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https://github.com/AUTOMATIC1111/stable-diffusion-webui.git
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Add --precision half cmd option
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@ -41,7 +41,7 @@ parser.add_argument("--lowvram", action='store_true', help="enable stable diffus
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parser.add_argument("--lowram", action='store_true', help="load stable diffusion checkpoint weights to VRAM instead of RAM")
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parser.add_argument("--always-batch-cond-uncond", action='store_true', help="does not do anything")
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parser.add_argument("--unload-gfpgan", action='store_true', help="does not do anything.")
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parser.add_argument("--precision", type=str, help="evaluate at this precision", choices=["full", "autocast"], default="autocast")
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parser.add_argument("--precision", type=str, help="evaluate at this precision", choices=["full", "half", "autocast"], default="autocast")
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parser.add_argument("--upcast-sampling", action='store_true', help="upcast sampling. No effect with --no-half. Usually produces similar results to --no-half with better performance while using less memory.")
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parser.add_argument("--share", action='store_true', help="use share=True for gradio and make the UI accessible through their site")
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parser.add_argument("--ngrok", type=str, help="ngrok authtoken, alternative to gradio --share", default=None)
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@ -114,6 +114,9 @@ errors.run(enable_tf32, "Enabling TF32")
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cpu: torch.device = torch.device("cpu")
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fp8: bool = False
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# Force fp16 for all models in inference. No casting during inference.
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# This flag is controlled by "--precision half" command line arg.
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force_fp16: bool = False
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device: torch.device = None
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device_interrogate: torch.device = None
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device_gfpgan: torch.device = None
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@ -127,6 +130,8 @@ unet_needs_upcast = False
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def cond_cast_unet(input):
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if force_fp16:
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return input.to(torch.float16)
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return input.to(dtype_unet) if unet_needs_upcast else input
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@ -206,6 +211,11 @@ def autocast(disable=False):
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if disable:
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return contextlib.nullcontext()
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if force_fp16:
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# No casting during inference if force_fp16 is enabled.
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# All tensor dtype conversion happens before inference.
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return contextlib.nullcontext()
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if fp8 and device==cpu:
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return torch.autocast("cpu", dtype=torch.bfloat16, enabled=True)
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@ -269,3 +279,17 @@ def first_time_calculation():
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x = torch.zeros((1, 1, 3, 3)).to(device, dtype)
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conv2d = torch.nn.Conv2d(1, 1, (3, 3)).to(device, dtype)
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conv2d(x)
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def force_model_fp16():
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"""
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ldm and sgm has modules.diffusionmodules.util.GroupNorm32.forward, which
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force conversion of input to float32. If force_fp16 is enabled, we need to
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prevent this casting.
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"""
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assert force_fp16
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import sgm.modules.diffusionmodules.util as sgm_util
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import ldm.modules.diffusionmodules.util as ldm_util
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sgm_util.GroupNorm32 = torch.nn.GroupNorm
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ldm_util.GroupNorm32 = torch.nn.GroupNorm
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print("ldm/sgm GroupNorm32 replaced with normal torch.nn.GroupNorm due to `--precision half`.")
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@ -36,7 +36,7 @@ th = TorchHijackForUnet()
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# Below are monkey patches to enable upcasting a float16 UNet for float32 sampling
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def apply_model(orig_func, self, x_noisy, t, cond, **kwargs):
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"""Always make sure inputs to unet are in correct dtype."""
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if isinstance(cond, dict):
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for y in cond.keys():
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if isinstance(cond[y], list):
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@ -45,7 +45,11 @@ def apply_model(orig_func, self, x_noisy, t, cond, **kwargs):
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cond[y] = cond[y].to(devices.dtype_unet) if isinstance(cond[y], torch.Tensor) else cond[y]
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with devices.autocast():
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return orig_func(self, x_noisy.to(devices.dtype_unet), t.to(devices.dtype_unet), cond, **kwargs).float()
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result = orig_func(self, x_noisy.to(devices.dtype_unet), t.to(devices.dtype_unet), cond, **kwargs)
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if devices.unet_needs_upcast:
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return result.float()
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else:
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return result
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class GELUHijack(torch.nn.GELU, torch.nn.Module):
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@ -64,12 +68,11 @@ def hijack_ddpm_edit():
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if not ddpm_edit_hijack:
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CondFunc('modules.models.diffusion.ddpm_edit.LatentDiffusion.decode_first_stage', first_stage_sub, first_stage_cond)
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CondFunc('modules.models.diffusion.ddpm_edit.LatentDiffusion.encode_first_stage', first_stage_sub, first_stage_cond)
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ddpm_edit_hijack = CondFunc('modules.models.diffusion.ddpm_edit.LatentDiffusion.apply_model', apply_model, unet_needs_upcast)
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ddpm_edit_hijack = CondFunc('modules.models.diffusion.ddpm_edit.LatentDiffusion.apply_model', apply_model)
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unet_needs_upcast = lambda *args, **kwargs: devices.unet_needs_upcast
