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# Modified from OpenAI's diffusion repos | |
# GLIDE: https://github.com/openai/glide-text2im/blob/main/glide_text2im/gaussian_diffusion.py | |
# ADM: https://github.com/openai/guided-diffusion/blob/main/guided_diffusion | |
# IDDPM: https://github.com/openai/improved-diffusion/blob/main/improved_diffusion/gaussian_diffusion.py | |
from abc import ABC, abstractmethod | |
import numpy as np | |
import torch as th | |
import torch.distributed as dist | |
def create_named_schedule_sampler(name, diffusion): | |
""" | |
Create a ScheduleSampler from a library of pre-defined samplers. | |
:param name: the name of the sampler. | |
:param diffusion: the diffusion object to sample for. | |
""" | |
if name == "uniform": | |
return UniformSampler(diffusion) | |
elif name == "loss-second-moment": | |
return LossSecondMomentResampler(diffusion) | |
else: | |
raise NotImplementedError(f"unknown schedule sampler: {name}") | |
class ScheduleSampler(ABC): | |
""" | |
A distribution over timesteps in the diffusion process, intended to reduce | |
variance of the objective. | |
By default, samplers perform unbiased importance sampling, in which the | |
objective's mean is unchanged. | |
However, subclasses may override sample() to change how the resampled | |
terms are reweighted, allowing for actual changes in the objective. | |
""" | |
def weights(self): | |
""" | |
Get a numpy array of weights, one per diffusion step. | |
The weights needn't be normalized, but must be positive. | |
""" | |
def sample(self, batch_size, device): | |
""" | |
Importance-sample timesteps for a batch. | |
:param batch_size: the number of timesteps. | |
:param device: the torch device to save to. | |
:return: a tuple (timesteps, weights): | |
- timesteps: a tensor of timestep indices. | |
- weights: a tensor of weights to scale the resulting losses. | |
""" | |
w = self.weights() | |
p = w / np.sum(w) | |
indices_np = np.random.choice(len(p), size=(batch_size,), p=p) | |
indices = th.from_numpy(indices_np).long().to(device) | |
weights_np = 1 / (len(p) * p[indices_np]) | |
weights = th.from_numpy(weights_np).float().to(device) | |
return indices, weights | |
class UniformSampler(ScheduleSampler): | |
def __init__(self, diffusion): | |
self.diffusion = diffusion | |
self._weights = np.ones([diffusion.num_timesteps]) | |
def weights(self): | |
return self._weights | |
class LossAwareSampler(ScheduleSampler): | |
def update_with_local_losses(self, local_ts, local_losses): | |
""" | |
Update the reweighting using losses from a model. | |
Call this method from each rank with a batch of timesteps and the | |
corresponding losses for each of those timesteps. | |
This method will perform synchronization to make sure all of the ranks | |
maintain the exact same reweighting. | |
:param local_ts: an integer Tensor of timesteps. | |
:param local_losses: a 1D Tensor of losses. | |
""" | |
batch_sizes = [ | |
th.tensor([0], dtype=th.int32, device=local_ts.device) | |
for _ in range(dist.get_world_size()) | |
] | |
dist.all_gather( | |
batch_sizes, | |
th.tensor([len(local_ts)], dtype=th.int32, device=local_ts.device), | |
) | |
# Pad all_gather batches to be the maximum batch size. | |
batch_sizes = [x.item() for x in batch_sizes] | |
max_bs = max(batch_sizes) | |
timestep_batches = [th.zeros(max_bs).to(local_ts) for bs in batch_sizes] | |
loss_batches = [th.zeros(max_bs).to(local_losses) for bs in batch_sizes] | |
dist.all_gather(timestep_batches, local_ts) | |
dist.all_gather(loss_batches, local_losses) | |
timesteps = [ | |
x.item() for y, bs in zip(timestep_batches, batch_sizes) for x in y[:bs] | |
] | |
losses = [x.item() for y, bs in zip(loss_batches, batch_sizes) for x in y[:bs]] | |
self.update_with_all_losses(timesteps, losses) | |
def update_with_all_losses(self, ts, losses): | |
""" | |
Update the reweighting using losses from a model. | |
Sub-classes should override this method to update the reweighting | |
using losses from the model. | |
This method directly updates the reweighting without synchronizing | |
between workers. It is called by update_with_local_losses from all | |
ranks with identical arguments. Thus, it should have deterministic | |
behavior to maintain state across workers. | |
:param ts: a list of int timesteps. | |
:param losses: a list of float losses, one per timestep. | |
""" | |
class LossSecondMomentResampler(LossAwareSampler): | |
def __init__(self, diffusion, history_per_term=10, uniform_prob=0.001): | |
self.diffusion = diffusion | |
self.history_per_term = history_per_term | |
self.uniform_prob = uniform_prob | |
self._loss_history = np.zeros( | |
[diffusion.num_timesteps, history_per_term], dtype=np.float64 | |
) | |
self._loss_counts = np.zeros([diffusion.num_timesteps], dtype=np.int) | |
def weights(self): | |
if not self._warmed_up(): | |
return np.ones([self.diffusion.num_timesteps], dtype=np.float64) | |
weights = np.sqrt(np.mean(self._loss_history ** 2, axis=-1)) | |
weights /= np.sum(weights) | |
weights *= 1 - self.uniform_prob | |
weights += self.uniform_prob / len(weights) | |
return weights | |
def update_with_all_losses(self, ts, losses): | |
for t, loss in zip(ts, losses): | |
if self._loss_counts[t] == self.history_per_term: | |
# Shift out the oldest loss term. | |
self._loss_history[t, :-1] = self._loss_history[t, 1:] | |
self._loss_history[t, -1] = loss | |
else: | |
self._loss_history[t, self._loss_counts[t]] = loss | |
self._loss_counts[t] += 1 | |
def _warmed_up(self): | |
return (self._loss_counts == self.history_per_term).all() | |