The stable releases of PuMA can be found on the official NASA Github repository, whereas the latest development can be found on the development Gitlab repository.
A few useful resources:
- Install TomoSAM to perform tomography segmentation within 3D Slicer
- Documentation detailing the use of each function
- Community chat to ask questions or to get in touch
- YouTube channel with the video tutorials
- Tutorials with examples for both python and C++
PuMA, winner of the 2022 NASA Software of the Year prize, has been developed to compute effective material properties and perform material response simulations on digitized microstructures of porous media. PuMA is able to import digital three-dimensional images obtained from X-ray microtomography or to generate artificial microstructures that mimic real materials. PuMA also provides a module for interactive 3D visualizations. Version 3 includes modules to compute simple morphological properties such as porosity, volume fractions, pore diameter, and specific surface area. Additional capabilities include the determination of effective thermal and electrical conductivity (both radiative and solid conduction - including the ability to simulate local anisotropy for the latter); effective diffusivity and tortuosity from the continuum to the rarefied regime; techniques to determine the local material orientation, as well as the mechanical properties (elasticity coefficient), and the permeability of a material.
Some examples of microstructures that have been run in the past are shown in the pictures below, together with PuMA's software architecture schematic. See the publications for more information about the software and its capabilities.
UNIX (tested on MacOS 10.14.1+, Ubuntu 12.04+, RHEL, and CentOS). On Windows, only the python distribution (pumapy) is available.
Indicative recommended specs (varies depending on the material property):
- 8 GB of ram for small simulations (5003 or smaller)
- 16-32 GB of ram for medium simulations (8003 range)
- 32+ GB of ram for large simulations (above 10003)
To install PuMA, a conda distribution must be installed on your machine.
To test whether conda is installed, run conda
from a terminal to see if the command is recognized.
If not, conda can be installed by following the instructions
here. It is also highly recommended to have the latest version
of conda (update by running conda update -n base conda
) and to clean old tarballs to avoid using old cached
solutions of the environment (run conda clean --all
).
This is the recommended installation for PuMA users or for developers of the pumapy Python package. Once the conda command is working, all the PuMA components can be installed by executing the following commands in a terminal:
conda create -n puma conda-forge::puma
On UNIX (i.e. Mac or Linux), the conda command installs the PuMA C++ library, pumapy python package and GUI. On Windows, only the pumapy python package is available.
Note: TexGen (C++ library to create artificial weaves) is only installed on UNIX, because it needs more advanced compilation. A friendly warning will appear when TexGen is not installed and pumapy is imported.
For developers of the python modules in pumapy, it is recommended to create the puma environment with the above command and then to run the following:
conda activate puma
git clone https://github.com/nasa/puma.git
cd puma
pip install -e .
Note that, in order to track the latest development, it is recommended to git clone the puma-dev Gitlab repo instead. These commands will link the local python files to the pumapy installation in the puma conda environment. Changes to the local python files will therefore take immediate effect.
This is the recommended installation for developers that need to make modifications to the C++ part of PuMA. The installation is broken into two sections:
- Installation of basic dependencies that may be missing from your system
- Download the repository, build the source code, and install the binaries
Step 1 of the installation varies slightly based on the system. Open a terminal, navigate to the directory you would like PuMA installed, and execute one of the following lines:
# run one of these
xcode-select --install # MacOS
sudo apt-get install git build-essential mesa-common-dev # Debian (Ubuntu)
sudo yum group install "Development Tools"; sudo yum install git gcc mesa-libGL-devel # Fedora (CentOS, RHEL)
Note: If XCode command line tools are already installed, the command will result in an error, which is not a problem.
Now that the necessary dependencies have been installed, you can go ahead with Step 2 of the installation:
git clone https://github.com/nasa/puma.git
cd puma; chmod +x installer.sh; ./installer.sh
After installation, close the terminal and open a new one.
PuMA relies on a conda environment in order to manage its software dependencies and environment variables. It is therefore important to always activate the environment before using any of PuMA's functionalities. Once the installation is complete, the PuMA GUI can be launched by running:
conda activate puma
pumaGUI
You can follow the jupyter notebook tutorials,
which show the typical function usage for both PuMA C++ and pumapy
. These can also be run directly in a browser through Binder.
If you use PuMA in your research, please use the following BibTeX entries to cite it:
For PuMA v3
@article{puma2021,
title={Update 3.0 to “PuMA: The Porous Microstructure Analysis software”,(PII: S2352711018300281)},
author={Ferguson, Joseph C and Semeraro, Federico and Thornton, John M and Panerai, Francesco and Borner, Arnaud and Mansour, Nagi N},
journal={SoftwareX},
volume={15},
pages={100775},
year={2021},
publisher={Elsevier}
}
For PuMA v2
@article{puma2018,
title={PuMA: The porous microstructure analysis software},
author={Ferguson, Joseph C and Panerai, Francesco and Borner, Arnaud and Mansour, Nagi N},
journal={SoftwareX},
volume={7},
pages={81--87},
year={2018},
publisher={Elsevier}
}
See the publications file for a full list of papers on PuMA and its numerical methods.
This is a list of the common errors encountered during the setup and how to solve them:
- If PuMA was partially installed but was interrupted, this can cause errors when trying to install the software. To fix this, first follow the instructions to uninstall puma, and then repeat the installation procedure
- If an error "make: Warning: File ... has modification time ... s in the future" is displayed, then run "sudo apt install ntp" (or equivalent for your distribution)
If any bugs are found, or if the software crashes for any reason, please open an issue at this link and/or contact either of the authors mentioned below.
Since PuMA is a free open-source code, any user is welcome to contribute or collaborate however they would like. If you are interested in significant development for your research goals, please contact either of the authors mentioned below, either by email or on the community chat.
Creator: Joseph Ferguson joseph.ferguson@stanford.edu
Maintainer: Federico Semeraro federico.semeraro@nasa.gov
Contributors: John M. Thornton, Francesco Panerai, Arnaud Borner, Jeremie B. Meurisse, Sergio Fraile Izquierdo, Nagi N. Mansour
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