Streamlines training, checkpoint management, and diagnostics of PyTorch models.
Project description
Torch ToolKit (torch-tk)
torch-tk streamlines training, checkpoint management, and diagnostics of PyTorch models.
Overview
torch-tk adds a small amount of structure around PyTorch models and optimizers to simplify training and automate saving and restoring checkpoints.
torch-tk provides a model base class, optimizers, a checkpoint manager, a trainer, and diagnostics utilities. The model class inherits from torch.nn.Module, and the torch-tk optimizers are wrappers around torch.optim optimizers such as torch.optim.SGD and torch.optim.Adam. The torch-tk model and optimizer classes thus preserve functionality and interface of PyTorch modules and optimizers.
Key features
torch-tk models and optimizers are self-describing: A model derived from torch_tk.models.Model and the optimizers in torch_tk.optimizers provide all information needed to save their state and recreate the same model and optimizer instances later. In practice, this means a model and optimizer can save to file the constructor arguments and state parameters needed to rebuild them, allowing to load them back into fresh instances.
torch-tk provides a CheckPointManager. The CheckPointManager manages saving, loading, and reconstruing both the model and the optimizer in the state that created the checkpoint. All that is required is that the class paths are available to import the original model and optimizer classes.
torch-tk provides a Trainer class for running epoch-based training. It supports training either from a DataLoader or directly from tensors, and records basic diagnostics such as training loss and epoch wallclock time.
torch-tk provides a Diagnostics class for storing sample-resolved loss information together with training metadata. These diagnostics can be created from tensors or data loaders and can be saved to and restored from netCDF files for later analysis.
Workflow
The workflow is shown in the torch-tk HowTo Jupyter notebook.
Installation
pip
pip install torch-tk
conda / mamba
mamba install -c jan.kazil -c conda-forge torch-tk
Public API
Classes
-
Model- A base class which makes models self-describing and automatically reconstructible by the
CheckPointManager - Automatically rebuilds a model from a saved file
- A base class which makes models self-describing and automatically reconstructible by the
-
SGD,Adam, ...Wrapper classes for PyTorch optimizers that make the optimizers self-describing and automatically reconstructible by the
CheckPointManager -
Trainer- Trains a model from
- a
torch.utils.data.DataLoader - or directly from tensors, using an efficient batching mechanism
- a
- Records training loss and model timing per epoch
- Trains a model from
-
CheckPointManager- Saves and restores model training states
- Automatically rebuilds both a model and its optimizer from a saved checkpoint file
-
Diagnostics- Computes, stores, and plots per-sample loss and per-sample loss probability distribution
- Saves and restores diagnostics in netCDF file format
- Identifies worst-loss samples
Modules
torch_tk.models.model
Provides the abstract Model base class for models that can describe, save, restore, and reconstruct themselves. The Model class inherits from torch.nn.Module, and thus provides the standard PyTorch Module interface.
The Model class defines and provides the following methods:
Model.forward(xb): Abstract method that computes the forward pass.Model.constructor_dict(): Abstract method that returns the constructor arguments needed to reconstruct the model.Model.save_state_dict_to_file(path): Save only the state dictionary.Model.save_to_file(path): Save constructor arguments and state dictionary needed to recreate the model.Model.load_from_file(path, device=None): Recreate a model from a saved file.Model.clone(constructor_dict, state_dict, device=None): Reconstruct a model from constructor arguments and state.
torch_tk.optimizers.sgd
Wrapper around torch.optim.SGD to make it self-describing and automatically reconstructible.
SGD(...): Subclass oftorch.optim.SGDthat stores its constructor arguments on the instance.SGD.constructor_dict(): Return the stored optimizer constructor settings excludingparams.
torch_tk.optimizers.adam
Wrapper around torch.optim.Adam to make it self-describing and automatically reconstructible.
Adam(...): Subclass oftorch.optim.Adamthat stores its constructor arguments on the instance.Adam.constructor_dict(): Return the stored optimizer constructor settings excludingparams.
torch_tk.training.trainer
Provides the Trainer class for epoch-based training and simple training diagnostics.
Trainer(model, optimizer, loss_function, epoch=0): Initialize trainer state.Trainer.train_with_dataloader(data_loader, num_epochs, epoch_diag_step=1, valid_data_loader=None, verbose=True): Train from aDataLoader.Trainer.train_with_data(x_train, y_train, bs, num_epochs, epoch_diag_step=1, x_valid=None, y_valid=None, shuffle=True, verbose=True): Train from in-memory tensors.Trainer.plot_loss(...): Plot recorded diagnostic loss versus epoch.Trainer.plot_wallclock_time(...): Plot recorded epoch wallclock time versus epoch.
torch_tk.checkpoints.checkpoint_manager
Provides checkpoint management for saving and reconstructing a model and optimizer together.
