FEniCS is a collection of software tools for the automated solution of differential equations by finite element methods. In this note, we describe how FEniCS can be used to solve a simple nonlinear model problem with varying levels of automation. At one extreme, FEniCS provides tools for the fully automated and adaptive solution of nonlinear partial differential equations. At the other extreme, FEniCS provides a range of tools that allow the computational scientist to experiment with novel solution algorithms. © 2010 American Institute of Physics
In engineering, physical phenomena are often described mathematically by partial differential equati...
The package *dolfin_navier_scipy (dns)* provides an interface between *scipy* and *FEniCS* in view o...
International audiencePartial differential equations (PDEs)-such as the Navier-Stokes equations in f...
Differential equations are solved routinely by large computer programs, but the solution process is ...
Poster presented at SIAM CSE17 PP108 Minisymposterium: Software Productivity and Sustainability for ...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
The FEniCS Project is a collaborative project for the development ofinnovative concepts and tools fo...
The FEniCS Project is a widely used, open-source problem solving environment for partial differentia...
Mixed-dimensional partial differential equations (PDEs) are equations coupling unknown fields define...
Mathematical models that couple partial differential equations (PDEs) and spatially distributed ordi...
This thesis is part of the FEniCS project of Automation of Computational Mathematical Modeling (ACMM...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
The goal of the FEniCS project is to develop open-source software for the automation of Computationa...
FEniCS Mechanics is a Python package to facilitate computational mechanics simulations. The Python l...
pulse is a software based on FEniCS that aims to solve problems in cardiac mechanics (but is easily ...
In engineering, physical phenomena are often described mathematically by partial differential equati...
The package *dolfin_navier_scipy (dns)* provides an interface between *scipy* and *FEniCS* in view o...
International audiencePartial differential equations (PDEs)-such as the Navier-Stokes equations in f...
Differential equations are solved routinely by large computer programs, but the solution process is ...
Poster presented at SIAM CSE17 PP108 Minisymposterium: Software Productivity and Sustainability for ...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
The FEniCS Project is a collaborative project for the development ofinnovative concepts and tools fo...
The FEniCS Project is a widely used, open-source problem solving environment for partial differentia...
Mixed-dimensional partial differential equations (PDEs) are equations coupling unknown fields define...
Mathematical models that couple partial differential equations (PDEs) and spatially distributed ordi...
This thesis is part of the FEniCS project of Automation of Computational Mathematical Modeling (ACMM...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
The goal of the FEniCS project is to develop open-source software for the automation of Computationa...
FEniCS Mechanics is a Python package to facilitate computational mechanics simulations. The Python l...
pulse is a software based on FEniCS that aims to solve problems in cardiac mechanics (but is easily ...
In engineering, physical phenomena are often described mathematically by partial differential equati...
The package *dolfin_navier_scipy (dns)* provides an interface between *scipy* and *FEniCS* in view o...
International audiencePartial differential equations (PDEs)-such as the Navier-Stokes equations in f...