Source code for ignite.handlers.ema_handler
import warnings
from copy import deepcopy
from typing import Optional, Union
import torch.nn as nn
from ignite.engine import CallableEventWithFilter, Engine, Events, EventsList
from ignite.handlers.param_scheduler import BaseParamScheduler
from ignite.handlers.state_param_scheduler import LambdaStateScheduler
__all__ = ["EMAHandler"]
class EMAWarmUp:
def __init__(self, momentum_warmup: float, warmup_iters: int, momentum: float) -> None:
self.momentum_warmup = momentum_warmup
self.warmup_iters = warmup_iters
self.momentum = momentum
def __call__(self, event_index: int) -> float:
denominator = max(1, self.warmup_iters - 1)
curr_momentum = self.momentum_warmup + (self.momentum - self.momentum_warmup) * (event_index - 1) / denominator
if self.momentum >= self.momentum_warmup:
return min(self.momentum, curr_momentum)
else:
return max(self.momentum, curr_momentum)
[docs]class EMAHandler:
r"""Exponential moving average (EMA) handler can be used to compute a smoothed version of model.
The EMA model is updated as follows:
.. math:: \theta_{\text{EMA}, t+1} = (1 - \lambda) \cdot \theta_{\text{EMA}, t} + \lambda \cdot \theta_{t}
where :math:`\theta_{\text{EMA}, t}` and :math:`\theta_{t}` are the EMA weights and online model weights at
:math:`t`-th iteration, respectively; :math:`\lambda` is the update momentum. Current momentum can be retrieved
from ``Engine.state.ema_momentum``.
Args:
model: the online model for which an EMA model will be computed. If ``model`` is ``DataParallel`` or
``DistributedDataParallel``, the EMA smoothing will be applied to ``model.module`` .
momentum: the update momentum after warmup phase, should be float in range :math:`\left(0, 1 \right)`.
momentum_warmup: the initial update momentum during warmup phase.
warmup_iters: iterations of warmup.
Attributes:
ema_model: the exponential moving averaged model.
model: the online model that is tracked by EMAHandler. It is ``model.module`` if ``model`` in
the initialization method is an instance of ``DistributedDataParallel``.
momentum: the update momentum.
Note:
The EMA model is already in ``eval`` mode. If model in the arguments is an ``nn.Module`` or
``DistributedDataParallel``, the EMA model is an ``nn.Module`` and it is on the same device as the online
model. If the model is an ``nn.DataParallel``, then the EMA model is an ``nn.DataParallel``.
Note:
It is recommended to initialize and use an EMA handler in following steps:
1. Initialize ``model`` (``nn.Module`` or ``DistributedDataParallel``) and ``ema_handler`` (``EMAHandler``).
2. Build ``trainer`` (``ignite.engine.Engine``).
3. Resume from checkpoint for ``model`` and ``ema_handler.ema_model``.
4. Attach ``ema_handler`` to ``trainer``.
Examples:
.. code-block:: python
device = torch.device("cuda:0")
model = nn.Linear(2, 1).to(device)
# update the ema every 5 iterations
ema_handler = EMAHandler(model, momentum=0.0002)
# get the ema model, which is an instance of nn.Module
ema_model = ema_handler.ema_model
trainer = Engine(train_step_fn)
to_load = {"model": model, "ema_model", ema_model, "trainer", trainer}
if resume_from is not None:
Checkpoint.load_objects(to_load, checkpoint=resume_from)
# update the EMA model every 5 iterations
ema_handler.attach(trainer, name="ema_momentum", event=Events.ITERATION_COMPLETED(every=5))
# add other handlers
to_save = to_load
ckpt_handler = Checkpoint(to_save, DiskSaver(...), ...)
trainer.add_event_handler(Events.EPOCH_COMPLETED, ckpt_handler)
# current momentum can be retrieved from engine.state,
# the attribute name is the `name` parameter used in the attach function
@trainer.on(Events.ITERATION_COMPLETED):
def print_ema_momentum(engine):
print(f"current momentum: {engine.state.ema_momentum}"
# use ema model for validation
val_step_fn = get_val_step_fn(ema_model)
evaluator = Engine(val_step_fn)
@trainer.on(Events.EPOCH_COMPLETED)
def run_validation(engine):
engine.run(val_data_loader)
trainer.run(...)
