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This commit is contained in:
wehub-resource-sync
2026-07-13 13:22:06 +08:00
commit cddb07a176
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from pathlib import Path
import accelerate
from safetensors.torch import load_file, save_file
from invokeai.backend.flux.model import Flux
from invokeai.backend.flux.util import get_flux_transformers_params
from invokeai.backend.model_manager.taxonomy import ModelVariantType
from invokeai.backend.quantization.bnb_llm_int8 import quantize_model_llm_int8
from invokeai.backend.quantization.scripts.load_flux_model_bnb_nf4 import log_time
def main():
"""A script for quantizing a FLUX transformer model using the bitsandbytes LLM.int8() quantization method.
This script is primarily intended for reference. The script params (e.g. the model_path, modules_to_not_convert,
etc.) are hardcoded and would need to be modified for other use cases.
"""
# Load the FLUX transformer model onto the meta device.
model_path = Path(
"/data/invokeai/models/.download_cache/https__huggingface.co_black-forest-labs_flux.1-schnell_resolve_main_flux1-schnell.safetensors/flux1-schnell.safetensors"
)
with log_time("Initialize FLUX transformer on meta device"):
# TODO(ryand): Determine if this is a schnell model or a dev model and load the appropriate config.
p = get_flux_transformers_params(ModelVariantType.FluxSchnell)
# Initialize the model on the "meta" device.
with accelerate.init_empty_weights():
model = Flux(p)
# TODO(ryand): We may want to add some modules to not quantize here (e.g. the proj_out layer). See the accelerate
# `get_keys_to_not_convert(...)` function for a heuristic to determine which modules to not quantize.
modules_to_not_convert: set[str] = set()
model_int8_path = model_path.parent / "bnb_llm_int8.safetensors"
if model_int8_path.exists():
# The quantized model already exists, load it and return it.
print(f"A pre-quantized model already exists at '{model_int8_path}'. Attempting to load it...")
# Replace the linear layers with LLM.int8() quantized linear layers (still on the meta device).
with log_time("Replace linear layers with LLM.int8() layers"), accelerate.init_empty_weights():
model = quantize_model_llm_int8(model, modules_to_not_convert=modules_to_not_convert)
with log_time("Load state dict into model"):
sd = load_file(model_int8_path)
model.load_state_dict(sd, strict=True, assign=True)
with log_time("Move model to cuda"):
model = model.to("cuda")
print(f"Successfully loaded pre-quantized model from '{model_int8_path}'.")
else:
# The quantized model does not exist, quantize the model and save it.
print(f"No pre-quantized model found at '{model_int8_path}'. Quantizing the model...")
with log_time("Replace linear layers with LLM.int8() layers"), accelerate.init_empty_weights():
model = quantize_model_llm_int8(model, modules_to_not_convert=modules_to_not_convert)
with log_time("Load state dict into model"):
state_dict = load_file(model_path)
# TODO(ryand): Cast the state_dict to the appropriate dtype?
model.load_state_dict(state_dict, strict=True, assign=True)
with log_time("Move model to cuda and quantize"):
model = model.to("cuda")
with log_time("Save quantized model"):
model_int8_path.parent.mkdir(parents=True, exist_ok=True)
save_file(model.state_dict(), model_int8_path)
print(f"Successfully quantized and saved model to '{model_int8_path}'.")
assert isinstance(model, Flux)
return model
if __name__ == "__main__":
main()
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import time
from contextlib import contextmanager
from pathlib import Path
import accelerate
import torch
from safetensors.torch import load_file, save_file
from invokeai.backend.flux.model import Flux
from invokeai.backend.flux.util import get_flux_transformers_params
from invokeai.backend.model_manager.taxonomy import ModelVariantType
from invokeai.backend.quantization.bnb_nf4 import quantize_model_nf4
@contextmanager
def log_time(name: str):
"""Helper context manager to log the time taken by a block of code."""
start = time.time()
try:
yield None
finally:
end = time.time()
print(f"'{name}' took {end - start:.4f} secs")
def main():
"""A script for quantizing a FLUX transformer model using the bitsandbytes NF4 quantization method.
This script is primarily intended for reference. The script params (e.g. the model_path, modules_to_not_convert,
etc.) are hardcoded and would need to be modified for other use cases.
"""
model_path = Path(
"/data/invokeai/models/.download_cache/https__huggingface.co_black-forest-labs_flux.1-schnell_resolve_main_flux1-schnell.safetensors/flux1-schnell.safetensors"
)
# inference_dtype = torch.bfloat16
with log_time("Initialize FLUX transformer on meta device"):
# TODO(ryand): Determine if this is a schnell model or a dev model and load the appropriate config.
p = get_flux_transformers_params(ModelVariantType.FluxSchnell)
# Initialize the model on the "meta" device.
with accelerate.init_empty_weights():
model = Flux(p)
# TODO(ryand): We may want to add some modules to not quantize here (e.g. the proj_out layer). See the accelerate
# `get_keys_to_not_convert(...)` function for a heuristic to determine which modules to not quantize.
modules_to_not_convert: set[str] = set()
model_nf4_path = model_path.parent / "bnb_nf4.safetensors"
if model_nf4_path.exists():
# The quantized model already exists, load it and return it.
print(f"A pre-quantized model already exists at '{model_nf4_path}'. Attempting to load it...")
