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| conf | ||
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| CODE_OF_CONDUCT.md | ||
| Dockerfile | ||
| LICENSE.txt | ||
| README.md | ||
| SECURITY.md | ||
| all_models.py | ||
| assessment_metrics_loader.py | ||
| base.py | ||
| ddm_predictor.py | ||
| ddm_test_validate.py | ||
| ddm_trainer.py | ||
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README.md
Training Data-Driven or Surrogate Simulators
This repository provides a template for training data-driven simulators that can then be leveraged for training brains (reinforcement learning agents) with Project Bonsai.
⚠️ Disclaimer: This is not an official Microsoft product. This application is considered an experimental addition to Microsoft's Project Bonsai toolbox. Its primary goal is to reduce barriers of entry to use Project Bonsai's core Machine Teaching. Pull requests for fixes and small enhancements are welcome, but we expect this to be replaced by out-of-the-box features of Project Bonsai shortly.
Dependencies
This repository leverages Anaconda for Python virtual environments and all dependencies. Please install Anaconda or miniconda first and then run the following:
conda env update -f environment.yml
conda activate ddm
This will create and activate a new conda virtual environment named ddm based on the configuration in the environment.yml file.
Tests
To get an understanding of the package, you may want to look at the tests in tests, and the configuration files in conf. You can run the tests by simply:
pytest tests
# or
python -m pytest tests/
Usage
The scripts in this package expect that you have a dataset of CSVs or numpy arrays. If you are using a CSV, you should ensure that:
- The CSV has a header with unique column names describing your inputs to the model and the outputs of the model.
- The CSV should have a column for the episode index and another column for the iteration index.
- The CSV should have been cleaned from any rows containing NaNs
Generating Logs from an Existing Simulator
For an example on how to generate logged datasets from a simulator using the Python SDK, take a look at the examples in the samples repository, in particular, you can use the flag --test-local True --log-iteration True to generate a CSV data that matches the schema used in this repository.
Training Your Models
The scripts in this package leverage the configuration files saved in the conf folder to load CSV files, train and save models, and interface them to the Bonsai service. There are three configuration files:
- conf/data/$YOUR_DATA_CONFIG.yaml defines the interface to the data to train on
- conf/model/$YOUR_MODEL_CONFIG.yaml defines the Machine Learning model's hyper-parameters
- conf/simulator/$YOUR_SIM_CONFIG.yaml defines the simulator interface
The library comes with a default configuration set in conf/config.yaml.
NOTE: Be sure to add your actions to the
augmented_colsinstead ofinputsin the data config file located atconf/data.
python ddm_trainer.py
You can change any configuration parameter by specifying the configuration file you would like to change and its new path, i.e.,
python ddm_trainer.py data=cartpole_st_at simulator=gboost_cartpole
which will use the configuration files in conf/data/cartpole_st_at.yaml and conf/simulator/gboost_cartpole.yaml.
You can also override the parameters of the configuration file by specifying their name:
python ddm_trainer.py data.path=csv_data/cartpole_at_st.csv data.iteration_order=1
python ddm_trainer.py data.path=csv_data/cartpole_at_st.csv model=xgboost
The script automatically saves your model to the path specified by model.saver.filename. An outputs directory is also saved with your configuration file and logs.
Hyperparameter Tuning
You can also do some hyperparameter tuning by setting sweep.run to True in your conf.model.yaml file and specifying the parameters to sweep over and their distributions in the params argument:
sweep:
run: True
search_algorithm: random
num_trials: 3
scoring_func: r2
params:
estimator__max_depth: [1, 3, 5, 10]
estimator__gamma: [0, 0.5, 1, 5]
estimator__subsample: [0.1, 0.5, 1]
The sweeping function uses tune-sklearn. Valid choices for search_algorithm are: bayesian, random, bohb, and hyperopt.
Building Your Simulators
The schema for your simulator resides in conf/simulator. After defining your states, actions, and configs, you can run the simulator as follows:
python ddm_predictor.py simulator=$YOUR_SIM_CONFIG
NOTE: If wanting to train with bonsai, make sure
conf/simulator/policyis set to "bonsai" instead of "random"
If you would like to test your simulator before connecting to the platform, you can use a random policy:
python ddm_predictor.py simulator=$YOUR_SIM_CONFIG simulator.policy=random
NOTE: The optional flags should NOT have .yml; it should just be the name of the config file
If you're having trouble running locally, chances are you need to set up your workspace and access key configs. You can do this by using environment variables or the following command
python ddm_predictor.py --workspace-setup=True
Generate Logs for Comparing DDM and Original Sim
Validating your ddm simulator against the original sim is heavily recommended, especially paying attention to error propagation in a sequential manner. ddm_test_validate.py is one way to generate two csv files in outputs/<DATE>/<TIME>/logs.
NOTE: ddm_test_validate.py does NOT currently generate plots for generic models
In order to use ddm_test_validate.py, a few steps will need to be followed:
- Place the original simulator's
main.pyat the same root level whereddm_test_validate.pyis. Add simulator files intosim/<FOLDER>/sim/.
├───ddm_test_validate.py
├───main.py
├───sim
│ ├───quanser
│ │ ├───sim
│ │ | ├───qube_simulator.py
- Modify imports so main.py can successfully run simulator in new location
from sim.quanser.sim.qube_simulator import QubeSimulator
from sim.quanser.policies import random_policy, brain_policy
- Ensure the config in
conf/simulatordoes NOT have the default policy as bonsai. You'll want to use "random" or create your own expert policy.
NOTE: You can override your policy from the CLI, will be shown in the final step
- Provide a scenario config in
ddm_test_validate.pyto ensure you start with initial configurations that are better than just random.
'''
TODO: Add episode_start(config) so sim works properly and not initializing
with unrealistic initial conditions.
'''
sim.episode_start()
ddm_state = sim.get_state()
sim_state = sim.get_sim_state()
- Run
ddm_test_validate.py
python ddm_test_validate.py simulator.policy=random
Build Simulator Package
az acr build --image <IMAGE_NAME>:<IMAGE_VERSION> --file Dockerfile --registry <ACR_REGISTRY> .
Contribute Code
This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.
When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repositories using our CLA.
This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.
Telemetry
The software may collect information about you and your use of the software and send it to Microsoft. Microsoft may use this information to provide services and improve our products and services. You may turn off the telemetry as described in the repository. There are also some features in the software that may enable you and Microsoft to collect data from users of your applications. If you use these features, you must comply with applicable law, including providing appropriate notices to users of your applications together with a copy of Microsoft's privacy statement. Our privacy statement is located at https://go.microsoft.com/fwlink/?LinkID=824704. You can learn more about data collection and use in the help documentation and our privacy statement. Your use of the software operates as your consent to these practices.
Trademarks
This project may contain trademarks or logos for projects, products, or services. Authorized use of Microsoft trademarks or logos is subject to and must follow Microsoft's Trademark & Brand Guidelines. Use of Microsoft trademarks or logos in modified versions of this project must not cause confusion or imply Microsoft sponsorship. Any use of third-party trademarks or logos are subject to those third-party's policies.