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

fluid-structure coupling
octant layer
Laplace operator on infinite layer domains
aeroacoustics
quantum layers
conical layers
Laplace equation
time-harmonic radiation
rational approximation
nonlinear eigenvalue problem
method of fundamental solutions
Hermite integral
essential spectrum
instability
potential theory
trapped mode
Fichera corner

References in zbMATH (referenced in 4 articles )

Showing results 1 to 4 of 4.

Sorted by year (citations)

Gopal, Abinand; Trefethen, Lloyd N.: Solving Laplace problems with corner singularities via rational functions (2019)
Alouges, François; Aussal, Matthieu: FEM and BEM simulations with the Gypsilab framework (2018)
Dauge, Monique; Lafranche, Yvon; Ourmières-Bonafos, Thomas: Dirichlet spectrum of the Fichera layer (2018)
Mercier, J.-F.: A sufficient condition for the absence of two-dimensional instabilities of an elastic plate in a duct with compressible flow (2018)