer (2018)
  5. Mercier, J.-F.: A sufficient condition for the absence of two-dimensional instabilities of an elastic plate in a duct with compressible flow (2018)