fts¶
Classes
This callback enables flexible, multi-phase, scheduled fine-tuning of foundational models. |
Fine-Tuning Scheduler¶
Used to implement flexible fine-tuning training schedules
- class finetuning_scheduler.fts.FinetuningScheduler(ft_schedule=None, max_depth=- 1, base_max_lr=1e-05, restore_best=True, gen_ft_sched_only=False, epoch_transitions_only=False, reinit_lr_cfg=None, allow_untested=False, apply_lambdas_new_pgs=False)[source]¶
Bases:
pytorch_lightning.callbacks.finetuning.BaseFinetuning
,finetuning_scheduler.fts_supporters.ScheduleImplMixin
,finetuning_scheduler.fts_supporters.ScheduleParsingMixin
,finetuning_scheduler.fts_supporters.CallbackDepMixin
This callback enables flexible, multi-phase, scheduled fine-tuning of foundational models. Gradual unfreezing/thawing can help maximize foundational model knowledge retention while allowing (typically upper layers of) the model to optimally adapt to new tasks during transfer learning.
FinetuningScheduler
orchestrates the gradual unfreezing of models via a fine-tuning schedule that is either implicitly generated (the default) or explicitly provided by the user (more computationally efficient).Fine-tuning phase transitions are driven by
FTSEarlyStopping
criteria (a multi-phase extension ofEarlyStopping
), user-specified epoch transitions or a composition of the two (the default mode). AFinetuningScheduler
training session completes when the final phase of the schedule has its stopping criteria met. See Early Stopping for more details on that callback’s configuration.Schedule definition is facilitated via
gen_ft_schedule()
which dumps a default fine-tuning schedule (by default using a naive, 2-parameters per level heuristic) which can be adjusted as desired by the user and subsuquently passed to the callback. Implicit fine-tuning mode generates the default schedule and proceeds to fine-tune according to the generated schedule. Implicit fine-tuning will often be less computationally efficient than explicit fine-tuning but can often serve as a good baseline for subsquent explicit schedule refinement and can marginally outperform many explicit schedules.Example:
from pytorch_lightning import Trainer from pytorch_lightning.callbacks import FinetuningScheduler trainer = Trainer(callbacks=[FinetuningScheduler()])
Define and configure a scheduled fine-tuning training session.
- Parameters
ft_schedule¶ (
Union
[str
,dict
,None
]) – The fine-tuning schedule to be executed. Usually will be a .yaml file path but can also be a properly structured Dict. See Specifying a Fine-Tuning Schedule for the basic schedule format. See LR Scheduler Reinitialization for more complex schedule configurations (including per-phase LR scheduler reinitialization). If a schedule is not provided, will generate and execute a default fine-tuning schedule using the providedLightningModule
. See the default schedule. Defaults toNone
.max_depth¶ (
int
) – Maximum schedule depth to which the defined fine-tuning schedule should be executed. Specifying -1 or an integer > (number of defined schedule layers) will result in the entire fine-tuning schedule being executed. Defaults to -1.base_max_lr¶ (
float
) – The default maximum learning rate to use for the parameter groups associated with each scheduled fine-tuning depth if not explicitly specified in the fine-tuning schedule. If overridden toNone
, will be set to thelr
of the first scheduled fine-tuning depth scaled by 1e-1. Defaults to 1e-5.restore_best¶ (
bool
) – IfTrue
, restore the best available (defined by theFTSCheckpoint
) checkpoint before fine-tuning depth transitions. Defaults toTrue
.gen_ft_sched_only¶ (
bool
) – IfTrue
, generate the default fine-tuning schedule toTrainer.log_dir
(it will be named after yourLightningModule
subclass with the suffix_ft_schedule.yaml
) and exit without training. Typically used to generate a default schedule that will be adjusted by the user before training. Defaults toFalse
.epoch_transitions_only¶ (
bool
) – IfTrue
, use epoch-driven stopping criteria exclusively (rather than composingFTSEarlyStopping
and epoch-driven criteria which is the default). If using this mode, an epoch-driven transition (max_transition_epoch
>= 0) must be specified for each phase. If unspecified,max_transition_epoch
defaults to -1 for each phase which signals the application ofFTSEarlyStopping
criteria only. epoch_transitions_only defaults toFalse
.reinit_lr_cfg¶ (
Optional
[Dict
]) –A lr scheduler reinitialization configuration dictionary consisting of at minimum a nested
lr_scheduler_init
dictionary with aclass_path
key specifying the class of the_LRScheduler
to be instantiated. Optionally, aninit_args
dictionary of arguments to initialize the lr scheduler with may be included. Additionally, one may optionally include arguments to pass to PyTorch Lightning’s lr scheduler configurationLRSchedulerConfig
in thepl_lrs_cfg
dictionary. By way of example, one could configure this dictionary via theLightningCLI
with the following:reinit_lr_cfg: lr_scheduler_init: class_path: torch.optim.lr_scheduler.StepLR init_args: step_size: 1 gamma: 0.7 pl_lrs_cfg: interval: epoch frequency: 1 name: Implicit_Reinit_LR_Scheduler
If
True
, allows the use of custom or unsupported training strategies (e.g.single_tpu
,MyCustomStrategy
). Defaults toFalse
.Note
Custom or officially unsupported strategies can be used by setting
allow_untested
toTrue
.Some officially unsupported strategies may work unaltered and are only unsupported due to the
Fine-Tuning Scheduler
project’s lack of CI/testing resources for that strategy (e.g.single_tpu
).Most unsupported strategies, however, are currently unsupported because they require varying degrees of modification to be compatible (e.g.
