Difference between revisions of "Engineering"
From GhostBSD Wiki
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|paje | |paje | ||
|Generic visualization tool for GNUstep (Gantt chart and more) | |Generic visualization tool for GNUstep (Gantt chart and more) | ||
| − | |[[File:Icon FreeBSD.png|100px|link=https://svnweb.freebsd.org/ports/head/science/paje/pkg-descr?revision=HEAD]] [[File:1329059652.png|35px|link=http://www-id.imag.fr/Logiciels/paje/]] | + | |[[File:Icon FreeBSD.png|100px|link=https://svnweb.freebsd.org/ports/head/science/paje/pkg-descr?revision=HEAD]] [[File:1329059652.png|35px|link=http://www-id.imag.fr/Logiciels/paje/]] |
|- | |- | ||
| − | | | + | |py27-netCDF4 |
| − | |[[]] [[]] | + | |Python Interface to the NetCDF Library (versions 3 and 4) |
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-netCDF4/pkg-descr?revision=HEAD]] [[http://unidata.github.io/netcdf4-python/]] | ||
|- | |- | ||
| − | | | + | |py27-pupynere |
| − | |[[]] [[]] | + | |NetCDF file reader and writer |
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-pupynere/pkg-descr?revision=HEAD]] [[https://pypi.org/project/pupynere/]]1 [[https://bitbucket.org/robertodealmeida/pupynere]]2 | ||
|- | |- | ||
| − | | | + | |py37-geometer |
| − | |[[]] [[]] | + | |Python geometry package based on projective geometry and numpy |
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-geometer/pkg-descr?revision=HEAD]] [[https://github.com/jan-mue/geometer]] | ||
|- | |- | ||
| − | | | + | |py37-kinematics |
| − | |[[]] [[]] | + | |Python module to do attitude kinematics |
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-kinematics/pkg-descr?revision=HEAD]] [[https://github.com/skulumani/kinematics]] | ||
|- | |- | ||
| − | | | + | |py37-netCDF4 |
| − | |[[]] [[]] | + | |Python Interface to the NetCDF Library (versions 3 and 4) |
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-netCDF4/pkg-descr?revision=HEAD]] [[http://unidata.github.io/netcdf4-python/]] | ||
| + | |- | ||
| + | |py37-openpiv | ||
| + | |Python module for Particle Image Velocimetry | ||
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-openpiv/pkg-descr?revision=HEAD]] [[http://www.openpiv.net/]] | ||
| + | |- | ||
| + | |py37-pupynere | ||
| + | |NetCDF file reader and writer | ||
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-pupynere/pkg-descr?revision=HEAD]] [[https://pypi.org/project/pupynere/]]1 [[https://bitbucket.org/robertodealmeida/pupynere]]2 | ||
| + | |- | ||
| + | |py37-quantities | ||
| + | |Support for physical quantities with units, based on numpy | ||
| + | |[[ttps://svnweb.freebsd.org/ports/head/science/py-quantities/pkg-descr?revision=HEAD]] [[ttps://github.com/python-quantities/python-quantities]] | ||
| + | |- | ||
| + | |py37-spglib | ||
| + | |Library for finding and handling crystal symmetries (python binding) | ||
| + | |[[https://svnweb.freebsd.org/ports/head/science/py-spglib/pkg-descr?revision=HEAD]] [[https://atztogo.github.io/spglib/]] | ||
| + | |- | ||
| + | |pycdf | ||
| + | |Python Interface to the Unidata NetCDF Library | ||
| + | |[[https://svnweb.freebsd.org/ports/head/science/pycdf/pkg-descr?revision=HEAD]] [[http://pysclint.sourceforge.net/pycdf/]] | ||
|- | |- | ||
| | | | ||
Revision as of 12:21, 20 January 2020
Welcome to the Engineering
|
| App/Package | Abstract | Addition or Link |
|---|---|---|
| 2d-rewriter | Cellular automata simulator | 
|
| ALPSCore | Generic algorithms and utilities for condensed matter physics | 
|
| BerkeleyGW | Scientific program aimed at the ab initio virtual experimentation |
|
| DRAWxtl | Crystal structure visualization tool |
|
| MetaPhysicL | Metaprogramming, operator-overloaded classes for numerical simulations |
|
| NASTRAN | NASA Structural Analysis System |
|
| OpenSPH | Library and graphical tools for running SPH and N-body simulations |
|
| PETSc | Suite of data structures and routines from Argonne National Laboratory |
|
| aircraft-datcom | Modified USAF Aircraft Stability and Control Data Compendium |
