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https://github.com/seamplex/feenox

Cloud-first free no-fee no-X uniX-like finite-element(ish) computational engineering tool
https://github.com/seamplex/feenox

finite-elements hpc numerical-methods ode-solver pde-solver

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Cloud-first free no-fee no-X uniX-like finite-element(ish) computational engineering tool

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README 

        
FeenoX: A cloud-first free no-fee no-X uniX-like finite-element(ish) computational engineering tool



-   1 About FeenoX

    -   1.1 Extents

        -   1.1.1 Examples

        -   1.1.2 Tutorials

        -   1.1.3 Tests

    -   1.2 Capabilities

    -   1.3 Usefulness

-   2 Documentation

-   3 Quickstart

    -   3.1 Download

    -   3.2 Git repository

-   4 Licensing

    -   4.1 Contributing

-   5 Further information



[DOI]



  [1 About FeenoX]: #about-feenox

  [1.1 Extents]: #extents

  [1.1.1 Examples]: #examples

  [1.1.2 Tutorials]: #tutorials

  [1.1.3 Tests]: #tests

  [1.2 Capabilities]: #capabilities

  [1.3 Usefulness]: #usefulness

  [2 Documentation]: #documentation

  [3 Quickstart]: #quickstart

  [3.1 Download]: #download

  [3.2 Git repository]: #git-repository

  [4 Licensing]: #licensing

  [4.1 Contributing]: #sec:contributing

  [5 Further information]: #further-information

  [DOI]: https://joss.theoj.org/papers/10.21105/joss.05846/status.svg

  [1]: https://doi.org/10.21105/joss.05846



About FeenoX



FeenoX is a cloud-first free and open source tool to solve

engineering-related problems using a computer (or many computers in

parallel) with a particular design basis.



Choose your background for further details about the what, how and whys:



-   Industry Engineer

-   Unix Hacker

-   Academic Professor



See the following paper for a brief summary (and to cite FeenoX in your

work):



-   Theler J, “FeenoX: a cloud-first finite-element(ish) computational

    engineering tool,” Journal of Open Source Software, vol. 9, no. 95,

    p. 5846, Mar. 2024, doi: 10.21105/joss.05846.



  Open-source web-based UX for FeenoX



  Take a look at SunCAE for an example of how to write a front end for

  FeenoX.



  [FeenoX]: https://seamplex.com/feenox

  [cloud-first]: https://seamplex.com/feenox/doc/sds.html#cloud-first

  [free and open source]: #licensing

  [engineering-related problems]: #extents

  [many computers in parallel]: https://www.seamplex.com/feenox/doc/sds.html#sec:scalability

  [particular design basis]: https://seamplex.com/feenox/doc/sds.html

  [Industry Engineer]: ./README4engineers.md

  [Unix Hacker]: ./README4hackers.md

  [Academic Professor]: ./README4academics.md

  [cite FeenoX in your work]: ./doc/FAQ.md#how-should-i-cite-feenox

  [10.21105/joss.05846]: https://doi.org/10.21105/joss.05846

  [SunCAE]: https://www.seamplex.com/suncae



Extents



Examples



-   Basic mathematics

-   Systems of ODEs/DAEs

-   Laplace’s equation

-   Heat conduction

-   Linear elasticity

-   Modal analysis

-   Neutron diffusion

-   Neutron SN



  [Basic mathematics]: https://seamplex.com/feenox/examples/basic.html

  [Systems of ODEs/DAEs]: https://seamplex.com/feenox/examples/daes.html

  [Laplace’s equation]: https://seamplex.com/feenox/examples/laplace.html

  [Heat conduction]: https://seamplex.com/feenox/examples/thermal.html

  [Linear elasticity]: https://seamplex.com/feenox/examples/mechanical.html

  [Modal analysis]: https://seamplex.com/feenox/examples/modal.html

  [Neutron diffusion]: https://seamplex.com/feenox/examples/neutron_diffusion.html

  [Neutron SN]: https://seamplex.com/feenox/examples/neutron_sn.html



Tutorials



0.  Setting up your workspace

1.  Overview: the tensile test case

2.  Fun & games: solving mazes with PDES instead of AI

3.  Heat conduction



  [Setting up your workspace]: https://www.seamplex.com/feenox/doc/tutorials/000-setup

  [Overview: the tensile test case]: https://www.seamplex.com/feenox/doc/tutorials/110-tensile-test

