A high-performance topological machine learning toolbox in Python
giotto-tda is a high performance topological machine learning toolbox in Python built on top of
scikit-learn and is distributed under the GNU AGPLv3 license. It is part of the Giotto family of open-source projects.
- Seamless integration with
scikit-learnStrictly adhere to the
scikit-learnAPI and development guidelines, inherit the strengths of that framework.
- Code modularityTopological feature creation steps as transformers. Allow for the creation of a large number of topologically-powered machine learning pipelines.
- StandardisationImplement the most successful techniques from the literature into a generic framework with a consistent API.
- InnovationImprove on existing algorithms, and make new ones available in open source.
- PerformanceFor the most demanding computations, fall back to state-of-the-art C++ implementations, bound efficiently to Python. Vectorized code and implements multi-core parallelism (with
- Data structuresSupport for tabular data, time series, graphs, and images.
30s guide to
For installation instructions, see the installation instructions.
The functionalities of
giotto-tda are provided in
This allows you to generate topological features from your data in a familiar way. Here is an example with the
from gtda.homology import VietorisRipsPersistence VR = VietorisRipsPersistence()
which computes topological summaries, called persistence diagrams, from collections of point clouds or weighted graphs, as follows:
diagrams = VR.fit_transform(point_clouds)
A plotting API allows for quick visual inspection of the outputs of many of
giotto-tda’s transformers. To visualize the i-th output sample, run
diagrams = VR.plot(diagrams, sample=i)
You can create scalar or vector features from persistence diagrams using
giotto-tda’s dedicated transformers. Here is an example with the
from gtda.diagrams import PersistenceEntropy PE = PersistenceEntropy() features = PE.fit_transform(diagrams)
features is a two-dimensional
numpy array. This is important to making this type of topological feature generation fit into a typical machine learning workflow from
In particular, topological feature creation steps can be fed to or used alongside models from
scikit-learn, creating end-to-end pipelines which can be evaluated in cross-validation,
optimised via grid-searches, etc.:
from sklearn.ensemble import RandomForestClassifier from gtda.pipeline import make_pipeline from sklearn.model_selection import train_test_split X_train, X_valid, y_train, y_valid = train_test_split(point_clouds, labels) RFC = RandomForestClassifier() model = make_pipeline(VR, PE, RFC) model.fit(X_train, y_train) model.score(X_valid, y_valid)
giotto-tda also implements the Mapper algorithm as a highly customisable
Pipeline, and provides simple plotting functions for visualizing output Mapper graphs and have real-time interaction with the pipeline parameters:
from gtda.mapper import make_mapper_pipeline from sklearn.decomposition import PCA from sklearn.cluster import DBSCAN pipe = make_mapper_pipeline(filter_func=PCA(), clusterer=DBSCAN()) plot_interactive_mapper_graph(pipe, data)
Tutorials and examples¶
We provide a number of tutorials and examples, which offer:
quick start guides to the API;
in-depth examples showcasing more of the library’s features;
intuitive explanations of topological techniques.
A selection of use cases for
giotto-tda is collected at this page.
Please note, however, that some of these were written for past versions of
giotto-tda. In some cases,
only small modifications are needed to run them on recent versions, while in others it is best to install
the relevant past version of
giotto-tda (preferably in a fresh environmnent). In a couple of cases,
giotto-learn-nightly will be needed.
This release was made shortly after the release of version 0.5.0, to resolve an important bug. Please refer to the release notes for 0.5.0 to see the major improvements and backwards-incompatible changes to the Mapper subpackage which were introduced there.
Major Features and Improvements¶
A bug preventing Mapper pipelines from working with memory caching has been fixed (#597).
Thanks to our Contributors¶
This release contains contributions from:
We are also grateful to all who filed issues or helped resolve them, asked and answered questions, and were part of inspiring discussions.