The following example shows how to perform warm-up to the EMA momentum:
.. code-block:: python
device = torch.device("cuda:0")
model = nn.Linear(2, 1).to(device)
# linearly change the EMA momentum from 0.2 to 0.002 in the first 100 iterations,
# then keep a constant EMA momentum of 0.002 afterwards
ema_handler = EMAHandler(model, momentum=0.002, momentum_warmup=0.2, warmup_iters=100)
engine = Engine(step_fn)
ema_handler.attach(engine, name="ema_momentum")
engine.run(...)
The following example shows how to attach two handlers to the same trainer:
.. code-block:: python
generator = build_generator(...)
discriminator = build_discriminator(...)
gen_handler = EMAHandler(generator)
disc_handler = EMAHandler(discriminator)
step_fn = get_step_fn(...)
engine = Engine(step_fn)
# update EMA model of generator every 1 iteration
gen_handler.attach(engine, "gen_ema_momentum", event=Events.ITERATION_COMPLETED)
# update EMA model of discriminator every 2 iteration
disc_handler.attach(engine, "dis_ema_momentum", event=Events.ITERATION_COMPLETED(every=2))
@engine.on(Events.ITERATION_COMPLETED)
def print_ema_momentum(engine):
print(f"current momentum for generator: {engine.state.gen_ema_momentum}")
print(f"current momentum for discriminator: {engine.state.disc_ema_momentum}")
engine.run(...)
.. versionadded:: 0.4.6
"""
def __init__(
self,
model: nn.Module,
momentum: float = 0.0002,
momentum_warmup: Optional[float] = None,
warmup_iters: Optional[int] = None,
) -> None:
if not 0 < momentum < 1:
raise ValueError(f"Invalid momentum: {momentum}")
self.momentum = momentum
self._momentum_lambda_obj: Optional[EMAWarmUp] = None
if momentum_warmup is not None and warmup_iters is not None:
self.momentum_scheduler: Optional[BaseParamScheduler] = None
self._momentum_lambda_obj = EMAWarmUp(momentum_warmup, warmup_iters, momentum)
if not isinstance(model, nn.Module):
raise ValueError(
f"model should be an instance of nn.Module or its subclasses, but got"
f"model: {model.__class__.__name__}"
)
if isinstance(model, nn.parallel.DistributedDataParallel):
model = model.module
self.model = model
self.ema_model = deepcopy(self.model)
for param in self.ema_model.parameters():
param.detach_()
self.ema_model.eval()
def _update_ema_model(self, engine: Engine, name: str) -> None:
"""Update weights of ema model"""
momentum = getattr(engine.state, name)
for ema_p, model_p in zip(self.ema_model.parameters(), self.model.parameters()):
ema_p.mul_(1.0 - momentum).add_(model_p.data, alpha=momentum)
# assign the buffers
for ema_b, model_b in zip(self.ema_model.buffers(), self.model.buffers()):
ema_b.data = model_b.data
[docs] def attach(
self,
engine: Engine,
name: str = "ema_momentum",
warn_if_exists: bool = True,
event: Union[str, Events, CallableEventWithFilter, EventsList] = Events.ITERATION_COMPLETED,
) -> None:
"""Attach the handler to engine. After the handler is attached, the ``Engine.state`` will add an new attribute
with name ``name`` if the attribute does not exist. Then, the current momentum can be retrieved from
``Engine.state`` when the engine runs.
Note:
There are two cases where a momentum with name ``name`` already exists: 1. the engine has loaded its
state dict after resuming. In this case, there is no need to initialize the momentum again, and users
can set ``warn_if_exists`` to False to suppress the warning message; 2. another handler has created
a state attribute with the same name. In this case, users should choose another name for the ema momentum.
Args:
engine: trainer to which the handler will be attached.
name: attribute name for retrieving EMA momentum from ``Engine.state``. It should be a unique name since a
trainer can have multiple EMA handlers.
warn_if_exists: if True, a warning will be thrown if the momentum with name ``name`` already exists.
event: event when the EMA momentum and EMA model are updated.
"""
if hasattr(engine.state, name):
if warn_if_exists:
warnings.warn(
f"Attribute '{name}' already exists in Engine.state. It might because 1. the engine has loaded its "
f"state dict or 2. {name} is already created by other handlers. Turn off this warning by setting"
f"warn_if_exists to False.",
category=UserWarning,
)
else:
setattr(engine.state, name, self.momentum)
if self._momentum_lambda_obj is not None:
self.momentum_scheduler = LambdaStateScheduler(self._momentum_lambda_obj, param_name="ema_momentum")
# first update the momentum and then update the EMA model
self.momentum_scheduler.attach(engine, event)
engine.add_event_handler(event, self._update_ema_model, name)