Deep Insight And Neural Network Analysis

DIANNA is a Python package that brings explainable AI (XAI) to your research project. It wraps carefully selected XAI methods in a simple, uniform interface. It's built by, with and for (academic) researchers and research software engineers working on machine learning projects.

Why DIANNA?

DIANNA software is addressing needs of both (X)AI researchers and mostly the various domains scientists who are using or will use AI models for their research without being experts in (X)AI. DIANNA is future-proof: one of the very few XAI library supporting the Open Neural Network Exchange (ONNX) format.

After studying the vast XAI landscape we have made choices in the parts of the XAI Taxonomy on which methods, data modalities and problems types to focus. Our choices, based on the largest usage in scientific literature, are shown graphically in the XAI taxonomy below:

The key points of DIANNA:

• Provides an easy-to-use interface for non (X)AI experts
• Implements well-known XAI methods (LIME, RISE and Kernal SHAP) chosen by systematic and objective evaluation criteria
• Supports the de-facto standard format for neural network models - ONNX.
• Includes clear instructions for export/conversions from Tensorflow, Pytorch, Keras and scikit-learn to ONNX.
• Supports images, text and time series data modalities. Tabular data and even embeddings support is planned.
• Comes with simple intuitive image and text benchmarks
• Easily extendable to other XAI methods

For more information on the unique strengths of DIANNA with comparison to other tools, please see the context landscape.

Installation

DIANNA can be installed from PyPI using pip on any of the supported Python versions (see badge):

python3 -m pip install dianna

To install the most recent development version directly from the GitHub repository run:

python3 -m pip install git+https://github.com/dianna-ai/dianna.git

If you get an error related to OpenMP when importing dianna, have a look at this issue for possible workarounds.

Pre-requisites only for Macbook Pro with M1 Pro chip users

• To install TensorFlow you can follow this tutorial.

• To install TensorFlow Addons you can follow these steps. For further reading see this issue. Note that this temporary solution works only for macOS versions >= 12.0. Note that this step may have changed already, see https://github.com/dianna-ai/dianna/issues/245.

• Before installing DIANNA, comment tensorflow requirement in setup.cfg file (tensorflow package for M1 is called tensorflow-macos).

Getting started

You need:

• your trained ONNX model (convert my pytorch/tensorflow/keras/scikit-learn model to ONNX)
• 1 data item to be explained

You get:

• a relevance map overlayed over the data item

In the library's documentation, the general usage is explained in How to use DIANNA

Demo movie

Text example:

model_path = 'your_model.onnx'  # model trained on text
text = 'The movie started great but the ending is boring and unoriginal.'

Which of your model's classes do you want an explanation for?

labels = [positive_class, negative_class]

Run using the XAI method of your choice, for example LIME:

explanation = dianna.explain_text(model_path, text, 'LIME')
dianna.visualization.highlight_text(explanation[labels.index(positive_class)], text)

Image example:

model_path = 'your_model.onnx'  # model trained on images
image = PIL.Image.open('your_image.jpeg')

Tell us what label refers to the channels, or colors, in the image.

axis_labels = {0: 'channels'}

Which of your model's classes do you want an explanation for?

labels = [class_a, class_b]

Run using the XAI method of your choice, for example RISE:

explanation = dianna.explain_image(model_path, image, 'RISE', axis_labels=axis_labels, labels=labels)
dianna.visualization.plot_image(explanation[labels.index(class_a)], original_data=image)

Dashboard

Explore your trained model explained using the DIANNA dashboard. Click here for more information.

Datasets

DIANNA comes with simple datasets. Their main goal is to provide intuitive insight into the working of the XAI methods. They can be used as benchmarks for evaluation and comparison of existing and new XAI methods.

Images

Dataset	Description	Examples	Generation
Binary MNIST	Greyscale images of the digits "1" and "0" - a 2-class subset from the famous MNIST dataset for handwritten digit classification.		Binary MNIST dataset generation
Simple Geometric (circles and triangles)	Images of circles and triangles for 2-class geometric shape classificaiton. The shapes of varying size and orientation and the background have varying uniform gray levels.		Simple geometric shapes dataset generation
Simple Scientific (LeafSnap30)	Color images of tree leaves - a 30-class post-processed subset from the LeafSnap dataset for automatic identification of North American tree species.		LeafSnap30 dataset generation

Text

Dataset	Description	Examples	Generation
Stanford sentiment treebank	Dataset for predicting the sentiment, positive or negative, of movie reviews.	This movie was actually neither that funny, nor super witty.	Sentiment treebank

Time series

Dataset	Description	Examples	Generation
Coffee dataset	Food spectographs time series dataset for a two class problem to distinguish between Robusta and Arabica coffee beans.		data source
Weather dataset	The light version of the weather prediciton dataset, which contains daily observations (89 features) for 11 European locations through the years 2000 to 2010.		data source

ONNX models

We work with ONNX! ONNX is a great unified neural network standard which can be used to boost reproducible science. Using ONNX for your model also gives you a boost in performance! In case your models are still in another popular DNN (deep neural network) format, here are some simple recipes to convert them:

• pytorch and pytorch-lightning - use the built-in torch.onnx.export function to convert pytorch models to onnx, or call the built-in to_onnx function on your LightningModule to export pytorch-lightning models to onnx.
• tensorflow - use the tf2onnx package to convert tensorflow models to onnx.
• keras - same as the conversion from tensorflow to onnx, the tf2onnx package also supports keras.
• scikit-learn - use the skl2onnx package to scikit-learn models to onnx.

More converters with examples and tutorials can be found on the ONNX tutorial page.

And here are links to notebooks showing how we created our models on the benchmark datasets:

Images

Text

Time series

We envision the birth of the ONNX Scientific models zoo soon...

Tutorials

DIANNA supports different data modalities and XAI methods. The table contains links to the relevant XAI method's papers (for some explanatory videos on the methods, please see tutorials). The DIANNA tutorials cover each supported method and data modality on a least one dataset. Our future plans to expand DIANNA with more data modalities and XAI methods are given in the ROADMAP.

LRP and PatternAttribution also feature in the top 5 of our thoroughly evaluated XAI methods using objective criteria (details in coming blog-post). Contributing by adding these and more (new) post-hoc explainability methods on ONNX models is very welcome!

Reference documentation

For detailed information on using specific DIANNA functions, please visit the documentation page hosted at Readthedocs.

Contributing

If you want to contribute to the development of DIANNA, have a look at the contribution guidelines. See our developer documentation for information on developer installation, running tests, generating documentation, versioning and making a release.

How to cite us

If you use this package for your scientific work, please consider citing it as:

Ranguelova, E., Bos, P., Liu, Y., Meijer, C., Oostrum, L., Crocioni, G., Ootes, L., Chandramouli, P., Jansen, A., Smeets, S. (2023). dianna (*[VERSION YOU USED]*). Zenodo. https://zenodo.org/record/5592606

See also the Zenodo page for exporting the citation to BibTteX and other formats.

Credits

This package was created with Cookiecutter and the NLeSC/python-template.