DL¶
Core¶
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class
catalyst.dl.core.callback.
MeterMetricsCallback
(metric_names: List[str], meter_list: List, input_key: str = 'targets', output_key: str = 'logits', class_names: List[str] = None, num_classes: int = 2, activation: str = 'Sigmoid')[source]¶ Bases:
catalyst.core.callback.Callback
A callback that tracks metrics through meters and prints metrics for each class on state.on_loader_end. This callback works for both single metric and multi-metric meters.
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__init__
(metric_names: List[str], meter_list: List, input_key: str = 'targets', output_key: str = 'logits', class_names: List[str] = None, num_classes: int = 2, activation: str = 'Sigmoid')[source]¶ - Parameters
metric_names (List[str]) – of metrics to print Make sure that they are in the same order that metrics are outputted by the meters in meter_list
meter_list (list-like) – List of meters.meter.Meter instances len(meter_list) == num_classes
input_key (str) – input key to use for metric calculation specifies our
y_true
.output_key (str) – output key to use for metric calculation; specifies our
y_pred
class_names (List[str]) – class names to display in the logs. If None, defaults to indices for each class, starting from 0.
num_classes (int) – Number of classes; must be > 1
activation (str) – An torch.nn activation applied to the logits. Must be one of [‘none’, ‘Sigmoid’, ‘Softmax2d’]
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Callbacks¶
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class
catalyst.dl.callbacks.gan.
WassersteinDistanceCallback
(prefix: str = 'wasserstein_distance', real_validity_output_key: str = 'real_validity', fake_validity_output_key: str = 'fake_validity', multiplier: float = 1.0)[source]¶ Bases:
catalyst.core.callbacks.metrics.MetricCallback
Callback to compute Wasserstein distance metric
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class
catalyst.dl.callbacks.gan.
GradientPenaltyCallback
(real_input_key: str = 'data', fake_output_key: str = 'fake_data', condition_keys: List[str] = None, critic_model_key: str = 'critic', critic_criterion_key: str = 'critic', real_data_criterion_key: str = 'real_data', fake_data_criterion_key: str = 'fake_data', condition_args_criterion_key: str = 'critic_condition_args', prefix: str = 'loss', criterion_key: str = None, multiplier: float = 1.0)[source]¶ Bases:
catalyst.core.callbacks.criterion.CriterionCallback
Criterion Callback to compute Gradient Penalty
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__init__
(real_input_key: str = 'data', fake_output_key: str = 'fake_data', condition_keys: List[str] = None, critic_model_key: str = 'critic', critic_criterion_key: str = 'critic', real_data_criterion_key: str = 'real_data', fake_data_criterion_key: str = 'fake_data', condition_args_criterion_key: str = 'critic_condition_args', prefix: str = 'loss', criterion_key: str = None, multiplier: float = 1.0)[source]¶ - Parameters
real_input_key – real data key in state.input
fake_output_key – fake data key in state.output
condition_keys – all condition keys in state.input for critic
critic_model_key – key for critic model in state.model
critic_criterion_key – key for critic model in criterion
real_data_criterion_key – key for real data in criterion
fake_data_criterion_key – key for fake data in criterion
condition_args_criterion_key – key for all condition args in criterion
prefix –
criterion_key –
multiplier –
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class
catalyst.dl.callbacks.gan.
WeightClampingOptimizerCallback
(grad_clip_params: Dict = None, accumulation_steps: int = 1, optimizer_key: str = None, loss_key: str = 'loss', decouple_weight_decay: bool = True, weight_clamp_value: float = 0.01)[source]¶ Bases:
catalyst.core.callbacks.optimizer.OptimizerCallback
Optimizer callback + weights clipping after step is finished
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__init__
(grad_clip_params: Dict = None, accumulation_steps: int = 1, optimizer_key: str = None, loss_key: str = 'loss', decouple_weight_decay: bool = True, weight_clamp_value: float = 0.01)[source]¶ - Parameters
grad_clip_params –
accumulation_steps –
optimizer_key –
loss_key –
decouple_weight_decay –
weight_clamp_value – value to clamp weights after each optimization iteration Attention: will clamp WEIGHTS, not GRADIENTS
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class
catalyst.dl.callbacks.inference.
InferMaskCallback
(out_dir=None, out_prefix=None, input_key=None, output_key=None, name_key=None, mean=None, std=None, threshold: float = 0.5, mask_strength: float = 0.5, mask_type: str = 'soft')[source]¶
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class
catalyst.dl.callbacks.mixup.
MixupCallback
(input_key: str = 'targets', output_key: str = 'logits', fields: List[str] = ('features', ), alpha=1.0, on_train_only=True, **kwargs)[source]¶ Bases:
catalyst.core.callbacks.criterion.CriterionCallback
Callback to do mixup augmentation.
Paper: https://arxiv.org/abs/1710.09412
Note
MixupCallback is inherited from CriterionCallback and does its work.