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.apply_model', apply_model, unet_needs_upcast)
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CondFunc('ldm.modules.diffusionmodules.openaimodel.timestep_embedding', lambda orig_func, timesteps, *args, **kwargs: orig_func(timesteps, *args, **kwargs).to(torch.float32 if timesteps.dtype == torch.int64 else devices.dtype_unet), unet_needs_upcast)
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if version.parse(torch.__version__) <= version.parse("1.13.2") or torch.cuda.is_available():
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CondFunc('ldm.modules.diffusionmodules.util.GroupNorm32.forward', lambda orig_func, self, *args, **kwargs: orig_func(self.float(), *args, **kwargs), unet_needs_upcast)
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CondFunc('ldm.modules.attention.GEGLU.forward', lambda orig_func, self, x: orig_func(self.float(), x.float()).to(devices.dtype_unet), unet_needs_upcast)
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@ -81,5 +84,17 @@ CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.decode_first_stage', first_s
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.encode_first_stage', first_stage_sub, first_stage_cond)
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.get_first_stage_encoding', lambda orig_func, *args, **kwargs: orig_func(*args, **kwargs).float(), first_stage_cond)
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CondFunc('sgm.modules.diffusionmodules.wrappers.OpenAIWrapper.forward', apply_model, unet_needs_upcast)
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CondFunc('sgm.modules.diffusionmodules.openaimodel.timestep_embedding', lambda orig_func, timesteps, *args, **kwargs: orig_func(timesteps, *args, **kwargs).to(torch.float32 if timesteps.dtype == torch.int64 else devices.dtype_unet), unet_needs_upcast)
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CondFunc('ldm.models.diffusion.ddpm.LatentDiffusion.apply_model', apply_model)
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CondFunc('sgm.modules.diffusionmodules.wrappers.OpenAIWrapper.forward', apply_model)
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def timestep_embedding_cast_result(orig_func, timesteps, *args, **kwargs):
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if devices.unet_needs_upcast and timesteps.dtype == torch.int64:
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dtype = torch.float32
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else:
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dtype = devices.dtype_unet
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return orig_func(timesteps, *args, **kwargs).to(dtype=dtype)
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CondFunc('ldm.modules.diffusionmodules.openaimodel.timestep_embedding', timestep_embedding_cast_result)
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CondFunc('sgm.modules.diffusionmodules.openaimodel.timestep_embedding', timestep_embedding_cast_result)
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@ -1,7 +1,11 @@
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import importlib
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always_true_func = lambda *args, **kwargs: True
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class CondFunc:
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def __new__(cls, orig_func, sub_func, cond_func):
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def __new__(cls, orig_func, sub_func, cond_func=always_true_func):
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self = super(CondFunc, cls).__new__(cls)
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if isinstance(orig_func, str):
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func_path = orig_func.split('.')
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@ -20,13 +24,13 @@ class CondFunc:
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print(f"Warning: Failed to resolve {orig_func} for CondFunc hijack")
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pass
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self.__init__(orig_func, sub_func, cond_func)
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return lambda *args, **kwargs: self(*args, **kwargs)
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def __init__(self, orig_func, sub_func, cond_func):
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self.__orig_func = orig_func
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self.__sub_func = sub_func
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self.__cond_func = cond_func
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def __call__(self, *args, **kwargs):
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if not self.__cond_func or self.__cond_func(self.__orig_func, *args, **kwargs):
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return self.__sub_func(self.__orig_func, *args, **kwargs)
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else:
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return self.__orig_func(*args, **kwargs)
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return lambda *args, **kwargs: self(*args, **kwargs)
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def __init__(self, orig_func, sub_func, cond_func):
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self.__orig_func = orig_func
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self.__sub_func = sub_func
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self.__cond_func = cond_func
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def __call__(self, *args, **kwargs):
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if not self.__cond_func or self.__cond_func(self.__orig_func, *args, **kwargs):
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return self.__sub_func(self.__orig_func, *args, **kwargs)
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else:
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return self.__orig_func(*args, **kwargs)
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@ -403,6 +403,7 @@ def load_model_weights(model, checkpoint_info: CheckpointInfo, state_dict, timer
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model.float()
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model.alphas_cumprod_original = model.alphas_cumprod
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devices.dtype_unet = torch.float32
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assert shared.cmd_opts.precision != "half", "Cannot use --precision half with --no-half"
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timer.record("apply float()")
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else:
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vae = model.first_stage_model
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@ -31,6 +31,14 @@ def initialize():
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devices.dtype_vae = torch.float32 if cmd_opts.no_half or cmd_opts.no_half_vae else torch.float16
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devices.dtype_inference = torch.float32 if cmd_opts.precision == 'full' else devices.dtype
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if cmd_opts.precision == "half":
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msg = "--no-half and --no-half-vae conflict with --precision half"
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assert devices.dtype == torch.float16, msg
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assert devices.dtype_vae == torch.float16, msg
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assert devices.dtype_inference == torch.float16, msg
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devices.force_fp16 = True
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devices.force_model_fp16()
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shared.device = devices.device
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shared.weight_load_location = None if cmd_opts.lowram else "cpu"
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