• IFISS

  • Referenced in 105 articles [sw04398]
  • mixed finite element methods and a posteriori error estimation of the computed solutions. The package...
  • bvpsuite

  • Referenced in 16 articles [sw08540]
  • equations. We also discuss the a posteriori error estimate and the grid adaptation strategy implemented...
  • AptoFEM

  • Referenced in 5 articles [sw12628]
  • Arbitrary high-order hp-FEM. A posteriori error estimation. Interfaces to a variety of third...
  • 3DmhpqAP

  • Referenced in 3 articles [sw08740]
  • complex structures. Part II: A posteriori error estimation. This is the second paper ... each finite element. The a posteriori error estimation discussed in the present paper is based...
  • BACOL

  • Referenced in 6 articles [sw00064]
  • balancing both spatial and temporal error estimates. The software implements a spline collocation method ... solution, a high quality a posteriori spatial error estimate is obtained after each successful time...
  • ALADINS

  • Referenced in 2 articles [sw09563]
  • identification of a reliable a posteriori error estimator. Typical strategies are based on the combination ... difference between the two estimates provide a natural a posteriori estimator. After introducing the incremental...
  • FLIPS

  • Referenced in 6 articles [sw00299]
  • given and some statistical information about the error is known. The task is to extract ... able to calculate the maximum a posteriori estimate ... estimate) and the posteriori covariance matrix of the unknown. If the error and (possible ... unknown, and the MAP estimate together with the posteriori covariance matrix are enough to determine...
  • ManifoldCode

  • Referenced in 1 article [sw06974]
  • Petrov-Galerkin finite element methods, a posteriori error estimation, adaptive mesh refinement and un-refinement...
  • ParAFEMCap

  • Referenced in 1 article [sw12734]
  • varying the threshold for the a posteriori error estimator, while the computational time can easily...
  • ALBERT

  • Referenced in 74 articles [sw00025]
  • ALBERT—Software for scientific computations and applications. Adaptive...
  • CGAL

  • Referenced in 219 articles [sw00118]
  • The goal of the CGAL Open Source Project...
  • C-XSC

  • Referenced in 86 articles [sw00181]
  • C-XSC. A programming environment for verified scientific...
  • C-XSC 2.0

  • Referenced in 111 articles [sw00182]
  • A C++ class library for extended scientific computing...
  • EPDCOL

  • Referenced in 14 articles [sw00240]
  • The software package PDECOL [7] is a popular...
  • Expokit

  • Referenced in 103 articles [sw00258]
  • Expokit provides a set of routines aimed at...
  • FIAT

  • Referenced in 16 articles [sw00287]
  • Much of finite element computation is constrained by...
  • Gmsh

  • Referenced in 146 articles [sw00366]
  • Gmsh is a 3D finite element grid generator...
  • ISOGAT

  • Referenced in 99 articles [sw00457]
  • A tutorial 2D MATLAB code for solving elliptic...
  • LAPACK

  • Referenced in 1175 articles [sw00503]
  • LAPACK is written in Fortran 90 and provides...