You may not use them together.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', fields: List[str] = ('features', ), alpha=1.0, on_train_only=True, **kwargs)[source]¶ - Parameters
fields (List[str]) – list of features which must be affected.
alpha (float) – beta distribution a=b parameters. Must be >=0. The more alpha closer to zero the less effect of the mixup.
on_train_only (bool) – Apply to train only. As the mixup use the proxy inputs, the targets are also proxy. We are not interested in them, are we? So, if on_train_only is True, use a standard output/metric for validation.
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class
catalyst.dl.callbacks.scheduler.
LRFinder
(final_lr, scale='log', num_steps=None, optimizer_key=None)[source]¶ Bases:
catalyst.core.callbacks.scheduler.LRUpdater
Helps you find an optimal learning rate for a model, as per suggestion of 2015 CLR paper. Learning rate is increased in linear or log scale, depending on user input.
https://sgugger.github.io/how-do-you-find-a-good-learning-rate.html
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__init__
(final_lr, scale='log', num_steps=None, optimizer_key=None)[source]¶ - Parameters
final_lr – final learning rate to try with
scale – learning rate increasing scale (“log” or “linear”)
num_steps – number of batches to try; if None - whole loader would be used.
optimizer_key – which optimizer key to use for learning rate scheduling
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Metrics¶
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class
catalyst.dl.callbacks.metrics.accuracy.
AccuracyCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'accuracy', accuracy_args: List[int] = None, num_classes: int = None, threshold: float = None, activation: str = None)[source]¶ Bases:
catalyst.core.callbacks.metrics.MultiMetricCallback
Accuracy metric callback.
- It can be used either for
- multi-class task:
-you can use accuracy_args. -threshold and activation are not required. -input_key point on tensor: batch_size. -output_key point on tensor: batch_size x num_classes.
- OR multi-label task, in this case:
-you must specify threshold and activation. -accuracy_args and num_classes will not be used (because of there is no method to apply top-k in multi-label classification). -input_key, output_key point on tensor: batch_size x num_classes. -output_key point on a tensor with binary vectors.
There is no need to choose a type (multi-class/multi label). An appropriate type will be chosen automatically via shape of tensors.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'accuracy', accuracy_args: List[int] = None, num_classes: int = None, threshold: float = None, activation: str = None)[source]¶ - Parameters
input_key (str) – input key to use for accuracy calculation; specifies our y_true.
output_key (str) – output key to use for accuracy calculation; specifies our y_pred.
prefix (str) – key for the metric’s name
accuracy_args (List[int]) – specifies which accuracy@K to log. [1] - accuracy [1, 3] - accuracy at 1 and 3 [1, 3, 5] - accuracy at 1, 3 and 5
num_classes (int) – number of classes to calculate
accuracy_args
ifaccuracy_args
is Nonethreshold (float) – threshold for outputs binarization.
activation (str) – An torch.nn activation applied to the outputs. Must be one of [“none”, “Sigmoid”, “Softmax”].
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class
catalyst.dl.callbacks.metrics.accuracy.
MapKCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'map', map_args: List[int] = None, num_classes: int = None)[source]¶ Bases:
catalyst.core.callbacks.metrics.MultiMetricCallback
mAP@k metric callback.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'map', map_args: List[int] = None, num_classes: int = None)[source]¶ - Parameters
input_key (str) – input key to use for calculation mean average accuracy at k; specifies our y_true.
output_key (str) – output key to use for calculation mean average accuracy at k; specifies our y_pred.
prefix (str) – key for the metric’s name
map_args (List[int]) – specifies which map@K to log. [1] - map@1 [1, 3] - map@1 and map@3 [1, 3, 5] - map@1, map@3 and map@5
num_classes (int) – number of classes to calculate
map_args
ifmap_args
is None
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class
catalyst.dl.callbacks.metrics.auc.
AUCCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'auc', class_names: List[str] = None, num_classes: int = 2, activation: str = 'Sigmoid')[source]¶ Bases:
catalyst.dl.core.callback.MeterMetricsCallback
Calculates the AUC per class for each loader. Currently, supports binary and multi-label cases.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'auc', class_names: List[str] = None, num_classes: int = 2, activation: str = 'Sigmoid')[source]¶ - Parameters
input_key (str) – input key to use for auc calculation specifies our
y_true
.output_key (str) – output key to use for auc calculation; specifies our
y_pred
prefix (str) – name to display for auc when printing
class_names (List[str]) – class names to display in the logs. If None, defaults to indices for each class, starting from 0.
num_classes (int) – Number of classes; must be > 1
activation (str) – An torch.nn activation applied to the outputs. Must be one of [‘none’, ‘Sigmoid’, ‘Softmax2d’]
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class
catalyst.dl.callbacks.metrics.dice.
DiceCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'dice', eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ Bases:
catalyst.core.callbacks.metrics.MetricCallback
Dice metric callback.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'dice', eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ - Parameters
input_key (str) – input key to use for dice calculation; specifies our y_true.
output_key (str) – output key to use for dice calculation; specifies our y_pred.
