DataScience Wizard for automatic assembly of machine learning pipelines
Project description
dswizard
dswizard is an efficient solver for machine learning (ML) pipeline synthesis inspired by human behaviour. It automatically derives a pipeline structure, selects algorithms and performs hyperparameter optimization. This repository contains the source code and data used in our publication Iterative Search Space Construction for Pipeline Structure Search.
How to install
The code has only be tested with Python 3.8, but any version supporting type hints should work. We recommend using a virtual environment.
python3 -m virtualenv venv
source venv/bin/activate
dswizard is available on PyPI, you can simply install it via
pip install dswizard
Alternatively, you can checkout the source code and install it directly via
pip install -e dswizard
Now you are ready to go.
Visualization
dswizard contains an optional pipeline search space visualization functionality intended for debugging and
explainability. If you don't need this feature, you can skip this step. To use the visualization you have to install
Graphviz manually and add the additional visualization libraries using
pip install dswizard[visualization]
Usage
In the folder scripts, we have provided scripts to showcase usage of dswizard. The most important script is
scripts/1_optimize.py. This script solves the pipeline synthesis for a given task. To get usage information use
python dswizard/scripts/1_optimize.py --help
yielding a output similar to
usage: 1_optimize.py [-h] [--wallclock_limit WALLCLOCK_LIMIT] [--cutoff CUTOFF] [--log_dir LOG_DIR] task
Example 1 - dswizard optimization.
positional arguments:
task OpenML task id
optional arguments:
-h, --help show this help message and exit
--wallclock_limit WALLCLOCK_LIMIT
Maximum optimization time for in seconds
--cutoff CUTOFF Maximum cutoff time for a single evaluation in seconds
--log_dir LOG_DIR Directory used for logging
--fold FOLD Fold of OpenML task to optimize
You have to pass an OpenML task id. For example, to create pipelines for the kc2 data set
use python dswizard/scripts/1_optimize.py 3913. Via the optional parameter you can change the total optimization time
(default 300 seconds), maximum evaluation time for a single configuration (default 60 seconds), the directory to store
optimization artifacts (default run/{TASK}) and the fold to evaluate (default 0).
The optimization procedure prints the best found pipeline structure with the according configuration and test performance to the console., similar to
2020-11-13 16:45:55,312 INFO root MainThread Best found configuration: [('22', KBinsDiscretizer), ('26', PCAComponent), ('28', AdaBoostingClassifier)]
Configuration:
22:encode, Value: 'ordinal'
22:n_bins, Value: 32
22:strategy, Value: 'kmeans'
26:keep_variance, Value: 0.9145797030897109
26:whiten, Value: True
28:algorithm, Value: 'SAMME'
28:learning_rate, Value: 0.039407336108331845
28:n_estimators, Value: 138
with loss -0.8401893431635389
2020-11-13 16:45:55,312 INFO root MainThread A total of 20 unique structures where sampled.
2020-11-13 16:45:55,312 INFO root MainThread A total of 58 runs where executed.
2020-11-13 16:45:55,316 INFO root MainThread Final pipeline:
FlexiblePipeline(configuration={'22:encode': 'ordinal', '22:n_bins': 32,
'22:strategy': 'kmeans',
'26:keep_variance': 0.9145797030897109,
'26:whiten': True, '28:algorithm': 'SAMME',
'28:learning_rate': 0.039407336108331845,
'28:n_estimators': 138},
steps=[('22', KBinsDiscretizer(encode='ordinal', n_bins=32, strategy='kmeans')),
('26', PCAComponent(keep_variance=0.9145797030897109, whiten=True)),
('28', AdaBoostingClassifier(algorithm='SAMME', learning_rate=0.039407336108331845, n_estimators=138))])
2020-11-13 16:45:55,828 INFO root MainThread Final test performance -0.8430735930735931
Additionally, an ensemble of the evaluated pipeline candidates is constructed.
2020-11-13 16:46:06,371 DEBUG Ensemble MainThread Building bagged ensemble
2020-11-13 16:46:09,606 DEBUG Ensemble MainThread Ensemble constructed
2020-11-13 16:46:10,472 INFO root MainThread Final ensemble performance -0.8528138528138528 based on 11 pipelines
In the log directory (default run/{task}) four files are stored:
- log.txt contains the complete logging output
- results.json contains detailed information about all evaluated hyperparameter configurations.
- search_graph.pdf is a visual representation of the internal pipeline structure graph.
- structures.json contains all tested pipeline structures including the list of algorithms and the complete configuration space.
Benchmarking
To assess the performance of dswizard we have implemented an adapter for the OpenML automlbenchmark available
here. Please refer to that repository for benchmarking dswizard. The
file scripts/2_load_pipelines.py, scripts/3_load_performance.py and scripts/4_load_trajectories.py are used to
compare dswizard with autosklearn and tpot, both also evaluated via automlbenchmark.
Meta-Learning
The meta-learning base used in this repository is created using meta-learning-base. Please see this repository on how to create the required meta-learning models.
For simplicity, we directly provide a random and sgd forest regression model trained on all available data ready to use.
It is available in in dswizard/assets/. scripts/1_optimize.py is already configured to use this model.
The data used to train the regression model is also available online. Please refer to meta-learning-base to see how to train the model from the raw data.
dswizard-components
This repository only contains the optimization logic. The actual basic ML components to be optimized are available in dswizard-components. Currently, only sklearn components are supported.
Release New Version
Increase the version number in setup.py and build a new release with python setup.py sdist. Finally, upload the
new version using twine upload dist/dswizard-<VERSION>.tar.gz.
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