土木建筑网站,隆化县建设局网站,wordpress网站logo,如何判断网站是否被kStanford Alpaca 是在 LLaMA 整个模型上微调#xff0c;即对预训练模型中的所有参数都进行微调#xff08;full fine-tuning#xff09;。但该方法对于硬件成本要求仍然偏高且训练低效。
[NLP]理解大型语言模型高效微调(PEFT)
因此#xff0c; Alpaca-Lora 则是利用 Lora…Stanford Alpaca 是在 LLaMA 整个模型上微调即对预训练模型中的所有参数都进行微调full fine-tuning。但该方法对于硬件成本要求仍然偏高且训练低效。
[NLP]理解大型语言模型高效微调(PEFT)
因此 Alpaca-Lora 则是利用 Lora 技术在冻结原模型 LLaMA 参数的情况下通过往模型中加入额外的网络层并只训练这些新增的网络层参数。由于这些新增参数数量较少这样不仅微调的成本显著下降还能获得和全模型微调full fine-tuning类似的效果。
LoRA 的原理其实并不复杂它的核心思想是在原始预训练语言模型旁边增加一个旁路做一个降维再升维的操作来模拟所谓的 intrinsic rank预训练模型在各类下游任务上泛化的过程其实就是在优化各类任务的公共低维本征low-dimensional intrinsic子空间中非常少量的几个自由参数。训练的时候固定预训练语言模型的参数只训练降维矩阵 A 与升维矩阵 B。而模型的输入输出维度不变输出时将 BA 与预训练语言模型的参数叠加。用随机高斯分布初始化 A用 0 矩阵初始化 B。这样能保证训练开始时新增的通路BA0从而对模型结果没有影响。
在推理时将左右两部分的结果加到一起即可hWxBAx(WBA)x所以只要将训练完成的矩阵乘积BA跟原本的权重矩阵W加到一起作为新权重参数替换原始预训练语言模型的W即可不会增加额外的计算资源。 LoRA 的最大优势是速度更快使用的内存更少因此可以在消费级硬件上运行。
准备数据集
fine-tune 的目标通常有两种
像 Alpaca 一样收集 input/output 生成 prompt 用于训练让模型完成特定任务语言填充收集文本用于训练让模型补全 prompt。
以第一种目标为例假设我们的目标是让模型讲中文那么我们可以通过其他 LLM 如 text-davinci-003把一个现有数据集如 Alpaca翻译为中文来做 fine-tune。实际上这个想法已经在开源社区已经有人实现了。
为了达成这个目标我使用的数据集是 Luotuo 作者翻译的 Alpaca 数据集训练代码主要来自 Alpaca-LoRA。
wget https://github.com/LC1332/Chinese-alpaca-lora/blob/main/data/trans_chinese_alpaca_data.json
Alpach-LoRA 目录中也包含fine-tune的English数据集 除此之外可参考GPT-4-LLM项目该项目还提供了使用Alpaca的Prompt翻译成中文使用 GPT4 生成了 5.2 万条指令跟随数据。 一 环境搭建
基础环境配置如下
操作系统: CentOS 7CPUs: 单个节点具有 1TB 内存的 Intel CPU物理CPU个数为64每颗CPU核数为16GPUs: 4 卡 A100 80GB GPUDocker Image: pytorch:1.13.0-cuda11.6-cudnn8-devel
1.在 Alpaca-LoRA 项目中作者提到他们使用了 Hugging Face 的 PEFT。PEFT 是一个库LoRA 是其支持的技术之一除此之外还有Prefix Tuning、P-Tuning、Prompt Tuning可以让你使用各种基于 Transformer 结构的语言模型进行高效微调。下面安装PEFT。
#安装peft
git clone https://github.com/huggingface/peft.git
cd peft/
pip install .
