ProductPlacementBG / mvadapter /schedulers /scheduling_shift_snr.py
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from typing import Any
import torch
from .scheduler_utils import SNR_to_betas, compute_snr
class ShiftSNRScheduler:
def __init__(
self,
noise_scheduler: Any,
timesteps: Any,
shift_scale: float,
scheduler_class: Any,
):
self.noise_scheduler = noise_scheduler
self.timesteps = timesteps
self.shift_scale = shift_scale
self.scheduler_class = scheduler_class
def _get_shift_scheduler(self):
"""
Prepare scheduler for shifted betas.
:return: A scheduler object configured with shifted betas
"""
snr = compute_snr(self.timesteps, self.noise_scheduler)
shifted_betas = SNR_to_betas(snr / self.shift_scale)
return self.scheduler_class.from_config(
self.noise_scheduler.config, trained_betas=shifted_betas.numpy()
)
def _get_interpolated_shift_scheduler(self):
"""
Prepare scheduler for shifted betas and interpolate with the original betas in log space.
:return: A scheduler object configured with interpolated shifted betas
"""
snr = compute_snr(self.timesteps, self.noise_scheduler)
shifted_snr = snr / self.shift_scale
weighting = self.timesteps.float() / (
self.noise_scheduler.config.num_train_timesteps - 1
)
interpolated_snr = torch.exp(
torch.log(snr) * (1 - weighting) + torch.log(shifted_snr) * weighting
)
shifted_betas = SNR_to_betas(interpolated_snr)
return self.scheduler_class.from_config(
self.noise_scheduler.config, trained_betas=shifted_betas.numpy()
)
@classmethod
def from_scheduler(
cls,
noise_scheduler: Any,
shift_mode: str = "default",
timesteps: Any = None,
shift_scale: float = 1.0,
scheduler_class: Any = None,
):
# Check input
if timesteps is None:
timesteps = torch.arange(0, noise_scheduler.config.num_train_timesteps)
if scheduler_class is None:
scheduler_class = noise_scheduler.__class__
# Create scheduler
shift_scheduler = cls(
noise_scheduler=noise_scheduler,
timesteps=timesteps,
shift_scale=shift_scale,
scheduler_class=scheduler_class,
)
if shift_mode == "default":
return shift_scheduler._get_shift_scheduler()
elif shift_mode == "interpolated":
return shift_scheduler._get_interpolated_shift_scheduler()
else:
raise ValueError(f"Unknown shift_mode: {shift_mode}")
if __name__ == "__main__":
"""
Compare the alpha values for different noise schedulers.
"""
import matplotlib.pyplot as plt
from diffusers import DDPMScheduler
from .scheduler_utils import compute_alpha
# Base
timesteps = torch.arange(0, 1000)
noise_scheduler_base = DDPMScheduler.from_pretrained(
"runwayml/stable-diffusion-v1-5", subfolder="scheduler"
)
alpha = compute_alpha(timesteps, noise_scheduler_base)
plt.plot(timesteps.numpy(), alpha.numpy(), label="Base")
# Kolors
num_train_timesteps_ = 1100
timesteps_ = torch.arange(0, num_train_timesteps_)
noise_kwargs = {"beta_end": 0.014, "num_train_timesteps": num_train_timesteps_}
noise_scheduler_kolors = DDPMScheduler.from_config(
noise_scheduler_base.config, **noise_kwargs
)
alpha = compute_alpha(timesteps_, noise_scheduler_kolors)
plt.plot(timesteps_.numpy(), alpha.numpy(), label="Kolors")
# Shift betas
shift_scale = 8.0
noise_scheduler_shift = ShiftSNRScheduler.from_scheduler(
noise_scheduler_base, shift_mode="default", shift_scale=shift_scale
)
alpha = compute_alpha(timesteps, noise_scheduler_shift)
plt.plot(timesteps.numpy(), alpha.numpy(), label="Shift Noise (scale 8.0)")
# Shift betas (interpolated)
noise_scheduler_inter = ShiftSNRScheduler.from_scheduler(
noise_scheduler_base, shift_mode="interpolated", shift_scale=shift_scale
)
alpha = compute_alpha(timesteps, noise_scheduler_inter)
plt.plot(timesteps.numpy(), alpha.numpy(), label="Interpolated (scale 8.0)")
# ZeroSNR
noise_scheduler = DDPMScheduler.from_config(
noise_scheduler_base.config, rescale_betas_zero_snr=True
)
alpha = compute_alpha(timesteps, noise_scheduler)
plt.plot(timesteps.numpy(), alpha.numpy(), label="ZeroSNR")
plt.legend()
plt.grid()
plt.savefig("check_alpha.png")