  [Fun & games: solving mazes with PDES instead of AI]: https://www.seamplex.com/feenox/doc/tutorials/120-mazes

  [2]: https://www.seamplex.com/feenox/doc/tutorials/320-thermal



Tests



The tests directory in the repository has hundreds of



-   grep-able examples

-   unit and regression tests,

-   (crude) mathematical & code verification tests (as in “are we

    solving right the equations?”),

-   subdirectories with further case studies

    -   mms

        -   thermal

            -   2d

            -   3d

    -   nafems

        -   le10



  [tests]: https://github.com/seamplex/feenox/tree/main/tests

  [unit and regression tests]: https://seamplex.com/feenox/doc/compilation.html#sec:test-suite

  [mms]: https://github.com/seamplex/feenox/tree/main/tests/mms

  [thermal]: https://github.com/seamplex/feenox/tree/main/tests/mms/thermal

  [2d]: https://github.com/seamplex/feenox/tree/main/tests/mms/thermal/2d

  [3d]: https://github.com/seamplex/feenox/tree/main/tests/mms/thermal/3d

  [nafems]: https://github.com/seamplex/feenox/tree/main/tests/nafems

  [le10]: https://github.com/seamplex/feenox/tree/main/tests/nafems/le10



Capabilities



-   Both free as in “free speech” and in “free beer”

-   The problem to solve is defined through a syntactically-sugared

    self-descriptive English-like plain-text input file that should

    resemble the original human-friendly problem formulation as much as

    possible:

    -   no need to recompile if the problem changes (FeenoX is a

        program, not a library)

    -   nouns are definitions and verbs are instructions

    -   simple problems need simple inputs

    -   everything is an expression

    -   100%-defined user output (no PRINT nor WRITE_RESULTS

        instructions, no output)

-   Cloud-first design (cloud friendliness is not enough)

-   MPI parallelization

-   Leverages high-quality well-established free and open source

    libraries to solve…

    -   general mathematical problems using GNU GSL

    -   sets of ODEs/DAEs using SUNDIALS

    -   PDEs formulated with the finite element method

        -   reads mesh in Gmsh format

        -   uses PETSc/SLEPc to solve

            -   linear systems (KSP)

            -   non-linear systems (SNES)

            -   time-dependent systems (TS)

            -   generalized eigen-value problems (EPS)

        -   writes results in either Gmsh or VTK (Paraview) format

-   Focuses on flexibility, especially when defining non-uniform

    multi-solid material properties from ASME tables

-   Follows the Unix programming philosophy

    -   rule of separation

    -   rule of silence

    -   rule of economy

-   Each PDE (i.e. from Laplace downward in the list of examples) is

    implemented in a subdirectory within src/pde of the source tree

    -   any subdirectory can be removed if a particular PDE is not

        needed

    -   any subdirectory can be used as a template to add a new PDE to

        the capabilities

-   Space, time and/or solution-dependent material properties and

    boundary conditions

    -   algebraic expressions, and/or

    -   point-wise interpolated data

-   Command-line argument expansion for

    -   increased flexibility,

    -   parametric sweeps, and/or

    -   optimization loops

-   Steady-state, [quasi-static] and/or transient problems

-   Linear and non-linear problems

-   Possibility to verify the code using the Method of Manufactured

    Solutions

-   Separate repository to profile and study code performance using

    Google’s benchmark library



  [problem]: https://www.seamplex.com/feenox/doc/feenox-manual.html#problem

  [syntactically-sugared]: https://seamplex.com/feenox/doc/sds.html#sec:syntactic

  [self-descriptive English-like plain-text input file]: https://seamplex.com/feenox/doc/sds.html#sec:input

  [resemble the original human-friendly problem formulation]: https://seamplex.com/feenox/doc/sds.html#sec:matching-formulations

  [no need to recompile if the problem changes]: https://seamplex.com/feenox/doc/sds.html#sec:introduction

  [nouns are definitions and verbs are instructions]: https://seamplex.com/feenox/doc/sds.html#sec:nouns_verbs

  [simple problems need simple inputs]: https://seamplex.com/feenox/doc/sds.html#sec:simple

  [everything is an expression]: https://seamplex.com/feenox/doc/sds.html#sec:expression

  [100%-defined user output]: https://seamplex.com/feenox/doc/sds.html#sec:output

  [WRITE_RESULTS]: https://www.seamplex.com/feenox/doc/feenox-manual.html#write_results