CheckPointManager(model, optimizer, directory): Manage checkpoint saving in a directory.CheckPointManager.save(epoch, batch_size): Save a checkpoint containing epoch, class paths, constructor dictionaries, and state dictionaries.CheckPointManager.load_from_file(file_path, device=None): Reconstruct and returncheckpoint_manager, model, optimizer, epoch, batch_sizefrom a checkpoint file.
torch_tk.diagnostics.loss
Provides utilities for computing per-sample loss.
per_sample_loss_from_data_loader(model, loss_function_sample_resolved, data_loader): Compute per-sample losses and their mean from aDataLoader.per_sample_loss_from_data(model, loss_function_sample_resolved, x_data, y_data, chunk_size=None): Compute per-sample losses and their mean from in-memory tensors.model_worst_loss(model, loss_function_sample_resolved, x_data, y_data, n, chunk_size=None): Return the indices and values of thenworst losses.
torch_tk.diagnostics.diagnostics
Provides the Diagnostics class for sample-resolved loss diagnostics and analysis.
Diagnostics.from_data_loader(...): Build a diagnostics object from a model evaluated on aDataLoader.Diagnostics.from_data(...): Build a diagnostics object from in-memory tensors.Diagnostics.from_netcdf(path): Restore a diagnostics object from a saved netCDF file.Diagnostics(...): Construct a diagnostics object from metadata, epochs, and per-sample loss data.Diagnostics.__add__(other): Concatenate compatible diagnostics across epochs.Diagnostics.to_netcdf(directory, verbose=True): Save diagnostics to a netCDF file.
torch_tk.diagnostics.plotting
Provides utilities for plotting diagnostics.
-
plot_positive_loss_kde_pdf(diagnostics, plot_file=None, title=None, font_factor=1.5, figsize=(9, 6), xlim=None, ylim=None, loss_name='Loss', xlog=False, ylog=False, bin_n=100, per_dlog10=False, show_plot=True, verbose=True, epoch_skip=1): Plot kernel-density-estimated probability distribution functions (PDFs) of positive loss values across one or more diagnostics objects and epochs. Optionally plot density per unitlog10(loss)instead of per unit loss. All loss values must be positive. -
plot_positive_loss_hist_pdf(diagnostics, plot_file=None, title=None, font_factor=1.5, figsize=(9, 6), xlim=None, ylim=None, loss_name='Loss', xlog=False, ylog=False, bin_n=25, per_dlog10=False, show_plot=True, verbose=True, epoch_skip=1): Plot histogram-based probability distribution functions (PDFs) of positive loss values across one or more diagnostics objects and epochs using logarithmically spaced bins. Optionally plot density per unitlog10(loss)instead of per unit loss. All loss values must be positive. -
plot_positive_loss_hist_1st_moment_density(diagnostics, plot_file=None, title=None, font_factor=1.5, figsize=(9, 6), xlim=None, ylim=None, loss_name='Loss', xlog=False, ylog=False, bin_n=25, per_dlog10=False, show_plot=True, verbose=True, epoch_skip=1): Plot histogram-based first-moment densities of positive loss values across one or more diagnostics objects and epochs using logarithmically spaced bins. By default, this plotsloss · dP/d(loss); optionally it can plotloss · dP/dlog10(loss)for logarithmic comparison across scales. All loss values must be positive.
Notes and limitations
- The checkpoint mechanism assumes that models and optimizers are importable from stable class paths and expose
constructor_dict(),state_dict(), andload_state_dict(). - The checkpoint design is not suitable for optimizers that require non-serializable constructor inputs or custom parameter-group reconstruction beyond
model.parameters(). - The recorded epoch loss in
Traineris exact only when the supplied loss function returns the mean per-sample loss over each batch, as stated in the trainer docstrings.
Development
Code Quality and Testing Commands
make fmt- Runsruff format, which reformats Python files according to the style rules inpyproject.toml.make lint- Runsruff check --fix, which lints the code and auto-fixes what it can.make check- Runs formatting and linting.make type- Currently disabled. Intended to runmypyusing the settings inpyproject.toml.make test- Runspytestwith the test settings configured inpyproject.toml.
Author
Jan Kazil - jan.kazil.dev@gmail.com - jankazil.com
License
BSD-3-Clause
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