A list of over 60 metrics, statistical techniques and data processing tools contained in
scores
is available here.
scores
is a Python package containing mathematical functions for the verification, evaluation and optimisation of forecasts, predictions or models. It supports labelled n-dimensional (multidimensional) data, which is used in many scientific fields and in machine learning. At present, scores
primarily supports the geoscience communities; in particular, the meteorological, climatological and oceanographic communities.
Documentation: scores.readthedocs.io
Source code: github.com/nci/scores
Tutorial gallery: available here
Journal article: scores: A Python package for verifying and evaluating models and predictions with xarray
Below is a curated selection of the metrics, tools and statistical tests included in scores
. (Click here for the full list.)
Description | Selection of Included Functions | |
---|---|---|
Continuous | Scores for evaluating single-valued continuous forecasts. | MAE, MSE, RMSE, Additive Bias, Multiplicative Bias, Percent Bias, Pearson's Correlation Coefficient, Kling-Gupta Efficiency, Flip-Flop Index, Quantile Loss, Quantile Interval Score, Interval Score, Murphy Score, and threshold weighted scores for expectiles, quantiles and Huber Loss. |
Probability | Scores for evaluating forecasts that are expressed as predictive distributions, ensembles, and probabilities of binary events. | Brier Score, Continuous Ranked Probability Score (CRPS) for Cumulative Density Functions (CDF) and ensembles (including threshold weighted versions), Receiver Operating Characteristic (ROC), Isotonic Regression (reliability diagrams). |
Categorical | Scores for evaluating forecasts of categories. | 17 binary contingency table (confusion matrix) metrics and the FIxed Risk Multicategorical (FIRM) Score. |
Spatial | Scores that take into account spatial structure. | Fractions Skill Score. |
Statistical Tests | Tools to conduct statistical tests and generate confidence intervals. | Diebold Mariano. |
Processing Tools | Tools to pre-process data. | Data matching, Discretisation, Cumulative Density Function Manipulation. |
scores
not only includes common scores (e.g., MAE, RMSE), it also includes novel scores not commonly found elsewhere (e.g., FIRM, Flip-Flop Index), complex scores (e.g., threshold weighted CRPS), and statistical tests (e.g., the Diebold Mariano test). Additionally, it provides pre-processing tools for preparing data for scores in a variety of formats including cumulative distribution functions (CDF). scores
provides its own implementations where relevant to avoid extensive dependencies.
scores
primarily supports xarray datatypes for Earth system data allowing it to work with NetCDF4, HDF5, Zarr and GRIB data formats among others. scores
uses Dask for scaling and performance. Some metrics work with pandas and we aim to expand this capability.
All of the scores and metrics in this package have undergone a thorough scientific and software review. Every score has a companion Jupyter Notebook tutorial that demonstrates its use in practice.
To find out more about contributing, see our contributing guide.
All interactions in discussions, issues, emails and code (e.g., pull requests, code comments) will be managed according to the expectations outlined in the code of conduct and in accordance with all relevant laws and obligations. This project is an inclusive, respectful and open project with high standards for respectful behaviour and language. The code of conduct is the Contributor Covenant, adopted by over 40,000 open source projects. Any concerns will be dealt with fairly and respectfully, with the processes described in the code of conduct.
The installation guide describes four different use cases for installing, using and working with this package.
Most users currently want the all installation option. This includes the mathematical functions (scores, metrics, statistical tests etc.), the tutorial dependencies and development libraries.
# From a local checkout of the Git repository
pip install -e .[all]
To install the mathematical functions ONLY (no tutorial dependencies, no developer libraries), use the default minimal installation option. minimal is a stable version with limited dependencies. This can be installed from the Python Package Index (PyPI) or with conda.
# From PyPI
pip install scores
# From conda-forge
conda install conda-forge::scores
(Note: at present, only the minimal installation option is available from conda. In time, we intend to add more installation options to conda.)
Here is a short example of the use of scores
:
> import scores
> forecast = scores.sample_data.simple_forecast()
> observed = scores.sample_data.simple_observations()
> mean_absolute_error = scores.continuous.mae(forecast, observed)
> print(mean_absolute_error)
<xarray.DataArray ()>
array(2.)
Jupyter Notebook tutorials are provided for each metric and statistical test in scores
, as well as for some of the key features of scores
(e.g., dimension handling and weighting results).
All metrics, statistical techniques and data processing tools in scores
work with xarray. Some metrics work with pandas. As such, scores
works with any data source for which xarray or pandas can be used. See the data sources page and this tutorial for more information on finding, downloading and working with different sources of data.
If you use scores
for a published work, we would appreciate you citing our paper:
Leeuwenburg, T., Loveday, N., Ebert, E. E., Cook, H., Khanarmuei, M., Taggart, R. J., Ramanathan, N., Carroll, M., Chong, S., Griffiths, A., & Sharples, J. (2024). scores: A Python package for verifying and evaluating models and predictions with xarray. Journal of Open Source Software, 9(99), 6889. https://doi.org/10.21105/joss.06889
BibTeX:
@article{Leeuwenburg_scores_A_Python_2024,
author = {Leeuwenburg, Tennessee and Loveday, Nicholas and Ebert, Elizabeth E. and Cook, Harrison and Khanarmuei, Mohammadreza and Taggart, Robert J. and Ramanathan, Nikeeth and Carroll, Maree and Chong, Stephanie and Griffiths, Aidan and Sharples, John},
doi = {10.21105/joss.06889},
journal = {Journal of Open Source Software},
month = jul,
number = {99},
pages = {6889},
title = {{scores: A Python package for verifying and evaluating models and predictions with xarray}},
url = {https://joss.theoj.org/papers/10.21105/joss.06889},
volume = {9},
year = {2024}
}