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class
catalyst.dl.callbacks.metrics.dice.
MulticlassDiceMetricCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'dice', class_names=None)[source]¶ Bases:
catalyst.core.callback.Callback
Global Multi-Class Dice Metric Callback: calculates the exact dice score across multiple batches. This callback is good for getting the dice score with small batch sizes where the batchwise dice is noisier.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'dice', class_names=None)[source]¶ - Parameters
input_key (str) – input key to use for dice calculation; specifies our y_true.
output_key (str) – output key to use for dice calculation; specifies our y_pred.
prefix (str) – prefix for printing the metric
class_names (dict/List) – if dictionary, should be: {class_id: class_name, …} where class_id is an integer This allows you to ignore class indices. if list, make sure it corresponds to the number of classes
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class
catalyst.dl.callbacks.metrics.f1_score.
F1ScoreCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'f1_score', beta: float = 1.0, eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ Bases:
catalyst.core.callbacks.metrics.MetricCallback
F1 score metric callback.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'f1_score', beta: float = 1.0, eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ - Parameters
input_key (str) – input key to use for iou calculation specifies our
y_true
.output_key (str) – output key to use for iou calculation; specifies our
y_pred
prefix (str) – key to store in logs
beta (float) – beta param for f_score
eps (float) – epsilon to avoid zero division
threshold (float) – threshold for outputs binarization
activation (str) – An torch.nn activation applied to the outputs. Must be one of [‘none’, ‘Sigmoid’, ‘Softmax2d’]
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class
catalyst.dl.callbacks.metrics.iou.
IouCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'iou', eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ Bases:
catalyst.core.callbacks.metrics.MetricCallback
IoU (Jaccard) metric callback.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'iou', eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ - Parameters
input_key (str) – input key to use for iou calculation specifies our
y_true
.output_key (str) – output key to use for iou calculation; specifies our
y_pred
prefix (str) – key to store in logs
eps (float) – epsilon to avoid zero division
threshold (float) – threshold for outputs binarization
activation (str) – An torch.nn activation applied to the outputs. Must be one of [‘none’, ‘Sigmoid’, ‘Softmax2d’]
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-
catalyst.dl.callbacks.metrics.iou.
JaccardCallback
¶
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class
catalyst.dl.callbacks.metrics.iou.
ClasswiseIouCallback
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'iou', classes: List[str] = None, num_classes: int = None, eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ Bases:
catalyst.core.callbacks.metrics.MultiMetricCallback
Classwise IoU (Jaccard) metric callback.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', prefix: str = 'iou', classes: List[str] = None, num_classes: int = None, eps: float = 1e-07, threshold: float = None, activation: str = 'Sigmoid')[source]¶ - Parameters
input_key (str) – input key to use for iou calculation specifies our
y_true
.output_key (str) – output key to use for iou calculation; specifies our
y_pred
prefix (str) – key to store in logs (will be prefix_class_name)
classes (List[str]) – list of class names You should specify either ‘classes’ or ‘num_classes’
num_classes (int) – number of classes You should specify either ‘classes’ or ‘num_classes’
eps (float) – epsilon to avoid zero division
threshold (float) – threshold for outputs binarization
activation (str) – An torch.nn activation applied to the outputs. Must be one of [‘none’, ‘Sigmoid’, ‘Softmax2d’]
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catalyst.dl.callbacks.metrics.iou.
ClasswiseJaccardCallback
¶ alias of
catalyst.dl.callbacks.metrics.iou.ClasswiseIouCallback
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class
catalyst.dl.callbacks.metrics.ppv_tpr_f1.
PrecisionRecallF1ScoreCallback
(input_key: str = 'targets', output_key: str = 'logits', class_names: List[str] = None, num_classes: int = 2, threshold: float = 0.5, activation: str = 'Sigmoid')[source]¶ Bases:
catalyst.dl.core.callback.MeterMetricsCallback
Calculates the global precision (positive predictive value or ppv), recall (true positive rate or tpr), and F1-score per class for each loader. Currently, supports binary and multi-label cases.
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__init__
(input_key: str = 'targets', output_key: str = 'logits', class_names: List[str] = None, num_classes: int = 2, threshold: float = 0.5, activation: str = 'Sigmoid')[source]¶ - Parameters
input_key (str) – input key to use for metric calculation specifies our
y_true
.output_key (str) – output key to use for metric calculation; specifies our
y_pred
class_names (List[str]) – class names to display in the logs. If None, defaults to indices for each class, starting from 0.
num_classes (int) – Number of classes; must be > 1
threshold (float) – threshold for outputs binarization
activation (str) – An torch.nn activation applied to the outputs. Must be one of [‘none’, ‘Sigmoid’, ‘Softmax2d’]
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Experiment¶
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class
catalyst.dl.experiment.base.
