feel++ 1:0.95.0-final-2 source package in Ubuntu
Changelog
feel++ (1:0.95.0-final-2) unstable; urgency=low * unset CMAKE_{C,CXX}_FLAGS in order to fix powerpc build -- Christophe Prud'homme <email address hidden> Sun, 20 Oct 2013 08:40:53 +0200
Upload details
- Uploaded by:
- Debian Science Team
- Uploaded to:
- Sid
- Original maintainer:
- Debian Science Team
- Architectures:
- amd64 i386 ia64 powerpc sparc all
- Section:
- science
- Urgency:
- Low Urgency
See full publishing history Publishing
Series | Published | Component | Section |
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Downloads
File | Size | SHA-256 Checksum |
---|---|---|
feel++_0.95.0-final-2.dsc | 1.9 KiB | 30c78c6ee18641ad04026321ef7ba5fc2ed97b551c3f61c975f06a8b8b2161ff |
feel++_0.95.0-final.orig.tar.gz | 41.2 MiB | 38acc8a0f45e0d18769f7969d902b5d479281e058c8864c05c2268963723342e |
feel++_0.95.0-final-2.debian.tar.gz | 14.8 KiB | 9505f02abeb72ebdb592b46fcc9d3d27dbd7403e6cbcc5029ad9c744c66b1e9c |
Available diffs
No changes file available.
Binary packages built by this source
- feel++-apps: A library for the finite element method
Provides some applications codes(source and executables) such
as laplacian with cG and dG methods, stokes, heat transfer, solid
mechanics(static and dynamic).
.
Feel++ is a versatile finite element library to solve partial
differential equations
.
Support 1D, 2D, 3D
.
Support the following basic entities: simplices (segment, triangle,
tetrahedron) and product of simplices (quadrangle, hexahedron)
.
Support various point sets on these basic entities: equispaced
points, quadrature points, interpolation points (Gauss-Lobatto,
Fekete, WarpBlend?)
.
Support continuous and discontinuous Galerkin methods
.
Support various polynomial sets:
.
* Lagrange(continuous, discontinuous, all dimensions,all interpolation
point sets)
.
* Dubiner(discontinuous) , boundary adapted(continuous)
.
* Legendre(discontinuous) , boundary adapted(continuous)
.
Provide mathematical concept for higher order abstraction (Function
spaces and associated elements, forms and operators)
.
Provide a language embedded in C++ for variational formulations,
projection and numerical integration
- feel++-doc: A library for the finite element method
Provides the documentation for the Feel++ library : a user
guide including a tutorial and the api documentation generated by
doxygen.
.
Feel++ is a versatile finite element library to solve partial
differential equations.
.
Support 1D, 2D, 3D
.
Support the following basic entities: simplices (segment, triangle,
tetrahedron) and product of simplices (quadrangle, hexahedron)
.
Support various point sets on these basic entities: equispaced
points, quadrature points, interpolation points (Gauss-Lobatto,
Fekete, WarpBlend?)
.
Support continuous and discontinuous Galerkin methods
.
Support various polynomial sets:
.
* Lagrange(continuous, discontinuous, all dimensions,all interpolation
point sets)
.
* Dubiner(discontinuous) , boundary adapted(continuous)
.
* Legendre(discontinuous) , boundary adapted(continuous)
.
Provide mathematical concept for higher order abstraction (Function
spaces and associated elements, forms and operators)
.
Provide a language embedded in C++ for variational formulations,
projection and numerical integration
- libfeel++-dbg: A library for the finite element method
Feel++ is a versatile finite element library to solve partial
differential equations
.
Support 1D, 2D, 3D
.
Support the following basic entities: simplices (segment, triangle,
tetrahedron) and product of simplices (quadrangle, hexahedron)
.
Support various point sets on these basic entities: equispaced
points, quadrature points, interpolation points (Gauss-Lobatto,
Fekete, WarpBlend?)
.
Support continuous and discontinuous Galerkin methods
.
Support various polynomial sets:
.
* Lagrange(continuous, discontinuous, all dimensions,all interpolation
point sets)
.
* Dubiner(discontinuous) , boundary adapted(continuous)
.
* Legendre(discontinuous) , boundary adapted(continuous)
.
Provide mathematical concept for higher order abstraction (Function
spaces and associated elements, forms and operators)
.
Provide a language embedded in C++ for variational formulations,
projection and numerical integration
- libfeel++-dev: A library for the finite element method
Provides the header files and static libraries.
.
Feel++ is a versatile finite element library to solve partial
differential equations.
.
Support 1D, 2D, 3D
.
Support the following basic entities: simplices (segment, triangle,
tetrahedron) and product of simplices (quadrangle, hexahedron)
.
Support various point sets on these basic entities: equispaced
points, quadrature points, interpolation points (Gauss-Lobatto,
Fekete, WarpBlend?)
.
Support continuous and discontinuous Galerkin methods
.
Support various polynomial sets:
.
* Lagrange(continuous, discontinuous, all dimensions,all interpolation
point sets)
.
* Dubiner(discontinuous) , boundary adapted(continuous)
.
* Legendre(discontinuous) , boundary adapted(continuous)
.
Provide mathematical concept for higher order abstraction (Function
spaces and associated elements, forms and operators)
.
Provide a language embedded in C++ for variational formulations,
projection and numerical integration
- libfeel++1: A library for the finite element method
Provides the dynamic Feel++ libraries.
.
Feel++ is a versatile finite element library to solve partial
differential equations.
.
Support 1D, 2D, 3D
.
Support the following basic entities: simplices (segment, triangle,
tetrahedron) and product of simplices (quadrangle, hexahedron)
.
Support various point sets on these basic entities: equispaced
points, quadrature points, interpolation points (Gauss-Lobatto,
Fekete, WarpBlend?)
.
Support continuous and discontinuous Galerkin methods
.
Support various polynomial sets:
.
* Lagrange(continuous, discontinuous, all dimensions,all interpolation
point sets)
.
* Dubiner(discontinuous) , boundary adapted(continuous)
.
* Legendre(discontinuous) , boundary adapted(continuous)
.
Provide mathematical concept for higher order abstraction (Function
spaces and associated elements, forms and operators)
.
Provide a language embedded in C++ for variational formulations,
projection and numerical integration