Polyaxon
Deep Learning library for TensorFlow for building end to end models and experiments.
Design Goals
Polyaxon was built with the following goals:
-
Modularity: The creation of a computation graph based on modular and understandable modules, with the possibility to reuse and share the module in subsequent usage.
-
Usability: Training a model should be easy enough, and should enable quick experimentations.
-
Configurable: Models and experiments could be created using a YAML/Json file, but also in python files.
-
Extensibility: The modularity and the extensive documentation of the code makes it easy to build and extend the set of provided modules.
-
Performance: Polyaxon is based on internal
tensorflow
code base and leverage the builtin distributed learning. -
Data Preprocessing: Polyaxon provides many pipelines and data processor to support different data inputs.
Quick start
A classification problem
X_train, Y_train, X_test, Y_test = load_mnist()
config = {
'name': 'lenet_mnsit',
'output_dir': output_dir,
'eval_every_n_steps': 10,
'train_steps_per_iteration': 100,
'run_config': {'save_checkpoints_steps': 100},
'train_input_data_config': {
'input_type': plx.configs.InputDataConfig.NUMPY,
'pipeline_config': {'name': 'train', 'batch_size': 64, 'num_epochs': None,
'shuffle': True},
'x': X_train,
'y': Y_train
},
'eval_input_data_config': {
'input_type': plx.configs.InputDataConfig.NUMPY,
'pipeline_config': {'name': 'eval', 'batch_size': 32, 'num_epochs': None,
'shuffle': False},
'x': X_test,
'y': Y_test
},
'estimator_config': {'output_dir': output_dir},
'model_config': {
'summaries': 'all',
'model_type': 'classifier',
'loss_config': {'name': 'softmax_cross_entropy'},
'eval_metrics_config': [{'name': 'streaming_accuracy'},
{'name': 'streaming_precision'}],
'optimizer_config': {'name': 'Adam', 'learning_rate': 0.002,
'decay_type': 'exponential_decay', 'decay_rate': 0.2},
'graph_config': {
'name': 'lenet',
'definition': [
(plx.layers.Conv2d, {'num_filter': 32, 'filter_size': 5, 'strides': 1,
'regularizer': 'l2_regularizer'}),
(plx.layers.MaxPool2d, {'kernel_size': 2}),
(plx.layers.Conv2d, {'num_filter': 64, 'filter_size': 5,
'regularizer': 'l2_regularizer'}),
(plx.layers.MaxPool2d, {'kernel_size': 2}),
(plx.layers.FullyConnected, {'n_units': 1024, 'activation': 'tanh'}),
(plx.layers.FullyConnected, {'n_units': 10}),
]
}
}
}
experiment_config = plx.configs.ExperimentConfig.read_configs(config)
xp = plx.experiments.create_experiment(experiment_config)
xp.continuous_train_and_evaluate()
A regression problem
X, y = generate_data(np.sin, np.linspace(0, 100, 10000, dtype=np.float32), time_steps=7)
config = {
'name': 'time_series',
'output_dir': output_dir,
'eval_every_n_steps': 5,
'run_config': {'save_checkpoints_steps': 100},
'train_input_data_config': {
'input_type': plx.configs.InputDataConfig.NUMPY,
'pipeline_config': {'name': 'train', 'batch_size': 64, 'num_epochs': None,
'shuffle': False},
'x': X['train'],
'y': y['train']
},
'eval_input_data_config': {
'input_type': plx.configs.InputDataConfig.NUMPY,
'pipeline_config': {'name': 'eval', 'batch_size': 32, 'num_epochs': None,
'shuffle': False},
'x': X['val'],
'y': y['val']
},
'estimator_config': {'output_dir': output_dir},
'model_config': {
'model_type': 'regressor',
'loss_config': {'name': 'mean_squared_error'},
'eval_metrics_config': [{'name': 'streaming_root_mean_squared_error'},
{'name': 'streaming_mean_absolute_error'}],
'optimizer_config': {'name': 'Adagrad', 'learning_rate': 0.1},
'graph_config': {
'name': 'regressor',
'definition': [
(plx.layers.LSTM, {'num_units': 7, 'num_layers': 1}),
# (Slice, {'begin': [0, 6], 'size': [-1, 1]}),
(plx.layers.FullyConnected, {'n_units': 1}),
]
}
}
}
experiment_config = plx.configs.ExperimentConfig.read_configs(config)
xp = plx.experiments.create_experiment(experiment_config)
xp.continuous_train_and_evaluate()
Installation
To install the latest version of Polyaxon: pip install polyaxon
Alternatively, you can also install from source by running (from source folder): python setup.py install
Examples
Some example are provided here, more examples and use case will pushed, a contribution with an example is also appreciated.
Project status
Polyaxon is in a pre-release "alpha" state. All interfaces, programming interfaces, and data structures may be changed without prior notice. We'll do our best to communicate potentially disruptive changes.
Contributions
Please follow the contribution guide line: Contribute to Polyaxon.
License
MIT License
Credit
This work is based and was inspired from different projects, tensorflow.contrib.learn
, keras
, sonnet
, and seq2seq
.
The idea behind creating this library is to provide a tool that allow engineers and researchers to develop and experiment with end to end solution.
This would allow us to have a complete control over the api and future design decision.