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== Synopsis == | == Synopsis == | ||
[[File:ithaca-fv.png| | [[File:ithaca-fv.png|200px|right|ithaca-sem box]] | ||
[ | [http://mathlab.sissa.it/ithaca-fv <b>ITHACA-FV</b>] is an implementation in <b>OpenFOAM</b> of several reduced order modelling techniques. <b>ITHACA-FV</b> is designed for [http://openfoam.org/version/6 <b>OpenFOAM 6.0</b>] and [http://openfoam.org/version/5-0 <b>OpenFOAM 5.0</b>] but it can be easily adapted also to other versions of OpenFOAM. | ||
<b>ITHACA-FV</b> can also be used as a basis for more advanced projects that would like to assess the capability of reduced order models in their existing <b>OpenFOAM</b>-based software, thanks to the availability of several reduced order methods and algorithms. | <b>ITHACA-FV</b> can also be used as a basis for more advanced projects that would like to assess the capability of reduced order models in their existing <b>OpenFOAM</b>-based software, thanks to the availability of several reduced order methods and algorithms. | ||
Linear and non-linear algebra operations which are not already implemented in OpenFOAM are performed with the external library [http://eigen.tuxfamily.org/index.php?title=Main_Page <b>Eigen</b>]. The source code of Eigen 3.3.4 is provided together with ITHACA-FV and is located in the [ | Linear and non-linear algebra operations which are not already implemented in OpenFOAM are performed with the external library [http://eigen.tuxfamily.org/index.php?title=Main_Page <b>Eigen</b>]. The source code of Eigen 3.3.4 is provided together with ITHACA-FV and is located in the [http://github.com/mathLab/ITHACA-FV/tree/master/src/thirdparty/Eigen src/thirdyparty/Eigen]. For the EigenValue decomposition it is also possible to rely on the [http://spectralib.org/ <b>Spectra-0.6.1</b>] library and the source code is provided in the [http://github.com/mathLab/ITHACA-FV/tree/master/src/thirdparty/spectra-0.6.1 src/thirdyparty/spectra-0.6.1] folder. | ||
<b>ITHACA-FV</b> has been tested on Ubuntu 16.04, Centos 6.6, Centos 7 and ArchLinux, but can be easily compiled on any linux distribution with a compiled version of OpenFOAM 6.0 or OpenFOAM 5.0. | <b>ITHACA-FV</b> has been tested on Ubuntu 16.04, Centos 6.6, Centos 7 and ArchLinux, but can be easily compiled on any linux distribution with a compiled version of OpenFOAM 6.0 or OpenFOAM 5.0. | ||
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<b>ITHACA-FV</b> requires | <b>ITHACA-FV</b> requires | ||
* [ | * [http://openfoam.org/version/6 <b>OpenFOAM 6.0</b>] or | ||
* [ | * [http://openfoam.org/version/5-0 <b>OpenFOAM 5.0</b>] | ||
== Features == | == Features == | ||
As of Feb. 2019: | |||
* It can perform Linear and Non-Linear Model Order Reduction. | |||
* Allows using generic parametrization specified by the user. | |||
* It uses POD for the generation of the bases. | |||
* Computes a POD-Galerkin reduced order model. | |||
* Possibility to use non-intrusive POD-I methods with Radial Basis Function Interpolation. | |||
* Discrete Empirical Interpolation Method for non-linearity and non-affinity. | |||
== Links == | == Links == | ||
GitHub repository: | GitHub repository: http://github.com/mathLab/ITHACA-FV | ||
Website: http://mathlab.sissa.it/ITHACA-FV | |||
Documentation: http://mathlab.github.io/ITHACA-FV/ | |||
== References == | |||
* G. Stabile, G. Rozza, [http://doi.org/10.1016/j.compfluid.2018.01.035 Finite volume POD-Galerkin stabilised reduced order methods for the parametrised incompressible Navier-Stokes equations], Computers & Fluids, Elsevier BV, 2018, 173, 273-284 | |||
* G. Stabile, S. Hijazi, A. Mola, S. Lorenzi, G. Rozza, [http://doi.org/10.1515/caim-2017-0011 POD-Galerkin reduced order methods for CFD using Finite Volume Discretisation: vortex shedding around a circular cylinder Communications in Applied and Industrial Mathematics], Walter de Gruyter GmbH, 2017, 8, 210-236 | |||
* G. Stabile, G. Rozza, [http://arxiv.org/abs/1901.06373 Efficient Geometrical parametrization for finite-volume based reduced order methods], 2019, submitted. | |||
* S. Hijazi, S. Ali, G. Stabile, F. Ballarin, G. Rozza, [http://arxiv.org/abs/1807.11370 The Effort of Increasing Reynolds Number in Projection-Based Reduced Order Methods: from Laminar to Turbulent Flows], FEF Special Volume, 2018 | |||
* S. Georgaka, G. Stabile, G. Rozza, M. J. Bluck, [http://arxiv.org/abs/1808.05175 Parametric POD-Galerkin Model Order Reduction for Unsteady-State Heat Transfer Problems], Communications in Computational Physics, 2019, in Press. | |||
== How to cite == | |||
Most of the theoretical aspects behind <b>ITHACA-FV</b> are deeply explained in [http://arxiv.org/pdf/1701.03424.pdf <b>Stabile2017CAIM</b>] and [http://arxiv.org/pdf/1710.11580.pdf <b>Stabile2017CAF</b>]. | |||
For this reason, if you use this software, please consider citing the mentioned works, reported in the following bibtex entries: | |||
@Article{Stabile2017CAIM, | |||
Title = {{POD-Galerkin reduced order methods for CFD using Finite | |||
Volume Discretisation: vortex shedding around a circular cylinder}}, | |||
Author = {Stabile, Giovanni and Hijazi, Saddam and Mola, Andrea and | |||
Lorenzi, Stefano and Rozza, Gianluigi}, | |||
Journal = {Communications in Applied and Industrial Mathematics}, | |||
Year = {(2017)}, | |||
Volume = {8}, | |||
Number = {1}, | |||
pages = {210-236}, | |||
Doi = {10.1515/caim-2017-0011}} | |||
@Article{Stabile2017CAF, | |||
Title = {{Finite volume POD-Galerkin stabilised reduced order methods | |||
for the parametrised incompressible Navier-Stokes equations}}, | |||
Author = {Stabile, Giovanni and Rozza, Gianluigi}, | |||
Journal = {Computers & Fluids}, | |||
Year = {2018}, | |||
Doi = {10.1016/j.compfluid.2018.01.035}} | |||
and cite the [http://mathlab.sissa.it/ITHACA-FV ITHACA-FV website]. | |||
== Contact == | == Contact == | ||
[[User: | [[User:Stabile| Giovanni Stabile]] | ||
Latest revision as of 13:05, 5 February 2019
Note: This page has not been verified by our editors.