  [Cloud-first design]: https://seamplex.com/feenox/doc/sds.html#cloud-first

  [MPI parallelization]: https://seamplex.com/feenox/doc/sds.html#sec:scalability

  [general mathematical problems]: https://seamplex.com/feenox/examples/basic.html

  [GNU GSL]: https://www.gnu.org/software/gsl/

  [sets of ODEs/DAEs]: https://seamplex.com/feenox/examples/daes.html

  [SUNDIALS]: https://computing.llnl.gov/projects/sundials

  [PDEs]: https://github.com/seamplex/feenox/tree/main/src/pdes

  [finite element method]: https://en.wikipedia.org/wiki/Finite_element_method

  [Gmsh]: http://gmsh.info/

  [PETSc]: https://petsc.org/release/

  [SLEPc]: https://slepc.upv.es/

  [KSP]: https://petsc.org/release/manual/ksp/

  [SNES]: https://petsc.org/release/manual/snes/

  [TS]: https://petsc.org/release/manual/ts/

  [EPS]: https://slepc.upv.es/documentation/current/docs/manualpages/EPS/index.html

  [VTK]: https://docs.vtk.org/en/latest/design_documents/VTKFileFormats.html

  [Paraview]: https://www.paraview.org/

  [flexibility]: https://seamplex.com/feenox/doc/sds.html#sec:flexibility

  [non-uniform multi-solid material properties from ASME tables]: https://www.seamplex.com/feenox/doc/tutorials/320-thermal/#from-a-steady-state

  [Unix programming philosophy]: https://seamplex.com/feenox/doc/sds.html#sec:unix

  [rule of separation]: https://seamplex.com/feenox/doc/sds.html#sec:separation

  [rule of silence]: https://seamplex.com/feenox/doc/sds.html#sec:silence

  [rule of economy]: https://seamplex.com/feenox/doc/sds.html#sec:economy

  [is implemented in a subdirectory]: https://seamplex.com/feenox/doc/sds.html#sec:extensibility

  [Space]: https://github.com/seamplex/feenox/blob/main/tests/thermal-two-squares-material-explicit-space.fee

  [time]: https://github.com/seamplex/feenox/blob/main/tests/nafems-t3-1d.fee

  [material properties]: https://github.com/seamplex/feenox/blob/main/tests/wilson-2d.fee

  [boundary conditions]: https://github.com/seamplex/feenox/blob/main/tests/radiation-as-convection-celsius.fee

  [algebraic expressions]: https://seamplex.com/feenox/examples/mechanical.html#parallelepiped-whose-youngs-modulus-is-a-function-of-the-temperature

  [point-wise interpolated data]: https://seamplex.com/feenox/examples/mechanical.html#temperature-dependent-material-properties

  [Command-line argument expansion]: https://seamplex.com/feenox/doc/sds.html#sec:run-time-arguments

  [increased flexibility]: https://seamplex.com/feenox/examples/basic.html#computing-the-derivative-of-a-function-as-a-unix-filter

  [parametric sweeps]: https://seamplex.com/feenox/doc/sds.html#sec:parametric

  [optimization loops]: https://seamplex.com/feenox/doc/sds.html#optimization-loops

  [Steady-state]: https://www.seamplex.com/feenox/doc/tutorials/120-mazes/#solving-the-steady-state-laplace-equation

  [transient problems]: https://www.seamplex.com/feenox/doc/tutorials/320-thermal/#sec:transient

  [Linear]: https://www.seamplex.com/feenox/doc/tutorials/320-thermal/#linear-steady-state-problems

  [non-linear]: https://www.seamplex.com/feenox/doc/tutorials/320-thermal/#non-linear-state-state-problems

  [Method of Manufactured Solutions]: https://github.com/seamplex/feenox/tree/main/tests/mms

  [repository to profile and study code performance]: https://github.com/seamplex/feenox-benchmark

  [Google’s benchmark library]: https://github.com/google/benchmark



Usefulness



-   CAEplex: a web-based thermo-mechanical solver running on the cloud

-   Non-conformal mesh mapping

-   ASME stress linearization for pressurized pipes and vessels

-   Assessment of material properties from tabulated sources

-   Environmentally-assisted fatigue analysis in dissimilar interfaces

    of nuclear pipes

-   Neutron transport in the cloud

-   Solving mazes without AI

-   Parametric NAFEMS LE10 benchmark: comparison of resource consumption

    for different FEA programs

-   Some Youtube videos



  [CAEplex]: https://www.caeplex.com

  [web-based thermo-mechanical solver running on the cloud]: https://www.youtube.com/watch?v=DOnoXo_MCZg

