**fem2d_bvp_serene**,
a MATLAB code which
applies the finite element method, with serendipity elements,
to a 2D boundary value problem over a rectangle.

The boundary value problem (BVP) that is to be solved has the form:

- d/dx ( a(x,y) * du/dx ) - d/dy ( a(x,y) * du/dy ) + c(x,y) * u(x,y) = f(x,y)This equation holds in the interior of some rectangle R. The functions a(x,y), c(x,y), and f(x,y) are given.

Zero boundary conditions are imposed on the boundary of R.

The MATLAB "gallery()" command can produce a copy of the Wathen matrix, which arises as a weighted sum of elementary mass matrices associated with a grid of serendipity elements.

The computer code and data files described and made available on this web page are distributed under the GNU LGPL license.

**fem2d_bvp_serene** is available in
a C version and
a C++ version and
a FORTRAN90 version and
a MATLAB version.

fem2d_bvp_linear, a MATLAB code which applies the finite element method (FEM), with piecewise linear elements, to a 2D boundary value problem (BVP) over a rectangle, and compares the computed and exact solutions with the L2 and seminorm errors.

fem2d_bvp_quadratic, a MATLAB code which applies the finite element method (FEM), with piecewise quadratic elements, to a 2D boundary value problem (BVP) over a rectangle, and compares the computed and exact solutions with the L2 and seminorm errors.

wathen, a MATLAB code which compares storage schemes (full, banded, sparse triplet, sparse) and solution strategies (A\x, Linpack, conjugate gradient (CG)) for linear systems involving the Wathen matrix, which can arise when solving a problem using the finite element method (FEM).

- basis_serene.m, evaluates the basis functions for the serendipity element.
- basisd_serene.m, evaluates the X and Y derivatives of the basis functions for the serendipity element.
- fem2d_bvp_serene.m, sets up and solves the finite element problem.
- fem2d_bvp_serene_extend.m, extends a solution from the serendipity grid to a regular grid.
- fem2d_bvp_serene_node_num.m, returns the number of nodes in a grid made of serendipity elements.
- fem2d_h1s_error_serene.m, evaluates the H1S seminorm error for a serendipity finite element solution.
- fem2d_l1_error_serene.m, evaluates the l1 error for a serendipity finite element solution.
- fem2d_l2_error_serene.m, evaluates the L2 error for a serendipity finite element solution.
- not1.m, evaluates a one-term factor for serendipity basis functions.
- not1d.m, differentiates a one-term factor for serendipity basis functions.
- not2.m, evaluates a two-term factor for serendipity basis functions.
- not2dx.m, differentiates a two-term factor for serendipity basis functions with respect to X.
- not2dy.m, differentiates a two-term factor for serendipity basis functions with respect to Y.