pytorch_forecasting.models.dlinear._dlinear_v2.DLinear#

class pytorch_forecasting.models.dlinear._dlinear_v2.DLinear(loss: Module, moving_avg: int = 25, individual: bool = False, logging_metrics: list[Module] | None = None, optimizer: Optimizer | str | None = 'adam', optimizer_params: dict | None = None, lr_scheduler: str | None = None, lr_scheduler_params: dict | None = None, metadata: dict | None = None, **kwargs: Any)[source]#

DLinear: Decomposition Linear Model for Long-Term Time Series Forecasting.

DLinear decomposes time series into trend and seasonal components and applies separate linear layers to each component. The final prediction is the sum of both components.

Parameters:

loss (nn.Module) – Loss function for training step.
moving_avg (int , default=25) – Kernel size for moving average decomposition.
individual (bool, default=False) – Whether to use individual linear layers for each variate (True) or shared layers across all variates (False).
logging_metrics (Optional[list[nn.Module]], default=None) – List of metrics to log during training, validation, and testing.
optimizer (Optional[Union[Optimizer, str]], default='adam') – Optimizer to use for training.
optimizer_params (Optional[dict], default=None) – Parameters for the optimizer.
lr_scheduler (Optional[str], default=None) – Learning rate scheduler to use.
lr_scheduler_params (Optional[dict], default=None) – Parameters for the learning rate scheduler.
metadata (Optional[dict], default=None) – Metadata for the model from TslibDataModule.

References

[1] https://arxiv.org/pdf/2205.13504 [2] thuml/Time-Series-Library

Notes

[1] This implementation supports only continuous features. Categorical variables: will be accommodated in future versions.

__init__(loss: Module, moving_avg: int = 25, individual: bool = False, logging_metrics: list[Module] | None = None, optimizer: Optimizer | str | None = 'adam', optimizer_params: dict | None = None, lr_scheduler: str | None = None, lr_scheduler_params: dict | None = None, metadata: dict | None = None, **kwargs: Any)[source]#

