Much of the FEniCS software is devoted to the formulation of variational forms (UFL), the discretization of variational forms (FIAT, FFC, SyFi) and the assembly of the corresponding discrete operators (UFC, DOLFIN). This chapter summarizes the notation for variational forms used throughout FEniCS
This chapter addresses the conventional run-time quadrature approach for the numerical integration o...
We describe here a library aimed at automating the solution of partial differential equations using ...
We present the Unified Form Language (UFL), which is a domain-specific language for representing wea...
Much of the FEniCS software is devoted to the formulation of variational forms (UFL), the discretiza...
One of the key features of FEniCS is automated code generation for the general and efficient solutio...
One of the key features of FEniCS is automated code generation for the general and efficient 7018 so...
As a key step towards a complete automation of the finite element method, we present a new algorithm...
A central component of FEniCS is the UFC interface (Unified Form-assembly Code). UFC is an 8703 inte...
At the heart of any finite element simulation is the assembly of matrices and vectors from discrete ...
The finite element method may be viewed as a method for forming a discrete linear system 4064 AU = b...
This textbook teaches finite element methods from a computational point of view. It focuses on how t...
We investigate the compilation of general multilinear variational forms over affines simplices and p...
National audienceWe provide an overview of the FEniCS software package with applications to continuu...
We present the Unified Form Language (UFL), which is a domain-specific language for representing wea...
We examine the effect of using complexity-reducing relations [Kirby et al. 2006] to generate optimiz...
This chapter addresses the conventional run-time quadrature approach for the numerical integration o...
We describe here a library aimed at automating the solution of partial differential equations using ...
We present the Unified Form Language (UFL), which is a domain-specific language for representing wea...
Much of the FEniCS software is devoted to the formulation of variational forms (UFL), the discretiza...
One of the key features of FEniCS is automated code generation for the general and efficient solutio...
One of the key features of FEniCS is automated code generation for the general and efficient 7018 so...
As a key step towards a complete automation of the finite element method, we present a new algorithm...
A central component of FEniCS is the UFC interface (Unified Form-assembly Code). UFC is an 8703 inte...
At the heart of any finite element simulation is the assembly of matrices and vectors from discrete ...
The finite element method may be viewed as a method for forming a discrete linear system 4064 AU = b...
This textbook teaches finite element methods from a computational point of view. It focuses on how t...
We investigate the compilation of general multilinear variational forms over affines simplices and p...
National audienceWe provide an overview of the FEniCS software package with applications to continuu...
We present the Unified Form Language (UFL), which is a domain-specific language for representing wea...
We examine the effect of using complexity-reducing relations [Kirby et al. 2006] to generate optimiz...
This chapter addresses the conventional run-time quadrature approach for the numerical integration o...
We describe here a library aimed at automating the solution of partial differential equations using ...
We present the Unified Form Language (UFL), which is a domain-specific language for representing wea...