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134 lines
4.9 KiB
134 lines
4.9 KiB
import torch |
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from comfy.ldm.modules.diffusionmodules.util import make_beta_schedule |
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import math |
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class EPS: |
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def calculate_input(self, sigma, noise): |
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sigma = sigma.view(sigma.shape[:1] + (1,) * (noise.ndim - 1)) |
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return noise / (sigma ** 2 + self.sigma_data ** 2) ** 0.5 |
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def calculate_denoised(self, sigma, model_output, model_input): |
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sigma = sigma.view(sigma.shape[:1] + (1,) * (model_output.ndim - 1)) |
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return model_input - model_output * sigma |
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class V_PREDICTION(EPS): |
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def calculate_denoised(self, sigma, model_output, model_input): |
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sigma = sigma.view(sigma.shape[:1] + (1,) * (model_output.ndim - 1)) |
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return model_input * self.sigma_data ** 2 / (sigma ** 2 + self.sigma_data ** 2) - model_output * sigma * self.sigma_data / (sigma ** 2 + self.sigma_data ** 2) ** 0.5 |
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class ModelSamplingDiscrete(torch.nn.Module): |
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def __init__(self, model_config=None): |
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super().__init__() |
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if model_config is not None: |
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sampling_settings = model_config.sampling_settings |
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else: |
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sampling_settings = {} |
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beta_schedule = sampling_settings.get("beta_schedule", "linear") |
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linear_start = sampling_settings.get("linear_start", 0.00085) |
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linear_end = sampling_settings.get("linear_end", 0.012) |
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self._register_schedule(given_betas=None, beta_schedule=beta_schedule, timesteps=1000, linear_start=linear_start, linear_end=linear_end, cosine_s=8e-3) |
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self.sigma_data = 1.0 |
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def _register_schedule(self, given_betas=None, beta_schedule="linear", timesteps=1000, |
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linear_start=1e-4, linear_end=2e-2, cosine_s=8e-3): |
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if given_betas is not None: |
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betas = given_betas |
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else: |
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betas = make_beta_schedule(beta_schedule, timesteps, linear_start=linear_start, linear_end=linear_end, cosine_s=cosine_s) |
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alphas = 1. - betas |
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alphas_cumprod = torch.cumprod(alphas, dim=0) |
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timesteps, = betas.shape |
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self.num_timesteps = int(timesteps) |
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self.linear_start = linear_start |
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self.linear_end = linear_end |
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# self.register_buffer('betas', torch.tensor(betas, dtype=torch.float32)) |
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# self.register_buffer('alphas_cumprod', torch.tensor(alphas_cumprod, dtype=torch.float32)) |
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# self.register_buffer('alphas_cumprod_prev', torch.tensor(alphas_cumprod_prev, dtype=torch.float32)) |
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sigmas = ((1 - alphas_cumprod) / alphas_cumprod) ** 0.5 |
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self.set_sigmas(sigmas) |
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def set_sigmas(self, sigmas): |
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self.register_buffer('sigmas', sigmas.float()) |
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self.register_buffer('log_sigmas', sigmas.log().float()) |
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@property |
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def sigma_min(self): |
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return self.sigmas[0] |
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@property |
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def sigma_max(self): |
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return self.sigmas[-1] |
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def timestep(self, sigma): |
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log_sigma = sigma.log() |
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dists = log_sigma.to(self.log_sigmas.device) - self.log_sigmas[:, None] |
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return dists.abs().argmin(dim=0).view(sigma.shape).to(sigma.device) |
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def sigma(self, timestep): |
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t = torch.clamp(timestep.float().to(self.log_sigmas.device), min=0, max=(len(self.sigmas) - 1)) |
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low_idx = t.floor().long() |
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high_idx = t.ceil().long() |
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w = t.frac() |
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log_sigma = (1 - w) * self.log_sigmas[low_idx] + w * self.log_sigmas[high_idx] |
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return log_sigma.exp().to(timestep.device) |
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def percent_to_sigma(self, percent): |
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if percent <= 0.0: |
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return 999999999.9 |
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if percent >= 1.0: |
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return 0.0 |
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percent = 1.0 - percent |
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return self.sigma(torch.tensor(percent * 999.0)).item() |
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class ModelSamplingContinuousEDM(torch.nn.Module): |
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def __init__(self, model_config=None): |
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super().__init__() |
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self.sigma_data = 1.0 |
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if model_config is not None: |
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sampling_settings = model_config.sampling_settings |
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else: |
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sampling_settings = {} |
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sigma_min = sampling_settings.get("sigma_min", 0.002) |
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sigma_max = sampling_settings.get("sigma_max", 120.0) |
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self.set_sigma_range(sigma_min, sigma_max) |
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def set_sigma_range(self, sigma_min, sigma_max): |
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sigmas = torch.linspace(math.log(sigma_min), math.log(sigma_max), 1000).exp() |
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self.register_buffer('sigmas', sigmas) #for compatibility with some schedulers |
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self.register_buffer('log_sigmas', sigmas.log()) |
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@property |
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def sigma_min(self): |
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return self.sigmas[0] |
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@property |
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def sigma_max(self): |
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return self.sigmas[-1] |
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def timestep(self, sigma): |
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return 0.25 * sigma.log() |
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def sigma(self, timestep): |
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return (timestep / 0.25).exp() |
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def percent_to_sigma(self, percent): |
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if percent <= 0.0: |
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return 999999999.9 |
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if percent >= 1.0: |
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return 0.0 |
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percent = 1.0 - percent |
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log_sigma_min = math.log(self.sigma_min) |
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return math.exp((math.log(self.sigma_max) - log_sigma_min) * percent + log_sigma_min)
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