BaseExperiment
(model: torch.nn.modules.module.Module, loaders: OrderedDict[str, DataLoader], callbacks: Union[OrderedDict[str, Callback], List[Callback]] = None, logdir: str = None, stage: str = 'train', criterion: torch.nn.modules.module.Module = None, optimizer: torch.optim.optimizer.Optimizer = None, scheduler: torch.optim.lr_scheduler._LRScheduler = None, num_epochs: int = 1, valid_loader: str = 'valid', main_metric: str = 'loss', minimize_metric: bool = True, verbose: bool = False, check_run: bool = False, state_kwargs: Dict = None, checkpoint_data: Dict = None, distributed_params: Dict = None, monitoring_params: Dict = None, initial_seed: int = 42)[source]¶ Bases:
catalyst.dl.core.experiment.Experiment
- Super-simple one-staged experiment
you can use to declare experiment in code
-
__init__
(model: torch.nn.modules.module.Module, loaders: OrderedDict[str, DataLoader], callbacks: Union[OrderedDict[str, Callback], List[Callback]] = None, logdir: str = None, stage: str = 'train', criterion: torch.nn.modules.module.Module = None, optimizer: torch.optim.optimizer.Optimizer = None, scheduler: torch.optim.lr_scheduler._LRScheduler = None, num_epochs: int = 1, valid_loader: str = 'valid', main_metric: str = 'loss', minimize_metric: bool = True, verbose: bool = False, check_run: bool = False, state_kwargs: Dict = None, checkpoint_data: Dict = None, distributed_params: Dict = None, monitoring_params: Dict = None, initial_seed: int = 42)[source]¶ - Parameters
model (Model) – model
loaders (dict) – dictionary containing one or several
torch.utils.data.DataLoader
for training and validationcallbacks (List[catalyst.dl.Callback]) – list of callbacks
logdir (str) – path to output directory
stage (str) – current stage
criterion (Criterion) – criterion function
optimizer (Optimizer) – optimizer
scheduler (Scheduler) – scheduler
num_epochs (int) – number of experiment’s epochs
valid_loader (str) – loader name used to calculate the metrics and save the checkpoints. For example, you can pass train and then the metrics will be taken from train loader.
main_metric (str) – the key to the name of the metric by which the checkpoints will be selected.
minimize_metric (bool) – flag to indicate whether the
main_metric
should be minimized.verbose (bool) – ff true, it displays the status of the training to the console.
state_kwargs (dict) – additional state params to
State
checkpoint_data (dict) – additional data to save in checkpoint, for example:
class_names
,date_of_training
, etcdistributed_params (dict) – dictionary with the parameters for distributed and FP16 method
monitoring_params (dict) – dict with the parameters for monitoring services
initial_seed (int) – experiment’s initial seed value
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property
distributed_params
¶ Dict with the parameters for distributed and FP16 method
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get_callbacks
(stage: str) → OrderedDict[str, Callback][source]¶ Returns the callbacks for a given stage
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get_criterion
(stage: str) → torch.nn.modules.module.Module[source]¶ Returns the criterion for a given stage
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get_loaders
(stage: str, epoch: int = None) → OrderedDict[str, DataLoader][source]¶ Returns the loaders for a given stage
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get_optimizer
(stage: str, model: torch.nn.modules.module.Module) → torch.optim.optimizer.Optimizer[source]¶ Returns the optimizer for a given stage
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get_scheduler
(stage: str, optimizer=None) → torch.optim.lr_scheduler._LRScheduler[source]¶ Returns the scheduler for a given stage
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get_state_params
(stage: str) → Mapping[str, Any][source]¶ Returns the state parameters for a given stage
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property
initial_seed
¶ Experiment’s initial seed value
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property
logdir
¶ Path to the directory where the experiment logs
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property
monitoring_params
¶ Dict with the parameters for monitoring services
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property
stages
¶ Experiment’s stage names (array with one value)
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class
catalyst.dl.experiment.config.
ConfigExperiment
(config: Dict)[source]¶ Bases:
catalyst.dl.core.experiment.Experiment
Experiment created from a configuration file
-
STAGE_KEYWORDS
= ['criterion_params', 'optimizer_params', 'scheduler_params', 'data_params', 'transform_params', 'state_params', 'callbacks_params']¶
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property
distributed_params
¶ Dict with the parameters for distributed and FP16 methond
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get_criterion
(stage: str) → torch.nn.modules.module.Module[source]¶ Returns the criterion for a given stage
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get_loaders
(stage: str, epoch: int = None) → OrderedDict[str, DataLoader][source]¶ Returns the loaders for a given stage
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get_optimizer
(stage: str, model: Union[torch.nn.modules.module.Module, Dict[str, torch.nn.modules.module.Module]]) → Union[torch.optim.optimizer.Optimizer, Dict[str, torch.optim.optimizer.Optimizer]][source]¶ Returns the optimizer for a given stage
- Parameters
stage (str) – stage name
model (Union[Model, Dict[str, Model]]) – model or a dict of models
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get_scheduler
(stage: str, optimizer: torch.optim.optimizer.Optimizer) → torch.optim.lr_scheduler._LRScheduler[source]¶ Returns the scheduler for a given stage
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get_state_params
(stage: str) → Mapping[str, Any][source]¶ Returns the state parameters for a given stage
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get_transforms
(stage: str = None, dataset: str = None) → Callable[source]¶ Returns transform for a given stage & mode
- Parameters
stage (str) – stage name
dataset (str) – dataset name (e.g. “train”, “valid”), will be used only if the value of _key_value` is
True
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property
initial_seed
¶ Experiment’s initial seed value
-
property
logdir
¶ Path to the directory where the experiment logs
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property
monitoring_params
¶ Dict with the parameters for monitoring services
-
property
stages
¶ Experiment’s stage names
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class
catalyst.dl.experiment.supervised.