Methods

`__call__`(args, *kwargs)	Call self as a function.
`__delattr__`(name)	Implement delattr(self, name).
`__dir__`()	Default dir() implementation.
`__eq__`(value, /)	Return self==value.
`__format__`(format_spec, /)	Default object formatter.
`__ge__`(value, /)	Return self>=value.
`__getattr__`(name)
`__getattribute__`(name, /)	Return getattr(self, name).
`__getstate__`()	Helper for pickle.
`__gt__`(value, /)	Return self>value.
`__hash__`()	Return hash(self).
`__init_subclass__`	This method is called when a class is subclassed.
`__le__`(value, /)	Return self<=value.
`__lt__`(value, /)	Return self<value.
`__ne__`(value, /)	Return self!=value.
`__new__`(args, *kwargs)
`__reduce__`()	Helper for pickle.
`__reduce_ex__`(protocol, /)	Helper for pickle.
`__repr__`()	Return repr(self).
`__setattr__`(name, value)	Implement setattr(self, name, value).
`__setstate__`(state)
`__sizeof__`()	Size of object in memory, in bytes.
`__str__`()	Return str(self).
`__subclasshook__`	Abstract classes can override this to customize issubclass().
`_apply`(fn[, recurse])
`_apply_batch_transfer_handler`(batch[, ...])
`_call_batch_hook`(hook_name, *args)
`_call_impl`(args, *kwargs)
`_encoder`(x, target_indices)	Encoder the input time series through decompoosition and linear layers.
`_get_backward_hooks`()	Return the backward hooks for use in the call function.
`_get_backward_pre_hooks`()
`_get_name`()
`_get_optimizer`()	Get the optimizer based on the specified optimizer name and parameters.
`_get_scheduler`(optimizer)	Get the lr scheduler based on the specified scheduler name and params.
`_init_network`()	Initialise the DLinear model network layer components.
`_load_from_state_dict`(state_dict, prefix, ...)	Copy parameters and buffers from `state_dict` into only this module, but not its descendants.
`_log_dict_through_fabric`(dictionary[, logger])
`_maybe_warn_non_full_backward_hook`(inputs, ...)
`_named_members`(get_members_fn[, prefix, ...])	Help yield various names + members of modules.
`_on_before_batch_transfer`(batch[, ...])
`_pkg`()	Package containing the model.
`_prepare_input_data`(x)	Prepare input data and target indices for model input.
`_process_individual_features`(seasonal_init, ...)	Process features individually when self.individual=True.
`_register_load_state_dict_pre_hook`(hook[, ...])	See `register_load_state_dict_pre_hook()` for details.
`_register_state_dict_hook`(hook)	Register a post-hook for the `state_dict()` method.
`_replicate_for_data_parallel`()
`_reshape_output`(output)	Reshape output tensor for quantile predictions.
`_save_to_state_dict`(destination, prefix, ...)	Save module state to the destination dictionary.
`_set_hparams`(hp)
`_slow_forward`(input, *kwargs)
`_to_hparams_dict`(hp)
`_verify_is_manual_optimization`(fn_name)
`_weight_init`(m)
`_wrapped_call_impl`(args, *kwargs)
`add_module`(name, module)	Add a child module to the current module.
`all_gather`(data[, group, sync_grads])	Gather tensors or collections of tensors from multiple processes.
`apply`(fn)	Apply `fn` recursively to every submodule (as returned by `.children()`) as well as self.
`backward`(loss, args, *kwargs)	Called to perform backward on the loss returned in `training_step()`.
`bfloat16`()	Casts all floating point parameters and buffers to `bfloat16` datatype.
`buffers`([recurse])	Return an iterator over module buffers.
`children`()	Return an iterator over immediate children modules.
`clip_gradients`(optimizer[, ...])	Handles gradient clipping internally.
`compile`(args, *kwargs)	Compile this Module's forward using `torch.compile()`.
`configure_callbacks`()	Configure model-specific callbacks.
`configure_gradient_clipping`(optimizer[, ...])	Perform gradient clipping for the optimizer parameters.
`configure_model`()	Hook to create modules in a strategy and precision aware context.
`configure_optimizers`()	Configure the optimizer and learning rate scheduler.
`configure_sharded_model`()	Deprecated.
`cpu`()	See `torch.nn.Module.cpu()`.
`cuda`([device])	Moves all model parameters and buffers to the GPU.
`double`()	See `torch.nn.Module.double()`.
`eval`()	Set the module in evaluation mode.
`extra_repr`()	Return the extra representation of the module.
`float`()	See `torch.nn.Module.float()`.
`forward`(x)	Forward pass of the DLinear model.
`freeze`()	Freeze all params for inference.
`get_buffer`(target)	Return the buffer given by `target` if it exists, otherwise throw an error.
`get_extra_state`()	Return any extra state to include in the module's state_dict.
`get_parameter`(target)	Return the parameter given by `target` if it exists, otherwise throw an error.
`get_submodule`(target)	Return the submodule given by `target` if it exists, otherwise throw an error.
`half`()	See `torch.nn.Module.half()`.
`ipu`([device])	Move all model parameters and buffers to the IPU.
`load_from_checkpoint`(checkpoint_path[, ...])	Primary way of loading a model from a checkpoint.
`load_state_dict`(state_dict[, strict, assign])	Copy parameters and buffers from `state_dict` into this module and its descendants.
`log`(name, value[, prog_bar, logger, ...])	Log a key, value pair.
`log_dict`(dictionary[, prog_bar, logger, ...])	Log a dictionary of values at once.
`log_metrics`(y_hat, y[, prefix])	Log additional metrics during training, validation, or testing.
`lr_scheduler_step`(scheduler, metric)	Override this method to adjust the default way the `Trainer` calls each scheduler.
`lr_schedulers`()	Returns the learning rate scheduler(s) that are being used during training.
`manual_backward`(loss, args, *kwargs)	Call this directly from your `training_step()` when doing optimizations manually.
`modules`([remove_duplicate])	Return an iterator over all modules in the network.
`mtia`([device])	Move all model parameters and buffers to the MTIA.
`named_buffers`([prefix, recurse, ...])	Return an iterator over module buffers, yielding both the name of the buffer as well as the buffer itself.
`named_children`()	Return an iterator over immediate children modules, yielding both the name of the module as well as the module itself.
`named_modules`([memo, prefix, remove_duplicate])	Return an iterator over all modules in the network, yielding both the name of the module as well as the module itself.
`named_parameters`([prefix, recurse, ...])	Return an iterator over module parameters, yielding both the name of the parameter as well as the parameter itself.
`on_after_backward`()	Called after `loss.backward()` and before optimizers are stepped.
`on_after_batch_transfer`(batch, dataloader_idx)	Override to alter or apply batch augmentations to your batch after it is transferred to the device.
`on_before_backward`(loss)	Called before `loss.backward()`.
`on_before_batch_transfer`(batch, dataloader_idx)	Override to alter or apply batch augmentations to your batch before it is transferred to the device.
`on_before_optimizer_step`(optimizer)	Called before `optimizer.step()`.
`on_before_zero_grad`(optimizer)	Called after `training_step()` and before `optimizer.zero_grad()`.
`on_fit_end`()	Called at the very end of fit.
`on_fit_start`()	Called at the very beginning of fit.
`on_load_checkpoint`(checkpoint)	Called by Lightning to restore your model.
`on_predict_batch_end`(outputs, batch, batch_idx)	Called in the predict loop after the batch.
