Code Machine Learning Pipelines - The Right Way.
Neuraxle is a Machine Learning (ML) library for building neat pipelines, providing the right abstractions to both ease research, development, and deployment of your ML applications.
Most research projects don't ever get to production. However, you want your project to be production-ready and already adaptable (clean) by the time you finish it. You also want things to be simple so that you can get started quickly.
Most existing machine learning pipeline frameworks are either too simple or too complicated for medium-scale projects. Neuraxle is balanced for medium-scale projects, providing simple, yet powerful abstractions that are ready to be used.
Neuraxle is built as a framework that enables you to define your own pipeline steps.
Neuraxle offer multiple parallel processing features using joblib. Most parallel processing in Neuraxle happens in the pipeline and union modules, and as such, neuraxle can be easily parallelized on a cluster of computers using distributed as its joblib backend.
Time Series Processing
Although Neuraxle is not limited to just time series processing projects, it's especially good for those projects, as one of the goals of Neuraxle is to provides a few abstractions that are useful for time series projects.
With the various abstractions that Neuraxle provides, it's easy to get started building a time-series processing project. Neuraxle is also the backbone of the Neuraxio Time Series project, which is a premium software package built on top of Neuraxle for business boost their time series machine learning projects by providing out-of-the-box specialized pipeline steps.
Note: the Neuraxio Time Series project is different from the Neuraxle project, those are separate projects. Neuraxio is commited to build open-source software, and defines itself as an open-source company. Learn more on Neuraxle's license. The Neuraxle library is free and will always stay free, while Neuraxio Time Series is a premium add-on to Neuraxle.
Automatic Machine Learning
One of the core goal of this framework is to enable easy automatic machine learning, and also meta-learning. It should be easy to train a meta-optimizer on many different tasks: the optimizer is a model itself that maps features of datasets and features of the hyperparameter space to a guessed performance score to predict the best hyperparameters. Hyperparameter spaces are easily defined with a range, and are only coupled to their respective pipeline steps, rather than being coupled to the whole pipeline, which enable class reuse and more modularity.
Comparison to Other Machine Learning Pipeline Frameworks
Everything that works in sklearn is also useable in Neuraxle. Neuraxle
is built in a way that does not replace what already exists. Therefore,
Neuraxle adds more power to scikit-lean by providing neat abstractions,
and neuraxle is even retrocompatible with sklean if it ever needed to be
included in an already-existing sklearn pipeline (you can do that by
.tosklearn() on your Neuraxle pipeline). We believe that
Neuraxle helps scikit-learn, and also scikit-learn will help Neuraxle.
Neuraxle is best used with scikit-learn.
Also, the top core developers of scikit-learn, Andreas C. Müller, gave a talk in which he lists the elements that are yet to be done in scikit-learn. He refers to building bigger pipelines with automatic machine learning, meta learning, improving the abstractions of the search spaces, and he also points out that it would be possible do achieve that in another library which could reuse scikit-learn. Neuraxle is here to solve those problems that are actually shared by the open-source community in general. Let's move forward with Neuraxle: join Neuraxle's community.
Apache Beam is a big, multi-language project and hence is complicated. Neuraxle is pythonic and user-friendly: it's easy to get started.
Also, it seems that Apache Beam has GPL and MPL dependencies, which means Apache Beam might itself be copyleft (?). Neuraxle doesn't have such copyleft dependencies.
spaCy has copyleft dependencies or may download copyleft content, and it is built only for Natural Language Processing (NLP) projects. Neuraxle is open to any kind of machine learning projects and isn't an NLP-first project.
Kubeflow is cloud-first, using Kubernetes and is more oriented towards devops. Neuraxle isn't built as a cloud-first solution and isn't tied to Kubernetes. Neuraxle instead offers many parallel processing features, such as the ability to be scaled on many cores of a computer, and even on a computer cluster (e.g.: in the cloud using any cloud provider) with joblib, using dask's distributed library as a joblib backend. A Neuraxle project is best deployed as a microservice within your software environment, and you can fully control and customize how you deploy your project (e.g.: coding yourself a pipeline step that does json conversion to accept http requests).
pip install neuraxle
One of Neuraxle's most important goals is to make powerful machine learning pipelines easy to build and deploy. Using Neuraxle should be light, painless and obvious, yet without sacrificing powerfulness, performance, nor possibilities.
For example, you can build a pipeline composed of multiple steps as such:
p = Pipeline([ # A Pipeline is composed of multiple chained steps. Steps # can alter the data before passing it to the next steps. AddFeatures([ # Add (concatenate) features in parallel, that are # themselves derived of the existing features: SKLearnWrapper(PCA(n_components=2)), SKLearnWrapper(FastICA(n_components=2)), ]), RidgeModelStacking([ # Here is an ensemble of 4 models or feature extractors, # That are themselves then fed to a ridge regression which # will act as a judge to finalize the prediction. SKLearnWrapper(LinearRegression()), SKLearnWrapper(LogisticRegression()), SKLearnWrapper(GradientBoostingRegressor(n_estimators=500)), SKLearnWrapper(GradientBoostingRegressor(max_depth=5)), SKLearnWrapper(KMeans()), ]) ]) # Note: here all the steps were imported from scikit-learn, # but the goal is that you can also define your own as needed. # Also note that a pipeline is a step itself: you can nest them. # The pipeline will learn on the data and acquire state. p = p.fit(X_train, y_train) # Once it learned, the pipeline can process new and # unseen data for making predictions. y_train_predicted = p.transform(X_train)
Visit the examples to get more feel of how it works, and inspiration.
Join our Slack workspace! We <3 collaborators.
For technical questions, we recommend posting them on
neuraxle in the tags (amongst probably
machine-learning), and then opening an
issue to link to your
Stack Overflow question.
For suggestions, comments, and issues, don't hesitate to open an issue.
For contributors, we recommend using the PyCharm code editor and to let it manage the virtual environment, with the default code auto-formatter, and using pytest as a test runner. To contribute, first fork the project, then do your changes, and then open a pull request in the main repository. Please make your pull request(s) editable, such as for us to add you to the list of contributors if you didn't add the entry, for example. Ensure that all tests run before opening a pull request. You'll also agree that your contributions will be licensed under the Apache 2.0 License, which is required for everyone to be able to use your open-source contributions.
Neuraxle is licensed under the Apache License, Version 2.0.
Summary of the License
At Neuraxio, we have open-source at heart. We want you to be able to use Neuraxio's Neuraxle as much as possible without copyleft restrictions. For this reasons, Neuraxle don't depend on copyleft librairies and is neither licensed under a copyleft license. This way, Neuraxle is quite permissive.
The License is very permissive and not very restrictive.
- Commercial use
- Patent use
- Private use
- Trademark use
- License and copyright notice
- State changes
For example, if Neuraxle is used within a larger project, it doesn't necessarily mean that the larger project is also licensed under the same license. Licensed works, modifications, and larger works may be distributed under different terms and without source code.
Note: this Summary of the License is not legal advice. Refer to the full license.