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import gaussian_diffusion as gd |
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from respace import SpacedDiffusion, space_timesteps |
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def create_diffusion( |
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timestep_respacing, |
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noise_schedule="linear", |
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use_kl=False, |
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sigma_small=False, |
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predict_xstart=False, |
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learn_sigma=True, |
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rescale_learned_sigmas=False, |
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diffusion_steps=1000 |
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): |
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betas = gd.get_named_beta_schedule(noise_schedule, diffusion_steps) |
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if use_kl: |
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loss_type = gd.LossType.RESCALED_KL |
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elif rescale_learned_sigmas: |
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loss_type = gd.LossType.RESCALED_MSE |
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else: |
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loss_type = gd.LossType.MSE |
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if timestep_respacing is None or timestep_respacing == "": |
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timestep_respacing = [diffusion_steps] |
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return SpacedDiffusion( |
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use_timesteps=space_timesteps(diffusion_steps, timestep_respacing), |
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betas=betas, |
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model_mean_type=( |
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gd.ModelMeanType.EPSILON if not predict_xstart else gd.ModelMeanType.START_X |
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), |
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model_var_type=( |
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( |
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gd.ModelVarType.FIXED_LARGE |
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if not sigma_small |
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else gd.ModelVarType.FIXED_SMALL |
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) |
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if not learn_sigma |
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else gd.ModelVarType.LEARNED_RANGE |
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), |
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loss_type=loss_type |
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) |