2. bitsandbytes是对CUDA自定义函数的轻量级封装 特别是针对8位优化器、矩阵乘法LLM.int8()和量化函数。
#安装bitsandbytes。
git clone gitgithub.com:TimDettmers/bitsandbytes.git
cd bitsandbytes
CUDA_VERSION116 make cuda11x
python setup.py install
如果安装 bitsandbytes出现如下错误
/usr/bin/ld: cannot find -lcudart
请行执行如下命令
cd /usr/lib
ln -s /usr/local/cuda/lib64/libcudart.so libcudart.so
3.Alpaca-Lora微调代码
#下载alpaca-lora
git clone gitgithub.com:tloen/alpaca-lora.git
cd alpaca-lora
pip install -r requirements.txt
requirements.txt文件具体的内容如下
accelerate
appdirs
loralib
bitsandbytes
black
black[jupyter]
datasets
fire
githttps://github.com/huggingface/peft.git
transformers4.28.0
sentencepiece
gradio 二 模型格式转换
将LLaMA原始权重文件转换为Transformers库对应的模型文件格式。可以直接从Hugging Face下载转换好的模型如下
下载方法可以参考[NLP]Huggingface模型/数据文件下载方法
decapoda-research/llama-7b-hf · Hugging Face
decapoda-research/llama-13b-hf · Hugging Face 三 模型微调
Alpaca Lora 作者采用了 Hugging Face 的轻量化微调库Parameter Efficient Fine-TuningPEFT中所支持的 LoRA 方法。LoRA 方法的两项配置会直接影响需要训练的参数量
1LoRA 目标模块lora_target_modules用于指定要对哪些模块的参数进行微调。比如我们可以对 Q, K, V, O 都进行微调也可以只对 Q、V 进行微调。不同的设定会影响需要微调的参数量也会影响训练过程中的计算量。比如当我们设定只对 Q、V 进行微调时需要训练的参数量trainable parameters只占整个模型参数总量的 6% 左右。
2LoRA 的秩lora_r也是影响训练参数量的一个重要因素。客观来说使用 LoRA 这样的方法训练得到的模型在效果上必然会和直接在原始大模型基础上进行训练的效果有一定差异。因此可以结合所拥有的机器配置、可以容忍的最大训练时长等因素来灵活地配置 LoRA 的使用方法。 python finetune.py \--base_model /disk1/llama-13b \--data_path ./alpaca_data_cleaned_archive.json \--output_dir ./lora-alpaca \--batch_size 128 \--micro_batch_size 8 \--num_epochs 1torchrun --nproc_per_node4 --master_port29000 finetune.py \--base_model /disk1/llama-13b \--data_path ./alpaca_data_cleaned_archive.json \--output_dir ./lora-alpaca \--batch_size 128 \--micro_batch_size 8 \--num_epochs 1
Training Alpaca-LoRA model with params:
base_model: /disk1/llama-13b
data_path: ./alpaca_data_cleaned_archive.json
output_dir: ./lora-alpaca
batch_size: 128
micro_batch_size: 8
num_epochs: 1
learning_rate: 0.0003
cutoff_len: 256
val_set_size: 2000
lora_r: 8
lora_alpha: 16
lora_dropout: 0.05
lora_target_modules: [q_proj, v_proj]
train_on_inputs: True
add_eos_token: False
group_by_length: False
wandb_project:
wandb_run_name:
wandb_watch:
wandb_log_model:
resume_from_checkpoint: False
prompt template: alpacaLoading checkpoint shards: 100%|██████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 41/41 [00:4300:00, 1.06s/it]
Loading checkpoint shards: 100%|██████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 41/41 [00:4300:00, 1.06s/it]
Loading checkpoint shards: 100%|██████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 41/41 [00:4300:00, 1.06s/it]
Loading checkpoint shards: 100%|██████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 41/41 [00:4300:00, 1.06s/it]
The tokenizer class you load from this checkpoint is not the same type as the class this function is called from. It may result in unexpected tokenization.
The tokenizer class you load from this checkpoint is LLaMATokenizer.
The class this function is called from is LlamaTokenizer.
You are using the legacy behaviour of the class transformers.models.llama.tokenization_llama.LlamaTokenizer. This means that tokens that come after special tokens will not be properly handled. We recommend you to read the related pull request available at https://github.com/huggingface/transformers/pull/24565
/opt/conda/lib/python3.9/site-packages/peft/utils/other.py:102: FutureWarning: prepare_model_for_int8_training is deprecated and will be removed in a future version. Use prepare_model_for_kbit_training instead.warnings.warn(
The tokenizer class you load from this checkpoint is not the same type as the class this function is called from. It may result in unexpected tokenization.
The tokenizer class you load from this checkpoint is LLaMATokenizer.
The class this function is called from is LlamaTokenizer.