# Replace the linear layers with NF4 quantized linear layers (still on the meta device).
with log_time("Replace linear layers with NF4 layers"), accelerate.init_empty_weights():
model = quantize_model_nf4(
model, modules_to_not_convert=modules_to_not_convert, compute_dtype=torch.bfloat16
)
with log_time("Load state dict into model"):
state_dict = load_file(model_nf4_path)
model.load_state_dict(state_dict, strict=True, assign=True)
with log_time("Move model to cuda"):
model = model.to("cuda")
print(f"Successfully loaded pre-quantized model from '{model_nf4_path}'.")
else:
# The quantized model does not exist, quantize the model and save it.
print(f"No pre-quantized model found at '{model_nf4_path}'. Quantizing the model...")
with log_time("Replace linear layers with NF4 layers"), accelerate.init_empty_weights():
model = quantize_model_nf4(
model, modules_to_not_convert=modules_to_not_convert, compute_dtype=torch.bfloat16
)
with log_time("Load state dict into model"):
state_dict = load_file(model_path)
# TODO(ryand): Cast the state_dict to the appropriate dtype?
model.load_state_dict(state_dict, strict=True, assign=True)
with log_time("Move model to cuda and quantize"):
model = model.to("cuda")
with log_time("Save quantized model"):
model_nf4_path.parent.mkdir(parents=True, exist_ok=True)
save_file(model.state_dict(), model_nf4_path)
print(f"Successfully quantized and saved model to '{model_nf4_path}'.")
assert isinstance(model, Flux)
return model
if __name__ == "__main__":
main()
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from pathlib import Path
import accelerate
from safetensors.torch import load_file, save_file
from transformers import AutoConfig, AutoModelForTextEncoding, T5EncoderModel
from invokeai.backend.quantization.bnb_llm_int8 import quantize_model_llm_int8
from invokeai.backend.quantization.scripts.load_flux_model_bnb_nf4 import log_time
def load_state_dict_into_t5(model: T5EncoderModel, state_dict: dict):
# There is a shared reference to a single weight tensor in the model.
# Both "encoder.embed_tokens.weight" and "shared.weight" refer to the same tensor, so only the latter should
# be present in the state_dict.
missing_keys, unexpected_keys = model.load_state_dict(state_dict, strict=False, assign=True)
assert len(unexpected_keys) == 0
assert set(missing_keys) == {"encoder.embed_tokens.weight"}
# Re-tie shared weights. In transformers 5.x, weight tying is implemented at the
# parameter level (via _tie_weights / tie_weights) rather than as a Python object
# alias. load_state_dict(assign=True) replaces parameters in-place, which severs
# the parameter-level tie. Calling tie_weights() re-establishes it.
model.tie_weights()
def main():
"""A script for quantizing a T5 text encoder model using the bitsandbytes LLM.int8() quantization method.
This script is primarily intended for reference. The script params (e.g. the model_path, modules_to_not_convert,
etc.) are hardcoded and would need to be modified for other use cases.
"""
model_path = Path("/data/misc/text_encoder_2")
with log_time("Initialize T5 on meta device"):
model_config = AutoConfig.from_pretrained(model_path)
with accelerate.init_empty_weights():
model = AutoModelForTextEncoding.from_config(model_config)
# TODO(ryand): We may want to add some modules to not quantize here (e.g. the proj_out layer). See the accelerate
# `get_keys_to_not_convert(...)` function for a heuristic to determine which modules to not quantize.
modules_to_not_convert: set[str] = set()
model_int8_path = model_path / "bnb_llm_int8.safetensors"
if model_int8_path.exists():
# The quantized model already exists, load it and return it.
print(f"A pre-quantized model already exists at '{model_int8_path}'. Attempting to load it...")
# Replace the linear layers with LLM.int8() quantized linear layers (still on the meta device).
with log_time("Replace linear layers with LLM.int8() layers"), accelerate.init_empty_weights():
model = quantize_model_llm_int8(model, modules_to_not_convert=modules_to_not_convert)
with log_time("Load state dict into model"):
sd = load_file(model_int8_path)
load_state_dict_into_t5(model, sd)
with log_time("Move model to cuda"):
model = model.to("cuda")
print(f"Successfully loaded pre-quantized model from '{model_int8_path}'.")
else:
# The quantized model does not exist, quantize the model and save it.
print(f"No pre-quantized model found at '{model_int8_path}'. Quantizing the model...")
with log_time("Replace linear layers with LLM.int8() layers"), accelerate.init_empty_weights():
model = quantize_model_llm_int8(model, modules_to_not_convert=modules_to_not_convert)
with log_time("Load state dict into model"):
# Load sharded state dict.
files = list(model_path.glob("*.safetensors"))
state_dict = {}
for file in files:
sd = load_file(file)
state_dict.update(sd)
load_state_dict_into_t5(model, state_dict)
with log_time("Move model to cuda and quantize"):
model = model.to("cuda")
with log_time("Save quantized model"):
model_int8_path.parent.mkdir(parents=True, exist_ok=True)
state_dict = model.state_dict()
state_dict.pop("encoder.embed_tokens.weight")
save_file(state_dict, model_int8_path)
# This handling of shared weights could also be achieved with save_model(...), but then we'd lose control
# over which keys are kept. And, the corresponding load_model(...) function does not support assign=True.
# save_model(model, model_int8_path)
print(f"Successfully quantized and saved model to '{model_int8_path}'.")
assert isinstance(model, T5EncoderModel)
return model
if __name__ == "__main__":
main()