SupervisedExperiment
(model: torch.nn.modules.module.Module, loaders: OrderedDict[str, DataLoader], callbacks: Union[OrderedDict[str, Callback], List[Callback]] = None, logdir: str = None, stage: str = 'train', criterion: torch.nn.modules.module.Module = None, optimizer: torch.optim.optimizer.Optimizer = None, scheduler: torch.optim.lr_scheduler._LRScheduler = None, num_epochs: int = 1, valid_loader: str = 'valid', main_metric: str = 'loss', minimize_metric: bool = True, verbose: bool = False, check_run: bool = False, state_kwargs: Dict = None, checkpoint_data: Dict = None, distributed_params: Dict = None, monitoring_params: Dict = None, initial_seed: int = 42)[source]¶ Bases:
catalyst.dl.experiment.base.BaseExperiment
Supervised experiment
The main difference with BaseExperiment that it will add several callbacks by default if you haven’t.
- Here are list of callbacks by default:
- CriterionCallback:
measures loss with specified
criterion
.- OptimizerCallback:
abstraction over
optimizer
step.- SchedulerCallback:
only in case if you provided scheduler to your experiment does lr_scheduler.step
- CheckpointCallback:
saves model and optimizer state each epoch callback to save/restore your model/criterion/optimizer/metrics.
- ConsoleLogger:
standard Catalyst logger, translates
state.*_metrics
to console and text file- TensorboardLogger:
will write
state.*_metrics
to tensorboard- RaiseExceptionCallback:
will raise exception if needed
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get_callbacks
(stage: str) → OrderedDict[str, Callback][source]¶ Override of
BaseExperiment.get_callbacks
method. Will add several of callbacks by default in case they missed.- Parameters
stage (str) – name of stage. It should start with infer if you don’t need default callbacks, as they required only for training stages.
- Returns
list of callbacks for experiment
- Return type
List[Callback]
Runner¶
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class
catalyst.dl.runner.supervised.
SupervisedRunner
(model: torch.nn.modules.module.Module = None, device: Union[str, torch.device] = None, input_key: Any = 'features', output_key: Any = 'logits', input_target_key: str = 'targets')[source]¶ Bases:
catalyst.dl.core.runner.Runner
Runner for experiments with supervised model
-
__init__
(model: torch.nn.modules.module.Module = None, device: Union[str, torch.device] = None, input_key: Any = 'features', output_key: Any = 'logits', input_target_key: str = 'targets')[source]¶ - Parameters
model (Module) – Torch model object
device (Device) – Torch device
input_key (Any) – Key in batch dict mapping for model input
output_key (Any) – Key in output dict model output will be stored under
input_target_key (str) – Key in batch dict mapping for target
-
forward
(batch, **kwargs)[source]¶ Should not be called directly outside of runner. If your model has specific interface, override this method to use it
-
infer
(model: torch.nn.modules.module.Module, loaders: OrderedDict[str, DataLoader], callbacks: Union[List[Callback], OrderedDict[str, Callback]] = None, verbose: bool = False, state_kwargs: Dict = None, fp16: Union[Dict, bool] = None, check: bool = False) → None[source]¶ Makes the inference on the model.
- Parameters
model (Model) – model to infer
loaders (dict) – dictionary containing one or several
torch.utils.data.DataLoader
for inferencecallbacks (List[catalyst.dl.Callback]) – list of inference callbacks
verbose (bool) – ff true, it displays the status of the inference to the console.
state_kwargs (dict) – additional state params to
State
fp16 (Union[Dict, bool]) – If not None, then sets inference to FP16. See https://nvidia.github.io/apex/amp.html#properties if fp16=True, params by default will be
{"opt_level": "O1"}
check (bool) – if True, then only checks that pipeline is working (3 epochs only)
-
predict_loader
(model: torch.nn.modules.module.Module, loader: torch.utils.data.dataloader.DataLoader, resume: str = None, verbose: bool = False, state_kwargs: Dict = None, fp16: Union[Dict, bool] = None, check: bool = False) → Any[source]¶ Makes a prediction on the whole loader with the specified model.
