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/ distributed / optim / functional_adam.py
from typing import Dict, List, Optional, Tuple
import torch
import torch.optim._functional as F
from torch import Tensor
__all__: List[str] = []
# Define a TorchScript compatible Functional Adam Optimizer
# where we use these optimizer in a functional way.
# Instead of using the `param.grad` when updating parameters,
# we explicitly allow the distributed optimizer pass gradients to
# the `step` function. In this way, we could separate the gradients
# and parameters and allow multithreaded trainer to update the
# parameters without data traces on accumulating to the same .grad.
# NOTE: This should be only used by distributed optimizer internals
# and not meant to expose to the user.
@torch.jit.script
class _FunctionalAdam:
def __init__(
self,
params: List[Tensor],
lr: float = 1e-3,
betas: Tuple[float, float] = (0.9, 0.999),
eps: float = 1e-8,
weight_decay: float = 0.0,
amsgrad: bool = False,
maximize: bool = False,
foreach: bool = False,
fused: bool = False,
_allow_empty_param_list: bool = False,
):
if not 0.0 <= lr:
raise ValueError("Invalid learning rate: {}".format(lr))
if not 0.0 <= eps:
raise ValueError("Invalid epsilon value: {}".format(eps))
if not 0.0 <= betas[0] < 1.0:
raise ValueError("Invalid beta parameter at index 0: {}".format(betas[0]))
if not 0.0 <= betas[1] < 1.0:
raise ValueError("Invalid beta parameter at index 1: {}".format(betas[1]))
if not 0.0 <= weight_decay:
raise ValueError("Invalid weight_decay value: {}".format(weight_decay))
self.defaults = {
"lr": lr,
"eps": eps,
"beta1": betas[0],
"beta2": betas[1],
"weight_decay": weight_decay,
}
self.amsgrad = amsgrad
self.maximize = maximize
self.foreach = foreach
self.fused = fused
self.state = torch.jit.annotate(Dict[torch.Tensor, Dict[str, torch.Tensor]], {})
if len(params) == 0 and not _allow_empty_param_list:
raise ValueError("optimizer got an empty parameter list")
# NOTE: we only have one param_group and don't allow user to add additional
# param group as it's not a common use case.
self.param_group = {"params": params}
def step_param(self, param: Tensor, grad: Optional[Tensor]):
"""
Similar to step, but operates on a single parameter and optionally a
gradient tensor.
"""
params_with_grad = []
grads = []
exp_avgs = []
exp_avg_sqs = []
max_exp_avg_sqs = []
state_steps: List[Tensor] = []
if grad is not None:
params_with_grad.append(param)
grads.append(grad)
if param not in self.state:
self.state[param] = {}
state = self.state[param]
state["step"] = torch.tensor(0.0)
state["exp_avg"] = torch.zeros_like(
param, memory_format=torch.preserve_format
)
state["exp_avg_sq"] = torch.zeros_like(
param, memory_format=torch.preserve_format
)
if self.amsgrad:
state["max_exp_avg_sq"] = torch.zeros_like(
param, memory_format=torch.preserve_format
)
state = self.state[param]
exp_avgs.append(state["exp_avg"])
exp_avg_sqs.append(state["exp_avg_sq"])
if self.amsgrad:
max_exp_avg_sqs.append(state["max_exp_avg_sq"])
state_steps.append(state["step"])
with torch.no_grad():
F.adam(
params_with_grad,
grads,
exp_avgs,
exp_avg_sqs,
max_exp_avg_sqs,
state_steps,
amsgrad=self.amsgrad,
maximize=self.maximize,
beta1=self.defaults["beta1"],
beta2=self.defaults["beta2"],
lr=self.defaults["lr"],
weight_decay=self.defaults["weight_decay"],
eps=self.defaults["eps"],
foreach=self.foreach,
fused=self.fused,
grad_scale=None,
found_inf=None,
)
def step(self, gradients: List[Optional[Tensor]]):
params = self.param_group["params"]
params_with_grad = []
grads = []
exp_avgs = []
exp_avg_sqs = []
max_exp_avg_sqs = []
state_steps: List[Tensor] = []
if len(params) != len(gradients):
raise ValueError(
"the gradients passed in does not equal to the size of the parameters!"
+ f"Params length: {len(params)}. "
+ f"Gradients length: {len(gradients)}"
)
for param, gradient in zip(self.param_group["params"], gradients):
if gradient is not None:
params_with_grad.append(param)
grads.append(gradient)
# Lazy state initialization
if param not in self.state:
self.state[param] = {}
state = self.state[param]
state["step"] = torch.tensor(0.0)
# Exponential moving average of gradient values
state["exp_avg"] = torch.zeros_like(
param, memory_format=torch.preserve_format
)
# Exponential moving average of squared gradient values
state["exp_avg_sq"] = torch.zeros_like(
param, memory_format=torch.preserve_format
)
if self.amsgrad:
# Maintains max of all exp. moving avg. of sq. grad. values
state["max_exp_avg_sq"] = torch.zeros_like(
param, memory_format=torch.preserve_format
)
state = self.state[param]
exp_avgs.append(state["exp_avg"])
exp_avg_sqs.append(state["exp_avg_sq"])
if self.amsgrad:
max_exp_avg_sqs.append(state["max_exp_avg_sq"])
state_steps.append(state["step"])
with torch.no_grad():
F.adam(
params_with_grad,
grads,
exp_avgs,
exp_avg_sqs,
max_exp_avg_sqs,
state_steps,
amsgrad=self.amsgrad,
maximize=self.maximize,
beta1=self.defaults["beta1"],
beta2=self.defaults["beta2"],
lr=self.defaults["lr"],
weight_decay=self.defaults["weight_decay"],
eps=self.defaults["eps"],
foreach=self.foreach,
fused=self.fused,
grad_scale=None,
found_inf=None,
)