deepspeed
requires anadd_param_group
method,tpu_spawn
an override of the current broadcast method to include python objects).apply_lambdas_new_pgs¶ (
bool
) – IfTrue
, applies most recent lambda inlr_lambdas
list to newly added optimizer groups for lr schedulers that have alr_lambdas
attribute. Note this option only applies to phases without reinitialized lr schedulers. Phases with defined lr scheduler reinitialization configs will always apply the specified lambdas. Defaults toFalse
.
- _fts_state¶
The internal
FinetuningScheduler
state.
- freeze_before_training(pl_module)[source]¶
Freezes all model parameters so that parameter subsets can be subsequently thawed according to the fine- tuning schedule.
- Parameters
pl_module¶ (
LightningModule
) – The targetLightningModule
to freeze parameters of- Return type
- load_state_dict(state_dict)[source]¶
After loading a checkpoint, load the saved
FinetuningScheduler
callback state and update the current callback state accordingly.
- on_before_zero_grad(trainer, pl_module, optimizer)[source]¶
Afer the latest optimizer step, update the
_fts_state
, incrementing the global fine-tuning steps taken- Parameters
pl_module¶ (
LightningModule
) – TheLightningModule
objectoptimizer¶ (
Optimizer
) – TheOptimizer
to which parameter groups will be configured and added.
- Return type
- on_fit_start(trainer, pl_module)[source]¶
Before beginning training, ensure an optimizer configuration supported by
FinetuningScheduler
is present.- Parameters
pl_module¶ (
LightningModule
) – TheLightningModule
object
- Raises
MisconfigurationException – If more than 1 optimizers are configured indicates a configuration error
- Return type
- on_train_end(trainer, pl_module)[source]¶
Synchronize internal
_fts_state
on end of training to ensure final training state is consistent with epoch semantics.- Parameters
pl_module¶ (
LightningModule
) – _description_
- Return type
- on_train_epoch_start(trainer, pl_module)[source]¶
Before beginning a training epoch, configure the internal
_fts_state
, prepare the next scheduled fine-tuning level and store the updated optimizer configuration before continuing training- Parameters
pl_module¶ (
LightningModule
) – TheLightningModule
object
- Return type
- restore_best_ckpt()[source]¶
Restore the current best model checkpoint, according to
best_model_path
- Return type
- setup(trainer, pl_module, stage=None)[source]¶
Validate a compatible
Strategy
strategy is being used and ensure allFinetuningScheduler
callback dependencies are met. If a valid configuration is present, then either dump the default fine-tuning schedule OR 1. configure theFTSEarlyStopping
callback (if relevant) 2. initialize the_fts_state
3. freeze the targetLightningModule
parameters Finally, initialize theFinetuningScheduler
training session in the training environment.- Parameters
pl_module¶ (
LightningModule
) – TheLightningModule
objectstage¶ (
Optional
[str
]) – TheRunningStage.{SANITY_CHECKING,TRAINING,VALIDATING}
. Defaults to None.
- Raises
SystemExit – Gracefully exit before training if only generating and not executing a fine-tuning schedule.
MisconfigurationException – If the
Strategy
strategy being used is not currently compatible with theFinetuningScheduler
callback.
- Return type
- should_transition(trainer)[source]¶
Phase transition logic is contingent on whether we are composing
FTSEarlyStopping
criteria with epoch-driven transition constraints or exclusively using epoch-driven transition scheduling. (i.e.,epoch_transitions_only
isTrue
)
- state_dict()[source]¶
Before saving a checkpoint, add the
FinetuningScheduler
callback state to be saved.- Returns
- The
FinetuningScheduler
callback state dictionary that will be added to the checkpoint
- The
- Return type
Dict[str, Any]
- step()[source]¶
Prepare and execute the next scheduled fine-tuning level 1. Restore the current best model checkpoint if appropriate 2. Thaw model parameters according the the defined schedule 3. Synchronize the states of
FitLoop
and_fts_state
Note
The
FinetuningScheduler
callback initially only supports single-schedule/optimizer fine-tuning configurations- Return type
- step_pg(optimizer, depth, depth_sync=True)[source]¶
Configure optimizer parameter groups for the next scheduled fine-tuning level, adding parameter groups beyond the restored optimizer state up to
current_depth
- Parameters
optimizer¶ (
Optimizer
) – TheOptimizer
to which parameter groups will be configured and added.depth¶ (
int
) – The maximum index of the fine-tuning schedule for which to configure the optimizer parameter groups.depth_sync¶ (
bool
) – IfTrue
, configure optimizer parameter groups for all depth indices greater than the restored checkpoint. IfFalse
, configure groups only for the specified depth. Defaults toTrue
.
- Return type