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stable-diffusion-webui/modules/devices.py

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import sys
import contextlib
from functools import lru_cache
import torch
from modules import errors, shared
from modules import torch_utils
if sys.platform == "darwin":
from modules import mac_specific
if shared.cmd_opts.use_ipex:
from modules import xpu_specific
def has_xpu() -> bool:
return shared.cmd_opts.use_ipex and xpu_specific.has_xpu
def has_mps() -> bool:
if sys.platform != "darwin":
return False
else:
return mac_specific.has_mps
def cuda_no_autocast(device_id=None) -> bool:
if device_id is None:
device_id = get_cuda_device_id()
return (
torch.cuda.get_device_capability(device_id) == (7, 5)
and torch.cuda.get_device_name(device_id).startswith("NVIDIA GeForce GTX 16")
)
def get_cuda_device_id():
return (
int(shared.cmd_opts.device_id)
if shared.cmd_opts.device_id is not None and shared.cmd_opts.device_id.isdigit()
else 0
) or torch.cuda.current_device()
def get_cuda_device_string():
if shared.cmd_opts.device_id is not None:
return f"cuda:{shared.cmd_opts.device_id}"
return "cuda"
def get_optimal_device_name():
if torch.cuda.is_available():
return get_cuda_device_string()
if has_mps():
return "mps"
if has_xpu():
return xpu_specific.get_xpu_device_string()
return "cpu"
def get_optimal_device():
return torch.device(get_optimal_device_name())
def get_device_for(task):
if task in shared.cmd_opts.use_cpu or "all" in shared.cmd_opts.use_cpu:
return cpu
return get_optimal_device()
def torch_gc():
if torch.cuda.is_available():
with torch.cuda.device(get_cuda_device_string()):
torch.cuda.empty_cache()
torch.cuda.ipc_collect()
if has_mps():
mac_specific.torch_mps_gc()
if has_xpu():
xpu_specific.torch_xpu_gc()
def enable_tf32():
if torch.cuda.is_available():
# enabling benchmark option seems to enable a range of cards to do fp16 when they otherwise can't
# see https://github.com/AUTOMATIC1111/stable-diffusion-webui/pull/4407
if cuda_no_autocast():
torch.backends.cudnn.benchmark = True
torch.backends.cuda.matmul.allow_tf32 = True
torch.backends.cudnn.allow_tf32 = True
errors.run(enable_tf32, "Enabling TF32")
cpu: torch.device = torch.device("cpu")
fp8: bool = False
device: torch.device = None
device_interrogate: torch.device = None
device_gfpgan: torch.device = None
device_esrgan: torch.device = None
device_codeformer: torch.device = None
dtype: torch.dtype = torch.float16
dtype_vae: torch.dtype = torch.float16
dtype_unet: torch.dtype = torch.float16
unet_needs_upcast = False
def cond_cast_unet(input):
return input.to(dtype_unet) if unet_needs_upcast else input
def cond_cast_float(input):
return input.float() if unet_needs_upcast else input
nv_rng = None
patch_module_list = [
torch.nn.Linear,
torch.nn.Conv2d,
torch.nn.MultiheadAttention,
torch.nn.GroupNorm,
torch.nn.LayerNorm,
]
def manual_cast_forward(self, *args, **kwargs):
org_dtype = torch_utils.get_param(self).dtype
self.to(dtype)
args = [arg.to(dtype) if isinstance(arg, torch.Tensor) else arg for arg in args]
kwargs = {k: v.to(dtype) if isinstance(v, torch.Tensor) else v for k, v in kwargs.items()}
result = self.org_forward(*args, **kwargs)
self.to(org_dtype)
return result
@contextlib.contextmanager
def manual_cast():
for module_type in patch_module_list:
org_forward = module_type.forward
module_type.forward = manual_cast_forward
module_type.org_forward = org_forward
try:
yield None
finally:
for module_type in patch_module_list:
module_type.forward = module_type.org_forward
def autocast(disable=False):
if disable:
return contextlib.nullcontext()
if fp8 and device==cpu:
return torch.autocast("cpu", dtype=torch.bfloat16, enabled=True)
if fp8 and (dtype == torch.float32 or shared.cmd_opts.precision == "full" or cuda_no_autocast()):
return manual_cast()
if has_mps() and shared.cmd_opts.precision != "full":
return manual_cast()
if dtype == torch.float32 or shared.cmd_opts.precision == "full":
return contextlib.nullcontext()
return torch.autocast("cuda")
def without_autocast(disable=False):
return torch.autocast("cuda", enabled=False) if torch.is_autocast_enabled() and not disable else contextlib.nullcontext()
class NansException(Exception):
pass
def test_for_nans(x, where):
if shared.cmd_opts.disable_nan_check:
return
if not torch.all(torch.isnan(x)).item():
return
if where == "unet":
message = "A tensor with all NaNs was produced in Unet."
if not shared.cmd_opts.no_half:
message += " This could be either because there's not enough precision to represent the picture, or because your video card does not support half type. Try setting the \"Upcast cross attention layer to float32\" option in Settings > Stable Diffusion or using the --no-half commandline argument to fix this."
elif where == "vae":
message = "A tensor with all NaNs was produced in VAE."
if not shared.cmd_opts.no_half and not shared.cmd_opts.no_half_vae:
message += " This could be because there's not enough precision to represent the picture. Try adding --no-half-vae commandline argument to fix this."
else:
message = "A tensor with all NaNs was produced."
message += " Use --disable-nan-check commandline argument to disable this check."
raise NansException(message)
@lru_cache
def first_time_calculation():
"""
just do any calculation with pytorch layers - the first time this is done it allocaltes about 700MB of memory and
spends about 2.7 seconds doing that, at least wih NVidia.
"""
x = torch.zeros((1, 1)).to(device, dtype)
linear = torch.nn.Linear(1, 1).to(device, dtype)
linear(x)
x = torch.zeros((1, 1, 3, 3)).to(device, dtype)
conv2d = torch.nn.Conv2d(1, 1, (3, 3)).to(device, dtype)
conv2d(x)
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