|
| antioch | C++ Chemical Kinetics, Thermodynaimics, and Transport Library |
|
| apbs | Electrostatic and solvation properties for complex molecules |
|
| cgnslib | CFD General Notation System library code |
|
| chrono | C++ library for multi-physics simulation |
|
| clhep | Object-oriented toolkit for particle physics applications by CERN |
|
| clipper | Libraries for the organisation of crystallographic data |
|
| code_saturne | EDF's general purpose Computational Fluid Dynamics (CFD) software |
|
| coot | Crystallographic Object-Oriented Toolkit |
|
| elmerfem | Finite element software for multiphysical problems | |
| emc2 | Graphical editor of two-dimensional mesh geometries |
|
| engauge-digitizer | Extract data points from images of graphs |
|
| esys-particle | Particle-based numerical modelling software |
|
| fastcap | Three-dimensional capacitance extraction program |
|
| fasthenry | Multipole-accelerated inductance analysis program |
|
| feappv | Finite element analysis program (personal version) |
|
| fisicalab | Physics simulation program for educational use |
|
| fvcom | Unstructured Grid Finite Volume Coastal Ocean Model |
|
| fvcom-openmpi | Unstructured Grid Finite Volume Coastal Ocean Model |
|
| getdp | Rather general finite element solver using mixed finite elements |
|
| gsmc | Smith chart program for impedance matching |
|
| isaac | Integrated Solution Algorithm for Arbitrary Configuration |
|
| libaec | Adaptive entropy coding library |
|
| libccp4 | Protein X-ray crystallography toolkit |
|
| libgridxc | Library to compute the exchange and correlation energy and potentials |
|
| libvdwxc | Van der Waals density functional (DFT) library |
|
| liggghts | Discrete element method particle simulation software |
|
| lm-uiuc | Software for sampling trajectories of the reaction-diffusion equations |
|
| madness | Multiresolution adaptive numeric environment for scientific simulation |
|
| mdynamix | General purpose molecular dynamics code |
|
| medit | Interactive meshes visualization |
|
| mpb | MIT Photonic-Bands | 
|
| ncnn | High-performance neural network inference framework |
|
| nest | Simulator for spiking neural network models |
|
| netcdf | C library for machine-independent, array-oriented data access | 1 2
|
| netcdf-cxx | C++ library for machine-independent, array-oriented data access | 1 2
|
| netcdf-fortran | Fortran library for machine-independent, array-oriented data access | 1 2
|
| opencascade | Open CASCADE Technology, 3D modeling & numerical simulation |
|
| openmvg | Multiple View Geometry (MVG) library |
|
| openmx | Nanoscale material simulations using density functional theories (DFT) |
|
| p5-Physics-Unit | Manipulate Physics units and dimensions |
|
| paje | Generic visualization tool for GNUstep (Gantt chart and more) |
|
| py27-netCDF4 | Python Interface to the NetCDF Library (versions 3 and 4) | [[1]] [[2]] |
| py27-pupynere | NetCDF file reader and writer | [[3]] [[4]]1 [[5]]2 |
| py37-geometer | Python geometry package based on projective geometry and numpy | [[6]] [[7]] |
| py37-kinematics | Python module to do attitude kinematics | [[8]] [[9]] |
| py37-netCDF4 | Python Interface to the NetCDF Library (versions 3 and 4) | [[10]] [[11]] |
| py37-openpiv | Python module for Particle Image Velocimetry | [[12]] [[13]] |
| py37-pupynere | NetCDF file reader and writer | [[14]] [[15]]1 [[16]]2 |
| py37-quantities | Support for physical quantities with units, based on numpy | ttps://svnweb.freebsd.org/ports/head/science/py-quantities/pkg-descr?revision=HEAD ttps://github.com/python-quantities/python-quantities |
| py37-spglib | Library for finding and handling crystal symmetries (python binding) | [[17]] [[18]] |
| pycdf | Python Interface to the Unidata NetCDF Library | [[19]] [[20]] |
| [[]] [[]] | ||
| If you don't find a package, you are looking for, we recommend to search the  Ports Collection.
| ||
Back to the  Office Applications
| ||