Synopsis
ITHACA-FV is an implementation in OpenFOAM of several reduced order modelling techniques. ITHACA-FV is designed for OpenFOAM 6.0 and OpenFOAM 5.0 but it can be easily adapted also to other versions of OpenFOAM.
ITHACA-FV can also be used as a basis for more advanced projects that would like to assess the capability of reduced order models in their existing OpenFOAM-based software, thanks to the availability of several reduced order methods and algorithms.
Linear and non-linear algebra operations which are not already implemented in OpenFOAM are performed with the external library Eigen. The source code of Eigen 3.3.4 is provided together with ITHACA-FV and is located in the src/thirdyparty/Eigen. For the EigenValue decomposition it is also possible to rely on the Spectra-0.6.1 library and the source code is provided in the src/thirdyparty/spectra-0.6.1 folder.
ITHACA-FV has been tested on Ubuntu 16.04, Centos 6.6, Centos 7 and ArchLinux, but can be easily compiled on any linux distribution with a compiled version of OpenFOAM 6.0 or OpenFOAM 5.0.
Requirements
ITHACA-FV requires
Features
As of Feb. 2019:
- It can perform Linear and Non-Linear Model Order Reduction.
- Allows using generic parametrization specified by the user.
- It uses POD for the generation of the bases.
- Computes a POD-Galerkin reduced order model.
- Possibility to use non-intrusive POD-I methods with Radial Basis Function Interpolation.
- Discrete Empirical Interpolation Method for non-linearity and non-affinity.
Links
GitHub repository: http://github.com/mathLab/ITHACA-FV
Website: http://mathlab.sissa.it/ITHACA-FV
Documentation: http://mathlab.github.io/ITHACA-FV/
References
- G. Stabile, G. Rozza, Finite volume POD-Galerkin stabilised reduced order methods for the parametrised incompressible Navier-Stokes equations, Computers & Fluids, Elsevier BV, 2018, 173, 273-284
- G. Stabile, S. Hijazi, A. Mola, S. Lorenzi, G. Rozza, POD-Galerkin reduced order methods for CFD using Finite Volume Discretisation: vortex shedding around a circular cylinder Communications in Applied and Industrial Mathematics, Walter de Gruyter GmbH, 2017, 8, 210-236
- G. Stabile, G. Rozza, Efficient Geometrical parametrization for finite-volume based reduced order methods, 2019, submitted.
- S. Hijazi, S. Ali, G. Stabile, F. Ballarin, G. Rozza, The Effort of Increasing Reynolds Number in Projection-Based Reduced Order Methods: from Laminar to Turbulent Flows, FEF Special Volume, 2018
- S. Georgaka, G. Stabile, G. Rozza, M. J. Bluck, Parametric POD-Galerkin Model Order Reduction for Unsteady-State Heat Transfer Problems, Communications in Computational Physics, 2019, in Press.
How to cite
Most of the theoretical aspects behind ITHACA-FV are deeply explained in Stabile2017CAIM and Stabile2017CAF. For this reason, if you use this software, please consider citing the mentioned works, reported in the following bibtex entries:
@Article{Stabile2017CAIM,
Title = {{POD-Galerkin reduced order methods for CFD using Finite
Volume Discretisation: vortex shedding around a circular cylinder}},
Author = {Stabile, Giovanni and Hijazi, Saddam and Mola, Andrea and
Lorenzi, Stefano and Rozza, Gianluigi},
Journal = {Communications in Applied and Industrial Mathematics},
Year = {(2017)},
Volume = {8},
Number = {1},
pages = {210-236},
Doi = {10.1515/caim-2017-0011}}
@Article{Stabile2017CAF,
Title = {{Finite volume POD-Galerkin stabilised reduced order methods
for the parametrised incompressible Navier-Stokes equations}},
Author = {Stabile, Giovanni and Rozza, Gianluigi},
Journal = {Computers & Fluids},
Year = {2018},
Doi = {10.1016/j.compfluid.2018.01.035}}
and cite the ITHACA-FV website.