- Parameters
model (Model) – model to infer
loader (DataLoader) – dictionary containing only one
torch.utils.data.DataLoader
for inferenceresume (str) – path to checkpoint for model
verbose (bool) – ff true, it displays the status of the inference to the console.
state_kwargs (dict) – additional state params to
State
fp16 (Union[Dict, bool]) – If not None, then sets inference to FP16. See https://nvidia.github.io/apex/amp.html#properties if fp16=True, params by default will be
{"opt_level": "O1"}
check (bool) – if True, then only checks that pipeline is working (3 epochs only)
-
trace
(model: torch.nn.modules.module.Module = None, batch=None, logdir: str = None, loader: torch.utils.data.dataloader.DataLoader = None, method_name: str = 'forward', mode: str = 'eval', requires_grad: bool = False, fp16: Union[Dict, bool] = None, device: Union[str, torch.device] = 'cpu', predict_params: dict = None) → torch.jit.ScriptModule[source]¶ Traces model using Torch Jit
- Parameters
model (Model) – model to trace
batch – batch to forward through the model to trace
logdir (str, optional) – If specified, the result will be written to the directory
loader (DataLoader, optional) – if batch is not specified, the batch will be
next(iter(loader))
method_name (str) – model’s method name that will be traced
mode (str) –
train
oreval
requires_grad (bool) – flag to trace with gradients
fp16 (Union[Dict, bool]) – If not None, then sets tracing params to FP16
deivice (Device) – Torch deivice or a string
predict_params (dict) – additional parameters for model forward
-
train
(model: torch.nn.modules.module.Module, criterion: torch.nn.modules.module.Module, optimizer: torch.optim.optimizer.Optimizer, loaders: OrderedDict[str, DataLoader], logdir: str, callbacks: Union[List[Callback], OrderedDict[str, Callback]] = None, scheduler: torch.optim.lr_scheduler._LRScheduler = None, resume: str = None, num_epochs: int = 1, valid_loader: str = 'valid', main_metric: str = 'loss', minimize_metric: bool = True, verbose: bool = False, state_kwargs: Dict = None, checkpoint_data: Dict = None, fp16: Union[Dict, bool] = None, monitoring_params: Dict = None, check: bool = False) → None[source]¶ Starts the training process of the model.
- Parameters
model (Model) – model to train
criterion (Criterion) – criterion function for training
optimizer (Optimizer) – optimizer for training
loaders (dict) – dictionary containing one or several
torch.utils.data.DataLoader
for training and validationlogdir (str) – path to output directory
callbacks (List[catalyst.dl.Callback]) – list of callbacks
scheduler (Scheduler) – scheduler for training
resume (str) – path to checkpoint for model
num_epochs (int) – number of training epochs
valid_loader (str) – loader name used to calculate the metrics and save the checkpoints. For example, you can pass train and then the metrics will be taken from train loader.
main_metric (str) – the key to the name of the metric by which the checkpoints will be selected.
minimize_metric (bool) – flag to indicate whether the
main_metric
should be minimized.verbose (bool) – ff true, it displays the status of the training to the console.
state_kwargs (dict) – additional state params to
State
checkpoint_data (dict) – additional data to save in checkpoint, for example:
class_names
,date_of_training
, etcfp16 (Union[Dict, bool]) – If not None, then sets training to FP16. See https://nvidia.github.io/apex/amp.html#properties if fp16=True, params by default will be
{"opt_level": "O1"}
monitoring_params (dict) – If not None, then create monitoring through Alchemy or Weights&Biases. For example,
{"token": "api_token", "experiment": "experiment_name"}
check (bool) – if True, then only checks that pipeline is working (3 epochs only)
-
-
class
catalyst.dl.runner.gan.
MultiPhaseRunner
(model: Union[torch.nn.modules.module.Module, Dict[str, torch.nn.modules.module.Module]] = None, device: Union[str, torch.device] = None, input_batch_keys: List[str] = None, registered_phases: Tuple[Tuple[str, Union[str, Callable]], ...] = None)[source]¶ Bases:
catalyst.dl.core.runner.Runner
Base Runner with multiple phases
-
__init__
(model: Union[torch.nn.modules.module.Module, Dict[str, torch.nn.modules.module.Module]] = None, device: Union[str, torch.device] = None, input_batch_keys: List[str] = None, registered_phases: Tuple[Tuple[str, Union[str, Callable]], ...] = None)[source]¶ - Parameters
model – gan models
device – runner’s device
input_batch_keys – list of strings of keys for batch elements, e.g.
input_batch_keys = ["features", "targets"]
and your DataLoader returns 2 tensors (images and targets) when state.input will be{"features": batch[0], "targets": batch[1]}
registered_phases – Tuple of pairs (phase_name, phase_forward_function) phase_forward_function’s may be also str, in that case Runner should have method with same name, which will be called
-
-
class
catalyst.dl.runner.gan.