`on_predict_batch_start`(batch, batch_idx[, ...])	Called in the predict loop before anything happens for that batch.
`on_predict_end`()	Called at the end of predicting.
`on_predict_epoch_end`()	Called at the end of predicting.
`on_predict_epoch_start`()	Called at the beginning of predicting.
`on_predict_model_eval`()	Called when the predict loop starts.
`on_predict_start`()	Called at the beginning of predicting.
`on_save_checkpoint`(checkpoint)	Called by Lightning when saving a checkpoint to give you a chance to store anything else you might want to save.
`on_test_batch_end`(outputs, batch, batch_idx)	Called in the test loop after the batch.
`on_test_batch_start`(batch, batch_idx[, ...])	Called in the test loop before anything happens for that batch.
`on_test_end`()	Called at the end of testing.
`on_test_epoch_end`()	Called in the test loop at the very end of the epoch.
`on_test_epoch_start`()	Called in the test loop at the very beginning of the epoch.
`on_test_model_eval`()	Called when the test loop starts.
`on_test_model_train`()	Called when the test loop ends.
`on_test_start`()	Called at the beginning of testing.
`on_train_batch_end`(outputs, batch, batch_idx)	Called in the training loop after the batch.
`on_train_batch_start`(batch, batch_idx)	Called in the training loop before anything happens for that batch.
`on_train_end`()	Called at the end of training before logger experiment is closed.
`on_train_epoch_end`()	Called in the training loop at the very end of the epoch.
`on_train_epoch_start`()	Called in the training loop at the very beginning of the epoch.
`on_train_start`()	Called at the beginning of training after sanity check.
`on_validation_batch_end`(outputs, batch, ...)	Called in the validation loop after the batch.
`on_validation_batch_start`(batch, batch_idx)	Called in the validation loop before anything happens for that batch.
`on_validation_end`()	Called at the end of validation.
`on_validation_epoch_end`()	Called in the validation loop at the very end of the epoch.
`on_validation_epoch_start`()	Called in the validation loop at the very beginning of the epoch.
`on_validation_model_eval`()	Called when the validation loop starts.
`on_validation_model_train`()	Called when the validation loop ends.
`on_validation_model_zero_grad`()	Called by the training loop to release gradients before entering the validation loop.
`on_validation_start`()	Called at the beginning of validation.
`optimizer_step`(epoch, batch_idx, optimizer)	Override this method to adjust the default way the `Trainer` calls the optimizer.
`optimizer_zero_grad`(epoch, batch_idx, optimizer)	Override this method to change the default behaviour of `optimizer.zero_grad()`.
`optimizers`([use_pl_optimizer])	Returns the optimizer(s) that are being used during training.
`parameters`([recurse])	Return an iterator over module parameters.
`predict`(dataloader[, mode, return_info, ...])	Generate predictions for new data using the lightning.Trainer.
`predict_dataloader`()	An iterable or collection of iterables specifying prediction samples.
`predict_step`(batch, batch_idx[, dataloader_idx])	Prediction step for the model.
`prepare_data`()	Use this to download and prepare data.
`print`(args, *kwargs)	Prints only from process 0.
`register_backward_hook`(hook)	Register a backward hook on the module.
`register_buffer`(name, tensor[, persistent])	Add a buffer to the module.
`register_forward_hook`(hook, *[, prepend, ...])	Register a forward hook on the module.
`register_forward_pre_hook`(hook, *[, ...])	Register a forward pre-hook on the module.
`register_full_backward_hook`(hook[, prepend])	Register a backward hook on the module.
`register_full_backward_pre_hook`(hook[, prepend])	Register a backward pre-hook on the module.
`register_load_state_dict_post_hook`(hook)	Register a post-hook to be run after module's `load_state_dict()` is called.
`register_load_state_dict_pre_hook`(hook)	Register a pre-hook to be run before module's `load_state_dict()` is called.
`register_module`(name, module)	Alias for `add_module()`.
`register_parameter`(name, param)	Add a parameter to the module.
`register_state_dict_post_hook`(hook)	Register a post-hook for the `state_dict()` method.
`register_state_dict_pre_hook`(hook)	Register a pre-hook for the `state_dict()` method.
`remove_ignored_hparams`(ignore_list)	Remove ignored hyperparameters from the stored state.
`requires_grad_`([requires_grad])	Change if autograd should record operations on parameters in this module.
`save_hyperparameters`(*args[, ignore, frame, ...])	Save arguments to `hparams` attribute.
`set_extra_state`(state)	Set extra state contained in the loaded state_dict.
`set_submodule`(target, module[, strict])	Set the submodule given by `target` if it exists, otherwise throw an error.
`setup`(stage)	Called at the beginning of fit (train + validate), validate, test, or predict.
`share_memory`()	See `torch.Tensor.share_memory_()`.
`state_dict`(*args[, destination, prefix, ...])	Return a dictionary containing references to the whole state of the module.
`teardown`(stage)	Called at the end of fit (train + validate), validate, test, or predict.
`test_dataloader`()	An iterable or collection of iterables specifying test samples.
`test_step`(batch, batch_idx)	Test step for the model.
`to`(args, *kwargs)	See `torch.nn.Module.to()`.
`to_empty`(*, device[, recurse])	Move the parameters and buffers to the specified device without copying storage.
`to_onnx`([file_path, input_sample])	Saves the model in ONNX format.
`to_prediction`(out, **kwargs)	Converts raw model output to point forecasts.
`to_quantiles`(out, **kwargs)	Converts raw model output to quantile forecasts.
`to_tensorrt`([file_path, input_sample, ir, ...])	Export the model to ScriptModule or GraphModule using TensorRT compile backend.
`to_torchscript`([file_path, method, ...])	By default compiles the whole model to a `torch.jit.ScriptModule`.
`toggle_optimizer`(optimizer)	Makes sure only the gradients of the current optimizer's parameters are calculated in the training step to prevent dangling gradients in multiple-optimizer setup.
`toggled_optimizer`(optimizer)	Makes sure only the gradients of the current optimizer's parameters are calculated in the training step to prevent dangling gradients in multiple-optimizer setup.
`train`([mode])	Set the module in training mode.
`train_dataloader`()	An iterable or collection of iterables specifying training samples.
`training_step`(batch, batch_idx)	Training step for the model.
`transfer_batch_to_device`(batch, device, ...)	Override this hook if your `DataLoader` returns tensors wrapped in a custom data structure.
`transform_output`(y_hat, target_scale)	Transform the output of the model to the original scale.
`type`(dst_type)	See `torch.nn.Module.type()`.
`unfreeze`()	Unfreeze all parameters for training.
`untoggle_optimizer`(optimizer)	Resets the state of required gradients that were toggled with `toggle_optimizer()`.
`val_dataloader`()	An iterable or collection of iterables specifying validation samples.
`validation_step`(batch, batch_idx)	Validation step for the model.
`xpu`([device])	Move all model parameters and buffers to the XPU.
`zero_grad`([set_to_none])	Reset gradients of all model parameters.