  [Non-conformal mesh mapping]: https://github.com/gtheler/feenox-non-conformal-mesh-interpolation

  [ASME stress linearization for pressurized pipes and vessels]: https://github.com/seamplex/pipe-linearize

  [Assessment of material properties from tabulated sources]: https://seamplex.com/feenox/examples/basic.html#on-the-evaluation-of-thermal-expansion-coefficients

  [Environmentally-assisted fatigue analysis in dissimilar interfaces of nuclear pipes]:

    https://github.com/seamplex/piping-asme-fatigue

  [Neutron transport in the cloud]: https://seamplex.com/thesis/html/front/abstract.html

  [Solving mazes without AI]: https://www.linkedin.com/feed/update/urn:li:activity:6973982270852325376/

  [Parametric NAFEMS LE10 benchmark: comparison of resource consumption for different FEA programs]:

    https://seamplex.com/feenox/tests/nafems/le10/

  [Some Youtube videos]: https://seamplex.com/feenox/doc/#sec:youtube



Documentation



Browse through the documentation index and/or the doc subdirectory of

the Github repository for



-   FAQs, including what FeenoX means

-   Manual

-   Description

-   Software Design Requirements

-   Software Design Specification

-   Unix man page (accessible through man feenox after installation)

-   History

-   Compilation guide

-   Programming guide



  [documentation index]: doc

  [doc]: https://github.com/seamplex/feenox/tree/main/doc

  [Github repository]: https://github.com/seamplex/feenox/

  [FAQs]: ./doc/FAQ.md

  [what FeenoX means]: https://seamplex.com/feenox/doc/FAQ.html#what-does-feenox-mean

  [Manual]: https://seamplex.com/feenox/doc/feenox-manual.html

  [Description]: https://www.seamplex.com/feenox/doc/feenox-desc.html

  [Software Design Requirements]: https://seamplex.com/feenox/doc/srs.html

  [Software Design Specification]: https://seamplex.com/feenox/doc/sds.html

  [Unix man page]: https://seamplex.com/feenox/doc/feenox.1.html

  [History]: ./doc/history.md

  [Compilation guide]: ./doc/compilation.md

  [Programming guide]: ./doc/programming.md



Quickstart



Download



FeenoX is distributed under the terms of the GNU General Public License

version 3 or (at your option) any later version.



  ----------------------------- ----------------------------------------------

  Debian/Ubuntu packages        https://www.seamplex.com/feenox/dist/deb

  (unofficial)                  



  GNU/Linux static binaries     https://www.seamplex.com/feenox/dist/linux



  Windows binaries              https://www.seamplex.com/feenox/dist/windows



  Source tarballs               https://www.seamplex.com/feenox/dist/src



  Github repository             https://github.com/seamplex/feenox/

  ----------------------------- ----------------------------------------------



-   FeenoX is cloud-first. It was designed to run on servers.



-   Be aware that FeenoX does not have a GUI. Read the documentation,

    especially the description and the FAQs. Ask for help on the GitHub

    discussions page if you do now understand what this bullet means.



-   Debian/Ubuntu packages are unofficial, i.e. they are not available

    in apt repositories. They contain dynamically-linked binaries and

    their dependencies are hard-coded for each Debian/Ubuntu release.

    Make sure you get the right .deb for your release

    (i.e. bookworm/bullseye for Debian, kinetic/focal for Ubuntu).



-   Generic GNU/Linux binaries are provided as statically-linked

    executables for convenience. They do not support MUMPS nor MPI and

    have only basic optimization flags. Please compile from source for

    high-end applications. See detailed compilation instructions.



-   Try to avoid Windows as much as you can. The binaries are provided

    as transitional packages for people that for some reason still use

    such an outdated, anachronous, awful and invasive operating system.

    They are compiled with Cygwin and have no support whatsoever.

    Really, really, get rid of Windows ASAP.