You are using the legacy behaviour of the class transformers.models.llama.tokenization_llama.LlamaTokenizer. This means that tokens that come after special tokens will not be properly handled. We recommend you to read the related pull request available at https://github.com/huggingface/transformers/pull/24565
The tokenizer class you load from this checkpoint is not the same type as the class this function is called from. It may result in unexpected tokenization.
The tokenizer class you load from this checkpoint is LLaMATokenizer.
The class this function is called from is LlamaTokenizer.
You are using the legacy behaviour of the class transformers.models.llama.tokenization_llama.LlamaTokenizer. This means that tokens that come after special tokens will not be properly handled. We recommend you to read the related pull request available at https://github.com/huggingface/transformers/pull/24565
/opt/conda/lib/python3.9/site-packages/peft/utils/other.py:102: FutureWarning: prepare_model_for_int8_training is deprecated and will be removed in a future version. Use prepare_model_for_kbit_training instead.warnings.warn(
/opt/conda/lib/python3.9/site-packages/peft/utils/other.py:102: FutureWarning: prepare_model_for_int8_training is deprecated and will be removed in a future version. Use prepare_model_for_kbit_training instead.warnings.warn(
The tokenizer class you load from this checkpoint is not the same type as the class this function is called from. It may result in unexpected tokenization.
The tokenizer class you load from this checkpoint is LLaMATokenizer.
The class this function is called from is LlamaTokenizer.
You are using the legacy behaviour of the class transformers.models.llama.tokenization_llama.LlamaTokenizer. This means that tokens that come after special tokens will not be properly handled. We recommend you to read the related pull request available at https://github.com/huggingface/transformers/pull/24565
/opt/conda/lib/python3.9/site-packages/peft/utils/other.py:102: FutureWarning: prepare_model_for_int8_training is deprecated and will be removed in a future version. Use prepare_model_for_kbit_training instead.warnings.warn(
trainable params: 6,553,600 || all params: 13,022,417,920 || trainable%: 0.05032552357220002
Map: 3%|███▊ | 1330/49759 [00:0100:39, 1216.23 examples/s]trainable params: 6,553,600 || all params: 13,022,417,920 || trainable%: 0.05032552357220002
Map: 0%| | 0/49759 [00:00?, ? examples/s]trainable params: 6,553,600 || all params: 13,022,417,920 || trainable%: 0.05032552357220002
Map: 1%|▊ | 272/49759 [00:0000:36, 1350.21 examples/s]trainable params: 6,553,600 || all params: 13,022,417,920 || trainable%: 0.05032552357220002
Map: 100%|█████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 49759/49759 [00:3800:00, 1294.31 examples/s]
Map: 100%|█████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 49759/49759 [00:3800:00, 1284.04 examples/s]
Map: 100%|█████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 49759/49759 [00:3800:00, 1283.95 examples/s]
Map: 100%|███████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 2000/2000 [00:0100:00, 1221.03 examples/s]
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).
Map: 100%|█████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 49759/49759 [00:3900:00, 1274.42 examples/s]
Map: 100%|███████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 2000/2000 [00:0100:00, 1285.16 examples/s]
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).
Map: 100%|███████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 2000/2000 [00:0100:00, 1281.27 examples/s]
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).
Map: 100%|███████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 2000/2000 [00:0100:00, 1290.31 examples/s]
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).