Attributes

`CHECKPOINT_HYPER_PARAMS_KEY`
`CHECKPOINT_HYPER_PARAMS_NAME`
`CHECKPOINT_HYPER_PARAMS_TYPE`
`T_destination`
`_OPTIMIZER_REGISTRY`
`_SCHEDULER_REGISTRY`
`__annotations__`
`__dict__`
`__doc__`
`__jit_unused_properties__`
`__module__`
`__weakref__`	list of weak references to the object
`_compiled_call_impl`
`_jit_is_scripting`
`_version`	This allows better BC support for `load_state_dict()`.
`automatic_optimization`	If set to `False` you are responsible for calling `.backward()`, `.step()`, `.zero_grad()`.
`call_super_init`
`current_epoch`	The current epoch in the `Trainer`, or 0 if not attached.
`device`
`device_mesh`	Strategies like `ModelParallelStrategy` will create a device mesh that can be accessed in the `configure_model()` hook to parallelize the LightningModule.
`dtype`
`dump_patches`
`example_input_array`	The example input array is a specification of what the module can consume in the `forward()` method.
`fabric`
`global_rank`	The index of the current process across all nodes and devices.
`global_step`	Total training batches seen across all epochs.
`hparams`	The collection of hyperparameters saved with `save_hyperparameters()`.
`hparams_initial`	The collection of hyperparameters saved with `save_hyperparameters()`.
`local_rank`	The index of the current process within a single node.
`logger`	Reference to the logger object in the Trainer.
`loggers`	Reference to the list of loggers in the Trainer.
`on_gpu`	Returns `True` if this model is currently located on a GPU.
`strict_loading`	Determines how Lightning loads this model using .load_state_dict(..., strict=model.strict_loading).
`trainer`
`training`
`_parameters`
`_buffers`
`_non_persistent_buffers_set`
`_backward_pre_hooks`
`_backward_hooks`
`_is_full_backward_hook`
`_forward_hooks`
`_forward_hooks_with_kwargs`
`_forward_hooks_always_called`
`_forward_pre_hooks`
`_forward_pre_hooks_with_kwargs`
`_state_dict_hooks`
`_load_state_dict_pre_hooks`
`_state_dict_pre_hooks`
`_load_state_dict_post_hooks`
`_modules`