# Copyright 2024 The HuggingFace Inc. team. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import importlib from typing import TYPE_CHECKING, Any, Dict, List, Optional, Union from packaging import version from .base import HfQuantizer from .quantizers_utils import get_module_from_name if TYPE_CHECKING: from ..modeling_utils import PreTrainedModel from ..utils import is_accelerate_available, is_bitsandbytes_available, is_torch_available, logging if is_torch_available(): import torch from ..pytorch_utils import Conv1D logger = logging.get_logger(__name__) class Bnb4BitHfQuantizer(HfQuantizer): """ 4-bit quantization from bitsandbytes.py quantization method: before loading: converts transformer layers into Linear4bit during loading: load 16bit weight and pass to the layer object after: quantizes individual weights in Linear4bit into 4bit at the first .cuda() call saving: from state dict, as usual; saves weights and `quant_state` components loading: need to locate `quant_state` components and pass to Param4bit constructor """ use_keep_in_fp32_modules = True requires_parameters_quantization = True requires_calibration = False required_packages = ["bitsandbytes", "accelerate"] def __init__(self, quantization_config, **kwargs): super().__init__(quantization_config, **kwargs) if self.quantization_config.llm_int8_skip_modules is not None: self.modules_to_not_convert = self.quantization_config.llm_int8_skip_modules def validate_environment(self, *args, **kwargs): if not torch.cuda.is_available(): raise RuntimeError("No GPU found. A GPU is needed for quantization.") if not is_accelerate_available(): raise ImportError("Using `bitsandbytes` 4-bit quantization requires Accelerate: `pip install accelerate`") if not is_bitsandbytes_available(): raise ImportError( "Using `bitsandbytes` 4-bit quantization requires the latest version of bitsandbytes: `pip install -U bitsandbytes`" ) if kwargs.get("from_tf", False) or kwargs.get("from_flax", False): raise ValueError( "Converting into 4-bit or 8-bit weights from tf/flax weights is currently not supported, please make" " sure the weights are in PyTorch format." ) device_map = kwargs.get("device_map", None) if ( device_map is not None and isinstance(device_map, dict) and not self.quantization_config.llm_int8_enable_fp32_cpu_offload ): device_map_without_lm_head = { key: device_map[key] for key in device_map.keys() if key not in self.modules_to_not_convert } if "cpu" in device_map_without_lm_head.values() or "disk" in device_map_without_lm_head.values(): raise ValueError( "Some modules are dispatched on the CPU or the disk. Make sure you have enough GPU RAM to fit the " "quantized model. If you want to dispatch the model on the CPU or the disk while keeping these modules " "in 32-bit, you need to set `load_in_8bit_fp32_cpu_offload=True` and pass a custom `device_map` to " "`from_pretrained`. Check " "https://huggingface.co/docs/transformers/main/en/main_classes/quantization#offload-between-cpu-and-gpu " "for more details. " ) if version.parse(importlib.metadata.version("bitsandbytes")) < version.parse("0.39.0"): raise ValueError( "You have a version of `bitsandbytes` that is not compatible with 4bit inference and training" " make sure you have the latest version of `bitsandbytes` installed" ) def adjust_target_dtype(self, target_dtype: "torch.dtype") -> "torch.dtype": if version.parse(importlib.metadata.version("accelerate")) > version.parse("0.19.0"): from accelerate.utils import CustomDtype if target_dtype != torch.int8: logger.info("target_dtype {target_dtype} is replaced by `CustomDtype.INT4` for 4-bit BnB quantization") return CustomDtype.INT4 else: raise ValueError( "You are using `device_map='auto'` on a 4bit loaded version of the model. To automatically compute" " the appropriate device map, you should upgrade your `accelerate` library," "`pip install --upgrade accelerate` or install it from source to support fp4 auto device map" "calculation. You may encounter unexpected behavior, or pass your own device map" ) def check_quantized_param( self, model: "PreTrainedModel", param_value: "torch.Tensor", param_name: str, state_dict: Dict[str, Any], **kwargs, ) -> bool: import bitsandbytes as bnb module, tensor_name = get_module_from_name(model, param_name) if isinstance(module._parameters.get(tensor_name, None), bnb.nn.Params4bit): # Add here check for loaded components' dtypes once serialization is implemented return True elif isinstance(module, bnb.nn.Linear4bit) and tensor_name == "bias": # bias could be loaded by regular set_module_tensor_to_device() from accelerate, # but it would wrongly use uninitialized weight there. return True else: return False def create_quantized_param( self, model: "PreTrainedModel", param_value: "torch.Tensor", param_name: str, target_device: "torch.device", state_dict: Dict[str, Any], unexpected_keys: Optional[List[str]] = None, ): """ combines logic from _load_state_dict_into_meta_model and .integrations.bitsandbytes.py::set_module_quantized_tensor_to_device() """ import bitsandbytes as bnb module, tensor_name = get_module_from_name(model, param_name) if tensor_name not in module._parameters: raise ValueError(f"{module} does not have a parameter or a buffer named {tensor_name}.") old_value = getattr(module, tensor_name) if tensor_name == "bias": if param_value is None: new_value = old_value.to(target_device) else: new_value = param_value.to(target_device) new_value = torch.nn.Parameter(new_value, requires_grad=old_value.requires_grad) module._parameters[tensor_name] = new_value return if not isinstance(module._parameters[tensor_name], bnb.nn.Params4bit): raise ValueError("this function only loads `Linear4bit components`") if ( old_value.device == torch.device("meta") and target_device not in ["meta", torch.device("meta")] and param_value is None ): raise