pyramid_witherden_rule


pyramid_witherden_rule, a C code which returns a Witherden quadrature rule, with exactness up to total degree 10, over the interior of a pyramid in 3D.

The integration region is:

       - ( 1 - Z ) <= X <= 1 - Z
       - ( 1 - Z ) <= Y <= 1 - Z
                 0 <= Z <= 1.
       
When Z is zero, the integration region is a square lying in the (X,Y) plane, centered at (0,0,0) with "radius" 1. As Z increases to 1, the radius of the square diminishes, and when Z reaches 1, the square has contracted to the single point (0,0,1).

Licensing:

The computer code and data files made available on this web page are distributed under the MIT license

Languages:

pyramid_witherden_rule is available in a C version and a C++ version and a Fortran90 version and a MATLAB version and an Octave version and a Python version.

Related Data and Programs:

pyramid_witherden_rule_test

hexagon_stroud_rule, a C code which computes one of four Stroud quadrature rules over the interior of the unit hexagon.

pyramid_exactness, a C code which investigates the polynomial exactness of a quadrature rule over the interior of the unit pyramid in 3d.

pyramid_felippa_rule, a C code which returns a Felippa quadrature rule for approximating integrals over the interior of a pyramid in 3d.

pyramid_integrals, a C code which returns the exact value of the integral of any monomial over the interior of the unit pyramid in 3d.

pyramid_jaskowiec_rule, a C code which returns quadrature rules, with exactness up to total degree 20, over the interior of a pyramid in 3D, by Jan Jaskowiec, Natarajan Sukumar.

pyramid_monte_carlo, a C code which applies a Monte Carlo method to estimate integrals of a function over the interior of the unit pyramid in 3d;

pyramid_rule, a C code which computes a conical product quadrature rule over the interior of the unit pyramid in 3d.

Reference:

  1. Freddie Witherden, Peter Vincent,
    On the identification of symmetric quadrature rules for finite element methods,
    Computers and Mathematics with Applications,
    Volume 69, pages 1232-1241, 2015.

Source Code:


Last revised on 26 April 2023.