"an ML library for model development and governance"
Project description
rubicon-ml
Purpose
rubicon-ml is a data science tool that captures and stores model training and
execution information, like parameters and outcomes, in a repeatable and
searchable way. Its git
integration associates these inputs and outputs
directly with the model code that produced them to ensure full auditability and
reproducibility for both developers and stakeholders alike. While experimenting,
the dashboard makes it easy to explore, filter, visualize, and share
recorded work.
p.s. If you're looking for Rubicon, the Java/ObjC Python bridge, visit this instead.
Components
rubicon-ml is composed of three parts:
- A Python library for storing and retrieving model inputs, outputs, and
analyses to filesystems that’s powered by
fsspec
- A dashboard for exploring, comparing, and visualizing logged data built with
dash
- And a process for sharing a selected subset of logged data with collaborators
or reviewers that leverages
intake
Workflow
Use rubicon_ml
to capture model inputs and outputs over time. It can be
easily integrated into existing Python models or pipelines and supports both
concurrent logging (so multiple experiments can be logged in parallel) and
asynchronous communication with S3 (so network reads and writes won’t block).
Meanwhile, periodically review the logged data within the Rubicon dashboard to steer the model tweaking process in the right direction. The dashboard lets you quickly spot trends by exploring and filtering your logged results and visualizes how the model inputs impacted the model outputs.
When the model is ready for review, Rubicon makes it easy to share specific subsets of the data with model reviewers and stakeholders, giving them the context necessary for a complete model review and approval.
Use
Check out the interactive notebooks in this Binder
to try rubicon_ml
for yourself.
Here's a simple example:
from rubicon_ml import Rubicon
rubicon = Rubicon(
persistence="filesystem", root_dir="/rubicon-root", auto_git_enabled=True
)
project = rubicon.create_project(
"Hello World", description="Using rubicon to track model results over time."
)
experiment = project.log_experiment(
training_metadata=[SklearnTrainingMetadata("sklearn.datasets", "my-data-set")],
model_name="My Model Name",
tags=["my_model_name"],
)
experiment.log_parameter("n_estimators", n_estimators)
experiment.log_parameter("n_features", n_features)
experiment.log_parameter("random_state", random_state)
accuracy = rfc.score(X_test, y_test)
experiment.log_metric("accuracy", accuracy)
Then explore the project by running the dashboard:
rubicon_ml ui --root-dir /rubicon-root
Documentation
For a full overview, visit the docs. If you have suggestions or find a bug, please open an issue.
Install
The Python library is available on Conda Forge via conda
and PyPi via pip
.
conda config --add channels conda-forge
conda install rubicon-ml
or
pip install rubicon-ml
Develop
The project uses conda to manage environments. First, install conda. Then use conda to setup a development environment:
conda env create -f environment.yml
conda activate rubicon-ml-dev
Finally, install rubicon_ml
locally into the newly created environment.
pip install -e ".[all]"
Testing
The tests are separated into unit and integration tests. They can be run
directly in the activated dev environment via pytest tests/unit
or pytest tests/integration
. Or by simply running pytest
to execute all of them.
Note: some integration tests are intentionally marked
to control when they
are run (i.e. not during CICD). These tests include:
-
Integration tests that write to physical filesystems - local and S3. Local files will be written to
./test-rubicon
relative to where the tests are run. An S3 path must also be provided to run these tests. By default, these tests are disabled. To enable them, run:pytest -m "write_files" --s3-path "s3://my-bucket/my-key"
-
Integration tests that run Jupyter notebooks. These tests are a bit slower than the rest of the tests in the suite as they need to launch Jupyter servers. By default, they are enabled. To disable them, run:
pytest -m "not run_notebooks and not write_files"
Note: When simply running
pytest
,-m "not write_files"
is the default. So, we need to also apply it when disabling notebook tests.
Code Formatting
Install and configure pre-commit to automatically run black
, flake8
, and
isort
during commits:
- install pre-commit
- run
pre-commit install
to set up the git hook scripts
Now pre-commit
will run automatically on git commit and will ensure consistent
code format throughout the project. You can format without committing via
pre-commit run
or skip these checks with git commit --no-verify
.
Project details
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