GanRunner
(model: Union[torch.nn.modules.module.Module, Dict[str, torch.nn.modules.module.Module]] = None, device: Union[str, torch.device] = None, input_batch_keys: Optional[List[str]] = None, data_input_key: str = 'data', class_input_key: str = 'class_targets', noise_input_key: str = 'noise', fake_logits_output_key: str = 'fake_logits', real_logits_output_key: str = 'real_logits', fake_data_output_key: str = 'fake_data', fake_condition_keys: List[str] = None, real_condition_keys: List[str] = None, generator_train_phase: str = 'generator_train', discriminator_train_phase: str = 'discriminator_train', generator_model_key: str = 'generator', discriminator_model_key: str = 'discriminator')[source]¶ Bases:
catalyst.dl.runner.gan.MultiPhaseRunner
Runner with logic for single-generator single-discriminator GAN training
Various conditioning types, penalties and regularization (such as WGAN-GP) can be easily derived from this class
-
__init__
(model: Union[torch.nn.modules.module.Module, Dict[str, torch.nn.modules.module.Module]] = None, device: Union[str, torch.device] = None, input_batch_keys: Optional[List[str]] = None, data_input_key: str = 'data', class_input_key: str = 'class_targets', noise_input_key: str = 'noise', fake_logits_output_key: str = 'fake_logits', real_logits_output_key: str = 'real_logits', fake_data_output_key: str = 'fake_data', fake_condition_keys: List[str] = None, real_condition_keys: List[str] = None, generator_train_phase: str = 'generator_train', discriminator_train_phase: str = 'discriminator_train', generator_model_key: str = 'generator', discriminator_model_key: str = 'discriminator')[source]¶ - Parameters
model – Model
device – Device
input_batch_keys – list of strings of keys for batch elements, e.g.
input_batch_keys = ["features", "targets"]
and your DataLoader returns 2 tensors (images and targets) when state.input will be{"features": batch[0], "targets": batch[1]}
data_input_key – real distribution to fit
class_input_key – labels for real distribution
noise_input_key – noise
fake_logits_output_key – prediction scores of discriminator for fake data
real_logits_output_key – prediction scores of discriminator for real data
fake_data_output_key – generated data
fake_condition_keys – list of all conditional inputs of discriminator (fake data conditions) (appear in same order as in generator model forward() call)
real_condition_keys – list of all conditional inputs of discriminator (real data conditions) (appear in same order as in generator model forward() call)
generator_train_phase (str) – name for generator training phase
discriminator_train_phase (str) – name for discriminator training phase
generator_model_key – name for generator model, e.g. “generator”
discriminator_model_key – name for discriminator model, e.g. “discriminator”
Note
THIS RUNNER SUPPORTS ONLY EQUALLY CONDITIONED generator and discriminator (i.e. if generator is conditioned on 3 variables, discriminator must be conditioned on same 3 variables)
-
train
(model: torch.nn.modules.module.Module, loaders: OrderedDict[str, DataLoader], callbacks: OrderedDict[str, Callback] = None, phase2callbacks: Dict[str, List[str]] = None, criterion: torch.nn.modules.module.Module = None, optimizer: torch.optim.optimizer.Optimizer = None, num_epochs: int = 1, main_metric: str = 'loss', minimize_metric: bool = True, state_kwargs: Dict = None, checkpoint_data: Dict = None, distributed_params: Dict = None, monitoring_params: Dict = None, logdir: str = None, verbose: bool = False, initial_seed: int = 42, check: bool = False) → None[source]¶ - Parameters
model – models, usually generator and discriminator
loaders – dictionary containing one or several
torch.utils.data.DataLoader
for training and validationcallbacks – list of callbacks
phase2callbacks – dictionary with lists of callback names which should be wrapped for appropriate phase for example: {“generator_train”: “loss_g”, “optim_g”} “loss_g” and “optim_g” callbacks from callbacks dict will be wrapped for “generator_train” phase in wrap_callbacks method
criterion – criterion function
optimizer – optimize
num_epochs – number of experiment’s epochs the metrics and save the checkpoints.
main_metric – the key to the name of the metric by which the checkpoints will be selected.
minimize_metric – flag to indicate whether the
main_metric
should be minimized.state_kwargs – additional state params to
RunnerState
checkpoint_data – additional data to save in checkpoint, for example:
class_names
,date_of_training
, etcdistributed_params – dictionary with the parameters for distributed and FP16 method
monitoring_params – dict with the parameters for monitoring services
logdir – path to output directory
verbose – if true, it displays the status of the training to the console.
initial_seed – experiment’s initial seed value
check – if True, then only checks that pipeline is working
epochs only) ((3) –
-
Utils¶
-
catalyst.dl.utils.torch.
get_loader
(data_source: Iterable[dict], open_fn: Callable, dict_transform: Callable = None, sampler=None, collate_fn: Callable = <function default_collate>, batch_size: int = 32, num_workers: int = 4, shuffle: bool = False, drop_last: bool = False)[source]¶ Creates a DataLoader from given source and its open/transform params
- Parameters
data_source (Iterable[dict]) – and iterable containing your data annotations, (for example path to images, labels, bboxes, etc)
open_fn (Callable) – function, that can open your annotations dict and transfer it to data, needed by your network (for example open image by path, or tokenize read string)
dict_transform (callable) – transforms to use on dict (for example normalize image, add blur, crop/resize/etc)
sampler (Sampler, optional) – defines the strategy to draw samples from the dataset
collate_fn (callable, optional) – merges a list of samples to form a mini-batch of Tensor(s). Used when using batched loading from a map-style dataset
batch_size (int, optional) – how many samples per batch to load
num_workers (int, optional) – how many subprocesses to use for data loading.
