Direct Graphical Models C++ library
DGM is a cross-platform C++ library implementing various tasks in probabilistic graphical models with pairwise and complete (dense) dependencies. The library aims to be used for the Markov and Conditional Random Fields (MRF / CRF), Markov Chains, Bayesian Networks, etc. Specifically, it includes a variety of methods for the following tasks:
- Learning: Training of unary and pairwise potentials
- Inference / Decoding: Computing the conditional probabilities and the most likely configuration
- Parameter Estimation: Computing maximum likelihood (or MAP) estimates of the parameters
- Evaluation / Visualization: Evaluation and visualization of the classification results
- Data Analysis: Extraction, analysis and visualization of valuable knowlage from training data
- Feature Engineering: Extraction of various descriptors from images, which are useful for classification
These tasks are optimized for speed, i.e. high-efficient calculations. The code is written in optimized C++17, compiled with Microsoft Visual Studio, Xcode or GCC and can take advantage of multi-core processing as well as GPU computing. DGM is released under a BSD license and hence it is free for both academic and commercial use.
Check out the project site for all the details like
Please join the DGM-user Q&A forum to ask questions and talk about methods and models. Framework development discussions and thorough bug reports are collected on Issues.
Modules:
- DGM - the main library
- FEX - feature extraction module
- VIS - visualization module
License and Citation
DGM is released under the BSD 3-Clause license. The Project-X reference models are released for unrestricted use.
If the DGM library helps you in your research, please cite it in your publications:
@MISC{DGM,
author = {Kosov, Sergey},
title = {Direct Graphical Models {C++} library},
year = {2013},
howpublished={http://research.project-10.de/dgm/}
}
and / or the PhD thesis, wich describes all the theory lying behind the DGM library:
@PHDTHESIS{KosovPhdThesis,
author = {Kosov, Sergey},
title = {Multi-Layer Conditional Random Fields for Revealing Unobserved Entities},
school = {Siegen University},
year = {2018},
doi = {10.13140/RG.2.2.12409.31844},
urn = {urn:nbn:de:hbz:467-13434},
url = {http://dokumentix.ub.uni-siegen.de/opus/volltexte/2018/1343}
}