We present an implementation of the trimmed serendipity finite element family, using the open-source finite element package Firedrake. The new elements can be used seamlessly within the software suite for problems requiring H1, H(curl), or H(div)-conforming elements on meshes of squares or cubes. To test how well trimmed serendipity elements perform in comparison to traditional tensor product elements, we perform a sequence of numerical experiments including the primal Poisson, mixed Poisson, and Maxwell cavity eigenvalue problems. Overall, we find that the trimmed serendipity elements converge, as expected, at the same rate as the respective tensor product elements, while being able to offer significant savings in the time or memory requir...
Edge (or Nédélec) finite elements are theoretically sound and widely used by the computational elect...
This paper describes the formulation of shape functions and their derivatives for universal serendip...
We introduce a new variant of Nodal Virtual Element spaces that mimics the ``Serendipity Finite Elem...
We present an implementation of the trimmed serendipity finite element family, using the open source...
We present an implementation of the trimmed serendipity finite element family, using the open-source...
This record collates DOIs for the software components used in 'Bringing Trimmed Serendipity Methods ...
Finite element exterior calculus and discrete exterior calculus have been actively used and develope...
Firedrake is a new tool for automating the numerical solution of partial differential equations. Fir...
Firedrake is a new tool for automating the numerical solution of partial differential equations. Fir...
Many classical finite elements such as the Argyris and Bell elements have long been absent from high...
Firedrake [1] is a system for solving partial differential equations using finite element methods. I...
International audienceThe paper presents review of the results obtained in constructing models of se...
Version of Firedrake used in 'Optimal-transport-based mesh adaptivity on the plane and sphere using ...
In this paper, the concept that adds the interior nodes of the Lagrange elements to the serendipity ...
Maxwell's equations are a system of partial differential equations of vector fields. Imposing the co...
Edge (or Nédélec) finite elements are theoretically sound and widely used by the computational elect...
This paper describes the formulation of shape functions and their derivatives for universal serendip...
We introduce a new variant of Nodal Virtual Element spaces that mimics the ``Serendipity Finite Elem...
We present an implementation of the trimmed serendipity finite element family, using the open source...
We present an implementation of the trimmed serendipity finite element family, using the open-source...
This record collates DOIs for the software components used in 'Bringing Trimmed Serendipity Methods ...
Finite element exterior calculus and discrete exterior calculus have been actively used and develope...
Firedrake is a new tool for automating the numerical solution of partial differential equations. Fir...
Firedrake is a new tool for automating the numerical solution of partial differential equations. Fir...
Many classical finite elements such as the Argyris and Bell elements have long been absent from high...
Firedrake [1] is a system for solving partial differential equations using finite element methods. I...
International audienceThe paper presents review of the results obtained in constructing models of se...
Version of Firedrake used in 'Optimal-transport-based mesh adaptivity on the plane and sphere using ...
In this paper, the concept that adds the interior nodes of the Lagrange elements to the serendipity ...
Maxwell's equations are a system of partial differential equations of vector fields. Imposing the co...
Edge (or Nédélec) finite elements are theoretically sound and widely used by the computational elect...
This paper describes the formulation of shape functions and their derivatives for universal serendip...
We introduce a new variant of Nodal Virtual Element spaces that mimics the ``Serendipity Finite Elem...