Grouped representation of interatomic distances
Project description
gridrdf
Grouped representation of interatomic distances (GRID)
This package is designed to compute GRID descriptions of crystal structures and use them to train ML models, currently based on properties extracted from the Materials Project. In addition, it contains a number of tools for computing earth mover’s distance (EMD) between distributions such as GRID or RDF, and using the resulting dissimilarities for further calculations.
This code accompanies the following paper. We appreciate if you could cite any use of this code or method.
Grouped Representation of Interatomic Distances as a Similarity Measure for Crystal Structures
Installation
The latest stable version of gridrdf can be installed using pip:
pip install gridrdf
If you are using conda, you may find it easier to create a new environment with the required dependencies first, before installing gridrdf using pip:
conda create -n gridrdf_env -f environment.yml
conda activate gridrdf_env
pip install gridrdf
Alternatively, the most recent development version can be installed by cloning the git repository, and then installing in ‘development’ mode:
git clone https://git.ecdf.ed.ac.uk/funcmatgroup/gridrdf.git
pip install -e gridrdf/
Using conda with this approach, you can install the dependencies from requirements.txt:
git clone https://git.ecdf.ed.ac.uk/funcmatgroup/gridrdf.git
conda env create -n gridrdf_env --file gridrdf/requirements.txt -c defaults -c conda-forge
conda activate gridrdf_env
pip install -e gridrdf
Testing
Once downloaded or installed, it is recommended to test the code operates correctly. Using a python terminal, navigate to the gridrdf directory and type
python -m unittest discover -s tests
Using the Code
All modules contained in gridrdf have documentation describing their intended use, and are grouped into ‘data preparation’ (gridrdf.data_prepare), ‘similarity calculation’ (gridrdf.earth_mover_distance) and ‘model training’ (gridrdf.train) steps. Other utility modules are also included.
Submodules of gridrdf can be imported and used interactively in a python environment, but the main steps outlined above can also be accessed as command line scripts by calling the module directly (–help will give more details of usage):
python -m gridrdf.MODULE_NAME --help
Intended Workflow
To re-create the results presented in the publication of predicting bulk modulus using a kNN model and EMD dissimilarity, the procedure is as follows:
Import data from the materials project with calculated elastic moduli
data = gridrdf.data_prepare.get_MP_bulk_modulus_data(APIkey) with open('MP_modulus.json') as f: gridrdf.json.dumps(data, f)
NOTE: gridrdf currently relies on the legacy Materials Project API, so needs an old API KEY
- Calculate GRID representation for each structure (up to a number of GRID shells) and save to files.
gridrdf.data_prepare.batch_rdf(data, num_neighbours=100, bin_size = 0.1, method='kde', output_dir = './GRIDS', normalize=True )
or from a terminal:
python -m gridrdf.data_prepare --data_source MP_modulus.json --output_dir ../GRIDS/ --tasks grid_rdf_kde
- Filter structure with negative bulk moduli
for d in data: if d['elasticity.K_VRH'] < 0: data.remove(d)
- or from a terminal:
python -m gridrdf.data_prepare --data_source MP_modulus.json --output_dir ./GRIDS/ --output_file MP_subset.json --tasks subset_property --prop_filter elasticity.K_VRH 0 np.inf
- Filter elements with atomic number > Bi:
# First, generate internal list of 78 elements (as gridrdf.composition.periodic_table_78) gridrdf.composition.element_indice() data = gridrdf.data_prepare.elements_selection(data, gridrdf.composition.periodic_table_78, mode='consist')
NOTE: not currently implemented for command line script
Steps 2-4 can be combined into a single function call (similarly through terminal script by specifying tasks in order):
data_quick = gridrdf.data_prepare.main(data_source = './MP_modulus.json',
tasks = ['subset_grid_len', 'subset_composition', 'subset_property'],
output_dir = './GRIDS',
output_file = 'subset.json',
max_dist=10,
min_grid_groups = 100,
composition = {'elem': gridrdf.composition.periodic_table_78, 'type':'consist'},
data_property = ('elasticity.K_VRH', 0, np.inf)
)
- Calculate pair-wise dissimilarity matrix between structures using EMD (time-consuming)
similarity = gridrdf.earth_mover_distance.rdf_similarity_matrix(data, all_GRID, method='emd') similarity.to_csv('GRID_sim_whole_matrix.csv')
- or from a terminal:
python -m gridrdf.earth_mover_distance --input_file MP_modulus.json --rdf_dir ./GRIDS/ --output_file GRID_sim --task rdf_similarity_matrix
- Use a simplified kNN model to predict bulk modulus
K_data = np.array([ x['elasticity.K_VRH'] for x in data ]) model = sklearn.neighbors.KNeighborsRegressor(n_neighbors=1, metric='precomputed') gridrdf.train.calc_obs_vs_pred_2D(funct = model, X_data = similarity, y_data = K_data, test_size = 0.2, outdir= './', )
- or from a terminal:
python -m gridrdf.train --input_file MP_modulus.json --rdf_dir ./GRIDS/ --input_features distance_matrix --dist_matrix GRID_sim_whole_matrix.csv --out_dir ./ --funct knn_reg --target bulk_modulus --metrics emd --task obs_vs_pred
Issues
If you have any questions, comments or problems with the code, please feel free to post them as issues here
Note
This project has been set up using PyScaffold 4.3.1. For details and usage information on PyScaffold see https://pyscaffold.org/.
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