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L40S
Running
on
L40S
from typing import * | |
import torch | |
import numpy as np | |
from tqdm import tqdm | |
from easydict import EasyDict as edict | |
from .base import Sampler | |
from .classifier_free_guidance_mixin import ClassifierFreeGuidanceSamplerMixin | |
from .guidance_interval_mixin import GuidanceIntervalSamplerMixin | |
class FlowEulerSampler(Sampler): | |
""" | |
Generate samples from a flow-matching model using Euler sampling. | |
Args: | |
sigma_min: The minimum scale of noise in flow. | |
""" | |
def __init__( | |
self, | |
sigma_min: float, | |
): | |
self.sigma_min = sigma_min | |
def _eps_to_xstart(self, x_t, t, eps): | |
assert x_t.shape == eps.shape | |
return (x_t - (self.sigma_min + (1 - self.sigma_min) * t) * eps) / (1 - t) | |
def _xstart_to_eps(self, x_t, t, x_0): | |
assert x_t.shape == x_0.shape | |
return (x_t - (1 - t) * x_0) / (self.sigma_min + (1 - self.sigma_min) * t) | |
def _v_to_xstart_eps(self, x_t, t, v): | |
assert x_t.shape == v.shape | |
eps = (1 - t) * v + x_t | |
x_0 = (1 - self.sigma_min) * x_t - (self.sigma_min + (1 - self.sigma_min) * t) * v | |
return x_0, eps | |
def _inference_model(self, model, x_t, t, cond=None, **kwargs): | |
t = torch.tensor([1000 * t] * x_t.shape[0], device=x_t.device, dtype=torch.float32) | |
return model(x_t, t, cond, **kwargs) | |
def _get_model_prediction(self, model, x_t, t, cond=None, **kwargs): | |
pred_v = self._inference_model(model, x_t, t, cond, **kwargs) | |
pred_x_0, pred_eps = self._v_to_xstart_eps(x_t=x_t, t=t, v=pred_v) | |
return pred_x_0, pred_eps, pred_v | |
def sample_once( | |
self, | |
model, | |
x_t, | |
t: float, | |
t_prev: float, | |
cond: Optional[Any] = None, | |
**kwargs | |
): | |
""" | |
Sample x_{t-1} from the model using Euler method. | |
Args: | |
model: The model to sample from. | |
x_t: The [N x C x ...] tensor of noisy inputs at time t. | |
t: The current timestep. | |
t_prev: The previous timestep. | |
cond: conditional information. | |
**kwargs: Additional arguments for model inference. | |
Returns: | |
a dict containing the following | |
- 'pred_x_prev': x_{t-1}. | |
- 'pred_x_0': a prediction of x_0. | |
""" | |
pred_x_0, pred_eps, pred_v = self._get_model_prediction(model, x_t, t, cond, **kwargs) | |
pred_x_prev = x_t - (t - t_prev) * pred_v | |
return edict({"pred_x_prev": pred_x_prev, "pred_x_0": pred_x_0}) | |
def sample( | |
self, | |
model, | |
noise, | |
cond: Optional[Any] = None, | |
steps: int = 50, | |
rescale_t: float = 1.0, | |
verbose: bool = True, | |
**kwargs | |
): | |
""" | |
Generate samples from the model using Euler method. | |
Args: | |
model: The model to sample from. | |
noise: The initial noise tensor. | |
cond: conditional information. | |
steps: The number of steps to sample. | |
rescale_t: The rescale factor for t. | |
verbose: If True, show a progress bar. | |
**kwargs: Additional arguments for model_inference. | |
Returns: | |
a dict containing the following | |
- 'samples': the model samples. | |
- 'pred_x_t': a list of prediction of x_t. | |
- 'pred_x_0': a list of prediction of x_0. | |
""" | |
sample = noise | |
t_seq = np.linspace(1, 0, steps + 1) | |
t_seq = rescale_t * t_seq / (1 + (rescale_t - 1) * t_seq) | |
t_pairs = list((t_seq[i], t_seq[i + 1]) for i in range(steps)) | |
ret = edict({"samples": None, "pred_x_t": [], "pred_x_0": []}) | |
for t, t_prev in tqdm(t_pairs, desc="Sampling", disable=not verbose): | |
out = self.sample_once(model, sample, t, t_prev, cond, **kwargs) | |
sample = out.pred_x_prev | |
ret.pred_x_t.append(out.pred_x_prev) | |
ret.pred_x_0.append(out.pred_x_0) | |
ret.samples = sample | |
return ret | |
class FlowEulerCfgSampler(ClassifierFreeGuidanceSamplerMixin, FlowEulerSampler): | |
""" | |
Generate samples from a flow-matching model using Euler sampling with classifier-free guidance. | |
""" | |
def sample( | |
self, | |
model, | |
noise, | |
cond, | |
neg_cond, | |
steps: int = 50, | |
rescale_t: float = 1.0, | |
cfg_strength: float = 3.0, | |
verbose: bool = True, | |
**kwargs | |
): | |
""" | |
Generate samples from the model using Euler method. | |
Args: | |
model: The model to sample from. | |
noise: The initial noise tensor. | |
cond: conditional information. | |
neg_cond: negative conditional information. | |
steps: The number of steps to sample. | |
rescale_t: The rescale factor for t. | |
cfg_strength: The strength of classifier-free guidance. | |
verbose: If True, show a progress bar. | |
**kwargs: Additional arguments for model_inference. | |
Returns: | |
a dict containing the following | |
- 'samples': the model samples. | |
- 'pred_x_t': a list of prediction of x_t. | |
- 'pred_x_0': a list of prediction of x_0. | |
""" | |
return super().sample(model, noise, cond, steps, rescale_t, verbose, neg_cond=neg_cond, cfg_strength=cfg_strength, **kwargs) | |
class FlowEulerGuidanceIntervalSampler(GuidanceIntervalSamplerMixin, FlowEulerSampler): | |
""" | |
Generate samples from a flow-matching model using Euler sampling with classifier-free guidance and interval. | |
""" | |
def sample( | |
self, | |
model, | |
noise, | |
cond, | |
neg_cond, | |
steps: int = 50, | |
rescale_t: float = 1.0, | |
cfg_strength: float = 3.0, | |
cfg_interval: Tuple[float, float] = (0.0, 1.0), | |
verbose: bool = True, | |
**kwargs | |
): | |
""" | |
Generate samples from the model using Euler method. | |
Args: | |
model: The model to sample from. | |
noise: The initial noise tensor. | |
cond: conditional information. | |
neg_cond: negative conditional information. | |
steps: The number of steps to sample. | |
rescale_t: The rescale factor for t. | |
cfg_strength: The strength of classifier-free guidance. | |
cfg_interval: The interval for classifier-free guidance. | |
verbose: If True, show a progress bar. | |
**kwargs: Additional arguments for model_inference. | |
Returns: | |
a dict containing the following | |
- 'samples': the model samples. | |
- 'pred_x_t': a list of prediction of x_t. | |
- 'pred_x_0': a list of prediction of x_0. | |
""" | |
return super().sample(model, noise, cond, steps, rescale_t, verbose, neg_cond=neg_cond, cfg_strength=cfg_strength, cfg_interval=cfg_interval, **kwargs) | |