      “It is really worth any amount of time and effort to get away from

      Windows if you are doing computational science.”



      https://lists.mcs.anl.gov/pipermail/petsc-users/2015-July/026388.html



  [GNU General Public License version 3]: https://www.gnu.org/licenses/gpl-3.0.en.html

  [cloud-first]: https://seamplex.com/feenox/doc/sds.html#cloud-first

  [documentation]: https://seamplex.com/feenox/doc/

  [description]: https://www.seamplex.com/feenox/doc/feenox-desc.html

  [3]: https://seamplex.com/feenox/doc/FAQ.html

  [GitHub discussions page]: https://github.com/seamplex/feenox/discussions

  [detailed compilation instructions]: https://seamplex.com/feenox/doc/compilation.html

  [Cygwin]: http://cygwin.com/



Git repository



To compile the Git repository, proceed as follows. This procedure does

need git and autoconf but new versions can be pulled and recompiled

easily. If something goes wrong and you get an error, do not hesitate to

ask in FeenoX’s discussion page.



1.  Install mandatory dependencies



        sudo apt-get update

        sudo apt-get install git build-essential make automake autoconf libgsl-dev



    If you cannot install libgsl-dev but still have git and the build

    toolchain, you can have the configure script to download and compile

    it for you. See point 4 below.



2.  Install optional dependencies (of course these are optional but

    recommended)



        sudo apt-get install libsundials-dev petsc-dev slepc-dev



3.  Clone Github repository



        git clone https://github.com/seamplex/feenox



4.  Bootstrap, configure, compile & make



        cd feenox

        ./autogen.sh

        ./configure

        make -j4



    If you cannot (or do not want to) use libgsl-dev from a package

    repository, call configure with --enable-download-gsl:



        ./configure --enable-download-gsl



    If you do not have Internet access, get the tarball manually, copy

    it to the same directory as configure and run again. See the

    detailed compilation instructions for an explanation.



5.  Run test suite (optional)



        make check



6.  Install the binary system wide (optional)



        sudo make install



To stay up to date, pull and then autogen, configure and make (and

optionally install):



    git pull

    ./autogen.sh; ./configure; make -j4

    sudo make install



See the download page and the compilation guide for detailed

information.



  [discussion page]: https://github.com/seamplex/feenox/discussions

  [4]: compilation.md

  [download page]: https://seamplex.com/feenox/download.html

  [compilation guide]: ./doc/compilation.md



Licensing



FeenoX is distributed under the terms of the GNU General Public License

version 3 or (at your option) any later version. The following text was

borrowed from the Gmsh documentation. Replacing “Gmsh” with “FeenoX”

(using Unix’s sed) gives:



  FeenoX is “free software”; this means that everyone is free to use it

  and to redistribute it on a free basis. FeenoX is not in the public

  domain; it is copyrighted and there are restrictions on its

  distribution, but these restrictions are designed to permit everything

  that a good cooperating citizen would want to do. What is not allowed

  is to try to prevent others from further sharing any version of FeenoX

  that they might get from you.



  Specifically, we want to make sure that you have the right to give

  away copies of FeenoX, that you receive source code or else can get it

  if you want it, that you can change FeenoX or use pieces of FeenoX in

  new free programs, and that you know you can do these things.



  To make sure that everyone has such rights, we have to forbid you to

  deprive anyone else of these rights. For example, if you distribute

  copies of FeenoX, you must give the recipients all the rights that you

  have. You must make sure that they, too, receive or can get the source

  code. And you must tell them their rights.



  Also, for our own protection, we must make certain that everyone finds

  out that there is no warranty for FeenoX. If FeenoX is modified by

  someone else and passed on, we want their recipients to know that what

  they have is not what we distributed, so that any problems introduced

  by others will not reflect on our reputation.



  The precise conditions of the license for FeenoX are found in the

  General Public License that accompanies the source code. Further

  information about this license is available from the GNU Project

  webpage http://www.gnu.org/copyleft/gpl-faq.html.



FeenoX is licensed under the terms of the GNU General Public License

version 3 or, at the user convenience, any later version. This means

that users get the four essential freedoms:[1]



0.  The freedom to run the program as they wish, for any purpose.

1.  The freedom to study how the program works, and change it so it does

    their computing as they wish.

2.  The freedom to redistribute copies so they can help others.

3.  The freedom to distribute copies of their modified versions to

    others.