0
means that the data will be loaded in the main processshuffle (bool, optional) – set to
True
to have the data reshuffled at every epoch (default:False
).drop_last (bool, optional) – set to
True
to drop the last incomplete batch, if the dataset size is not divisible by the batch size. IfFalse
and the size of dataset is not divisible by the batch size, then the last batch will be smaller. (default:False
)
- Returns
DataLoader with
catalyst.data.ListDataset
-
catalyst.dl.utils.trace.
trace_model
(model: torch.nn.modules.module.Module, runner: catalyst.dl.core.runner.Runner, batch=None, method_name: str = 'forward', mode: str = 'eval', requires_grad: bool = False, opt_level: str = None, device: Union[str, torch.device] = 'cpu', predict_params: dict = None) → torch.jit.ScriptModule[source]¶ Traces model using runner and batch
- Parameters
model – Model to trace
runner – Model’s native runner that was used to train model
batch – Batch to trace the model
method_name (str) – Model’s method name that will be used as entrypoint during tracing
mode (str) – Mode for model to trace (
train
oreval
)requires_grad (bool) – Flag to use grads
opt_level (str) – Apex FP16 init level, optional
device (str) – Torch device
predict_params (dict) – additional parameters for model forward
- Returns
Traced model
- Return type
(ScriptModule)
-
catalyst.dl.utils.trace.
get_trace_name
(method_name: str, mode: str = 'eval', requires_grad: bool = False, opt_level: str = None, additional_string: str = None)[source]¶ Creates a file name for the traced model.
- Parameters
method_name (str) – model’s method name
mode (str) –
train
oreval
requires_grad (bool) – flag if model was traced with gradients
opt_level (str) – opt_level if model was traced in FP16
additional_string (str) – any additional information
-
catalyst.dl.utils.trace.
load_traced_model
(model_path: Union[str, pathlib.Path], device: Union[str, torch.device] = 'cpu', opt_level: str = None) → torch.jit.ScriptModule[source]¶ Loads a traced model
- Parameters
model_path – Path to traced model
device (str) – Torch device
opt_level (str) – Apex FP16 init level, optional
- Returns
Traced model
- Return type
(ScriptModule)
-
catalyst.dl.utils.visualization.
plot_confusion_matrix
(cm, class_names=None, normalize=False, title='confusion matrix', fname=None, show=True, figsize=12, fontsize=32, colormap='Blues')¶ Render the confusion matrix and return matplotlib”s figure with it. Normalization can be applied by setting normalize=True.
-
catalyst.dl.utils.visualization.
render_figure_to_tensor
(figure)¶
-
catalyst.dl.utils.visualization.
plot_metrics
(logdir: Union[str, pathlib.Path], step: Optional[str] = 'epoch', metrics: Optional[List[str]] = None, height: Optional[int] = None, width: Optional[int] = None) → None¶ Plots your learning results.
- Parameters
logdir – the logdir that was specified during training.
step – ‘batch’ or ‘epoch’ - what logs to show: for batches or for epochs
metrics – list of metrics to plot. The loss should be specified as ‘loss’, learning rate = ‘_base/lr’ and other metrics should be specified as names in metrics dict that was specified during training
height – the height of the whole resulting plot
width – the width of the whole resulting plot
-
class
catalyst.dl.utils.wizard.
Wizard
[source]¶ Bases:
object
Class for Catalyst Config API Wizard.
The instance of this class will be created and called from cli command:
catalyst-dl init --interactive
.With help of this Wizard user will be able to setup pipeline from available templates and make choices of what predefined classes to use in different parts of pipeline.
Registry¶
-
catalyst.dl.registry.
Callback
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)
-
catalyst.dl.registry.
Criterion
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)
-
catalyst.dl.registry.
Optimizer
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)
-
catalyst.dl.registry.
Scheduler
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)
-
catalyst.dl.registry.
Module
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)
-
catalyst.dl.registry.
Model
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)
-
catalyst.dl.registry.
Sampler
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)
-
catalyst.dl.registry.
Transform
(factory: Union[Type, Callable[[...], Any]] = None, *factories: Union[Type, Callable[[...], Any]], name: str = None, **named_factories: Union[Type, Callable[[...], Any]]) → Union[Type, Callable[[...], Any]]¶ Adds factory to registry with it’s
__name__
attribute or provided name. Signature is flexible.- Parameters
factory – Factory instance
factories – More instances
name – Provided name for first instance. Use only when pass single instance.
named_factories – Factory and their names as kwargs
- Returns
First factory passed
- Return type
(Factory)