ValueError(f"{tensor_name} is on the meta device, we need a `value` to put in on {target_device}.") # construct `new_value` for the module._parameters[tensor_name]: if self.pre_quantized: # 4bit loading. Collecting components for restoring quantized weight # This can be expanded to make a universal call for any quantized weight loading if not self.is_serializable: raise ValueError( "Detected int4 weights but the version of bitsandbytes is not compatible with int4 serialization. " "Make sure to download the latest `bitsandbytes` version. `pip install --upgrade bitsandbytes`." ) if (param_name + ".quant_state.bitsandbytes__fp4" not in state_dict) and ( param_name + ".quant_state.bitsandbytes__nf4" not in state_dict ): raise ValueError( f"Supplied state dict for {param_name} does not contain `bitsandbytes__*` and possibly other `quantized_stats` components." ) quantized_stats = {} for k, v in state_dict.items(): if param_name + "." in k: quantized_stats[k] = v if unexpected_keys is not None and k in unexpected_keys: unexpected_keys.remove(k) new_value = bnb.nn.Params4bit.from_prequantized( data=param_value, quantized_stats=quantized_stats, requires_grad=False, device=target_device, ) else: new_value = param_value.to("cpu") # Support models using `Conv1D` in place of `nn.Linear` (e.g. openai-community/gpt2) by transposing the weight matrix prior to quantization. # Since weights are saved in the correct "orientation", we skip transposing when loading. if issubclass(module.source_cls, Conv1D): new_value = new_value.T kwargs = old_value.__dict__ new_value = bnb.nn.Params4bit(new_value, requires_grad=False, **kwargs).to(target_device) module._parameters[tensor_name] = new_value # Copied from transformers.quantizers.quantizer_bnb_8bit.Bnb8BitHfQuantizer.adjust_max_memory def adjust_max_memory(self, max_memory: Dict[str, Union[int, str]]) -> Dict[str, Union[int, str]]: # need more space for buffers that are created during quantization max_memory = {key: val * 0.90 for key, val in max_memory.items()} return max_memory # Copied from transformers.quantizers.quantizer_bnb_8bit.Bnb8BitHfQuantizer.update_torch_dtype def update_torch_dtype(self, torch_dtype: "torch.dtype") -> "torch.dtype": if torch_dtype is None: # We force the `dtype` to be float16, this is a requirement from `bitsandbytes` logger.info( "Overriding torch_dtype=%s with `torch_dtype=torch.float16` due to " "requirements of `bitsandbytes` to enable model loading in 8-bit or 4-bit. " "Pass your own torch_dtype to specify the dtype of the remaining non-linear layers or pass" " torch_dtype=torch.float16 to remove this warning.", torch_dtype, ) torch_dtype = torch.float16 return torch_dtype # Copied from transformers.quantizers.quantizer_bnb_8bit.Bnb8BitHfQuantizer.update_device_map def update_device_map(self, device_map): if device_map is None: device_map = {"": torch.cuda.current_device()} logger.info( "The device_map was not initialized. " "Setting device_map to {'':torch.cuda.current_device()}. " "If you want to use the model for inference, please set device_map ='auto' " ) return device_map # Copied from transformers.quantizers.quantizer_bnb_8bit.Bnb8BitHfQuantizer._process_model_before_weight_loading def _process_model_before_weight_loading( self, model: "PreTrainedModel", device_map, keep_in_fp32_modules: List[str] = [], **kwargs, ): from ..integrations import get_keys_to_not_convert, replace_with_bnb_linear load_in_8bit_fp32_cpu_offload = self.quantization_config.llm_int8_enable_fp32_cpu_offload # We keep some modules such as the lm_head in their original dtype for numerical stability reasons if self.quantization_config.llm_int8_skip_modules is None: self.modules_to_not_convert = get_keys_to_not_convert(model) else: self.modules_to_not_convert = self.quantization_config.llm_int8_skip_modules if not isinstance(self.modules_to_not_convert, list): self.modules_to_not_convert = [self.modules_to_not_convert] self.modules_to_not_convert.extend(keep_in_fp32_modules) # Extend `self.modules_to_not_convert` to keys that are supposed to be offloaded to `cpu` or `disk` if isinstance(device_map, dict) and len(device_map.keys()) > 1: keys_on_cpu = [key for key, value in device_map.items() if value in ["disk", "cpu"]] if len(keys_on_cpu) > 0 and not load_in_8bit_fp32_cpu_offload: raise ValueError( "If you want to offload some keys to `cpu` or `disk`, you need to set " "`llm_int8_enable_fp32_cpu_offload=True`. Note that these modules will not be " " converted to 8-bit but kept in 32-bit." ) self.modules_to_not_convert.extend(keys_on_cpu) model = replace_with_bnb_linear( model, modules_to_not_convert=self.modules_to_not_convert, quantization_config=self.quantization_config ) # TODO: consider bringing replace_with_bnb_linear() code from ..integrations/bitsandbyter.py to here model.config.quantization_config = self.quantization_config # Copied from transformers.quantizers.quantizer_bnb_8bit.Bnb8BitHfQuantizer._process_model_after_weight_loading with 8bit->4bit def _process_model_after_weight_loading(self, model: "PreTrainedModel", **kwargs): model.is_loaded_in_4bit = True model.is_4bit_serializable = self.is_serializable return model @property def is_serializable(self): _is_4bit_serializable = version.parse(importlib.metadata.version("bitsandbytes")) >= version.parse("0.41.3") if not _is_4bit_serializable: logger.warning( "You are calling `save_pretrained` to a 4-bit converted model, but your `bitsandbytes` version doesn't support it. " "If you want to save 4-bit models, make sure to have `bitsandbytes>=0.41.3` installed." ) return False return True @property def is_trainable(self) -> bool: return True def _dequantize(self, model): from ..integrations import dequantize_and_replace model = dequantize_and_replace( model, self.modules_to_not_convert, quantization_config=self.quantization_config ) return model