So a free program has to be open source, but it also has to explicitly

provide the four freedoms above both through the written license and

through appropriate mechanisms to get, modify, compile, run and document

these modifications using well-established and/or reasonable

straightforward procedures. That is why licensing FeenoX as GPLv3+ also

implies that the source code and all the scripts and makefiles needed to

compile and run it are available for anyone that requires it (i.e. it is

compiled with ./configure && make). Anyone wanting to modify the program

either to fix bugs, improve it or add new features is free to do so. And

if they do not know how to program, the have the freedom to hire a

programmer to do it without needing to ask permission to the original

authors. Even more, the documentation is released under the terms of the

GNU Free Documentation License so these new (or modified) features can

be properly documented as well.



Nevertheless, since these original authors are the copyright holders,

they still can use it to either enforce or prevent further actions from

the users that receive FeenoX under the GPLv3+. In particular, the

license allows re-distribution of modified versions only if



a.  they are clearly marked as different from the original, and

b.  they are distributed under the same terms of the GPLv3+.



There are also some other subtle technicalities that need not be

discussed here such as



-   what constitutes a modified version (which cannot be redistributed

    under a different license)

-   what is an aggregate (in which each part be distributed under

    different licenses)

-   usage over a network and the possibility of using AGPL instead of

    GPL to further enforce freedom



These issues are already taken into account in the FeenoX licensing

scheme.



It should be noted that not only is FeenoX free and open source, but

also all of the libraries it depends on (and their dependencies) also

are. It can also be compiled using free and open source build tool

chains running over free and open source operating systems.



[1]  There are some examples of pieces of computational software which

are described as “open source” in which even the first of the four

freedoms is denied. The most iconic case is that of Android, whose

sources are readily available online but there is no straightforward way

of updating one’s mobile phone firmware with a customized version, not

to mention vendor and hardware lock ins and the possibility of bricking

devices if something unexpected happens. In the nuclear industry, it is

the case of a Monte Carlo particle-transport program that requests users

to sign an agreement about the objective of its usage before allowing

its execution. The software itself might be open source because the

source code is provided after signing the agreement, but it is not free

(as in freedom) at all.



  [GNU General Public License]: http://www.gnu.org/copyleft/gpl.html

  [Gmsh documentation]: http://gmsh.info/doc/texinfo/gmsh.html#Copying-conditions

  [General Public License]: https://github.com/seamplex/feenox/blob/master/COPYING

  [5]: https://www.gnu.org/licenses/gpl-3.0

  [the documentation]: https://seamplex.com/feenox/doc/

  [GNU Free Documentation License]: https://www.gnu.org/licenses/fdl-1.3.html

  [AGPL]: https://en.wikipedia.org/wiki/GNU_Affero_General_Public_License



Contributing



Contributions from hackers and/or academics are welcome, especially new

types of PDEs and new formulations of existing PDEs. For elliptic

operators feel free to use the Laplace equation at src/pdes/laplace as a

template.



1.  Read the Programming Guide.

2.  Browse Github discussions and open a new thread explaining what you

    want to do and/or asking for help.

3.  Fork the Git repository under your Github account

4.  Create a pull request, including

    -   code,

    -   documentation, and

    -   tests.

5.  Follow up the review procedure.



Note that



-   It is mandatory to observe the Code of Conduct.

-   The contributed code has to be compatible with the GPLv3+ license.

-   Each author keeps the copyright of the contribution.

-   You can ask!



  [hackers]: README4hackers.html

  [academics]: README4academics.html

  [src/pdes/laplace]: https://github.com/seamplex/feenox/tree/main/src/pdes/laplace

  [6]: https://seamplex.com/feenox/doc/programming.html

  [Github discussions]: https://github.com/seamplex/feenox/discussions

  [Git repository]: https://github.com/seamplex/feenox/

  [Code of Conduct]: https://seamplex.com/feenox/doc/CODE_OF_CONDUCT.html

  [GPLv3+ license]: https://www.seamplex.com/feenox/#sec:licensing



Further information



Home page: https://www.seamplex.com/feenox

Repository: https://github.com/seamplex/feenox

Bug reporting: https://github.com/seamplex/feenox/issues

Discussions: https://github.com/seamplex/feenox/discussions

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FeenoX is copyright ©2009-2024 Seamplex

FeenoX is licensed under GNU GPL version 3 or (at your option) any later

version.

FeenoX is free software: you are free to change and redistribute it.

There is NO WARRANTY, to the extent permitted by law.



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  [LinkedIn]: https://www.linkedin.com/company/seamplex/

  [Github]: https://github.com/seamplex

  [Seamplex]: https://www.seamplex.com

  [GNU GPL version 3]: http://www.gnu.org/copyleft/gpl.html