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DPM: add a mode to use first order for last step
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@ -7,9 +7,13 @@ from refiners.foundationals.latent_diffusion.schedulers.scheduler import NoiseSc
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class DPMSolver(Scheduler):
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"""Implements DPM-Solver++ from https://arxiv.org/abs/2211.01095
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"""
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Implements DPM-Solver++ from https://arxiv.org/abs/2211.01095
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We only support noise prediction for now.
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Regarding last_step_first_order: DPM-Solver++ is known to introduce artifacts
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when used with SDXL and few steps. This parameter is a way to mitigate that
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effect by using a first-order (Euler) update instead of a second-order update
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for the last step of the diffusion.
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"""
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def __init__(
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@ -18,6 +22,7 @@ class DPMSolver(Scheduler):
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num_train_timesteps: int = 1_000,
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initial_diffusion_rate: float = 8.5e-4,
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final_diffusion_rate: float = 1.2e-2,
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last_step_first_order: bool = False,
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noise_schedule: NoiseSchedule = NoiseSchedule.QUADRATIC,
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device: Device | str = "cpu",
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dtype: Dtype = float32,
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@ -32,7 +37,7 @@ class DPMSolver(Scheduler):
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dtype=dtype,
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)
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self.estimated_data = deque([tensor([])] * 2, maxlen=2)
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self.initial_steps = 0
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self.last_step_first_order = last_step_first_order
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def _generate_timesteps(self) -> Tensor:
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# We need to use numpy here because:
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@ -102,11 +107,8 @@ class DPMSolver(Scheduler):
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scale_factor, noise_ratio = self.cumulative_scale_factors[current_timestep], self.noise_std[current_timestep]
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estimated_denoised_data = (x - noise_ratio * noise) / scale_factor
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self.estimated_data.append(estimated_denoised_data)
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denoised_x = (
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self.dpm_solver_first_order_update(x=x, noise=estimated_denoised_data, step=step)
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if (self.initial_steps == 0)
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else self.multistep_dpm_solver_second_order_update(x=x, step=step)
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)
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if self.initial_steps < 2:
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self.initial_steps += 1
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return denoised_x
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if step == 0 or (self.last_step_first_order and step == self.num_inference_steps - 1):
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return self.dpm_solver_first_order_update(x=x, noise=estimated_denoised_data, step=step)
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return self.multistep_dpm_solver_second_order_update(x=x, step=step)
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