[W socket.cpp:601] [c10d] The client socket cannot be initialized to connect to [localhost]:29005 (errno: 97 - Address family not supported by protocol).0%| | 0/388 [00:00?, ?it/s]/opt/conda/lib/python3.9/site-packages/bitsandbytes-0.41.0-py3.9.egg/bitsandbytes/autograd/_functions.py:322: UserWarning: MatMul8bitLt: inputs will be cast from torch.float32 to float16 during quantizationwarnings.warn(fMatMul8bitLt: inputs will be cast from {A.dtype} to float16 during quantization)
/opt/conda/lib/python3.9/site-packages/bitsandbytes-0.41.0-py3.9.egg/bitsandbytes/autograd/_functions.py:322: UserWarning: MatMul8bitLt: inputs will be cast from torch.float32 to float16 during quantizationwarnings.warn(fMatMul8bitLt: inputs will be cast from {A.dtype} to float16 during quantization)
/opt/conda/lib/python3.9/site-packages/bitsandbytes-0.41.0-py3.9.egg/bitsandbytes/autograd/_functions.py:322: UserWarning: MatMul8bitLt: inputs will be cast from torch.float32 to float16 during quantizationwarnings.warn(fMatMul8bitLt: inputs will be cast from {A.dtype} to float16 during quantization)
/opt/conda/lib/python3.9/site-packages/bitsandbytes-0.41.0-py3.9.egg/bitsandbytes/autograd/_functions.py:322: UserWarning: MatMul8bitLt: inputs will be cast from torch.float32 to float16 during quantizationwarnings.warn(fMatMul8bitLt: inputs will be cast from {A.dtype} to float16 during quantization)
{loss: 2.249, learning_rate: 2.9999999999999997e-05, epoch: 0.03}
{loss: 2.1927, learning_rate: 5.6999999999999996e-05, epoch: 0.05}
{loss: 2.0813, learning_rate: 7.8e-05, epoch: 0.08}
{loss: 1.7206, learning_rate: 0.00010799999999999998, epoch: 0.1} 11%|████████████████▋ 11%|███████████▋ | 42/388 [10:501:27:2
4卡输出结果如上图,显存占用如下
---------------------------------------------------------------------------
| 0 NVIDIA A100-SXM... On | 00000000:47:00.0 Off | 0 |
| N/A 60C P0 322W / 400W | 36944MiB / 81920MiB | 89% Default |
| | | Disabled |
---------------------------------------------------------------------------
| 1 NVIDIA A100-SXM... On | 00000000:4B:00.0 Off | 0 |
| N/A 61C P0 321W / 400W | 34204MiB / 81920MiB | 97% Default |
| | | Disabled |
---------------------------------------------------------------------------
| 2 NVIDIA A100-SXM... On | 00000000:89:00.0 Off | 0 |
| N/A 62C P0 349W / 400W | 34200MiB / 81920MiB | 98% Default |
| | | Disabled |
---------------------------------------------------------------------------
| 3 NVIDIA A100-SXM... On | 00000000:8E:00.0 Off | 0 |
| N/A 63C P0 261W / 400W | 33882MiB / 81920MiB | 89% Default |
| | | Disabled |
--------------------------------------------------------------------------- 四 合并模型
1.导出为 HuggingFace 格式
可以下载 Angainor/alpaca-lora-13b · Hugging Face 的lora_weights
修改export_hf_checkpoint.py文件
import osimport torch
import transformers
from peft import PeftModel
from transformers import LlamaForCausalLM, LlamaTokenizer # noqa: F402BASE_MODEL os.environ.get(BASE_MODEL, /disk1/llama-13b)
LORA_MODEL os.environ.get(LORA_MODEL, ./alpaca-lora-13b)
HF_CHECKPOINT os.environ.get(HF_CHECKPOINT, ./hf_ckpt)tokenizer LlamaTokenizer.from_pretrained(BASE_MODEL)base_model LlamaForCausalLM.from_pretrained(BASE_MODEL,load_in_8bitFalse,torch_dtypetorch.float16,device_map{: cpu},
)first_weight base_model.model.layers[0].self_attn.q_proj.weight
first_weight_old first_weight.clone()lora_model PeftModel.from_pretrained(base_model,LORA_MODEL,device_map{: cpu},torch_dtypetorch.float16,
)lora_weight lora_model.base_model.model.model.layers[0
].self_attn.q_proj.weightassert torch.allclose(first_weight_old, first_weight)# merge weights - new merging method from peft
lora_model lora_model.merge_and_unload()lora_model.train(False)# did we do anything?
assert not torch.allclose(first_weight_old, first_weight)lora_model_sd lora_model.state_dict()
deloreanized_sd {k.replace(base_model.model., ): vfor k, v in lora_model_sd.items()if lora not in k
}LlamaForCausalLM.save_pretrained(base_model, HF_CHECKPOINT, state_dictdeloreanized_sd, max_shard_size400MB
)
python export_hf_checkpoint.py
The tokenizer class you load from this checkpoint is not the same type as the class this function is called from. It may result in unexpected tokenization.
The tokenizer class you load from this checkpoint is LLaMATokenizer.
The class this function is called from is LlamaTokenizer.
You are using the legacy behaviour of the class transformers.models.llama.tokenization_llama.LlamaTokenizer. This means that tokens that come after special tokens will not be properly handled. We recommend you to read the related pull request available at https://github.com/huggingface/transformers/pull/24565
Loading checkpoint shards: 100%|█████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 41/41 [00:2600:00, 1.56it/s]
查看模型输出文件
hf_ckpt/
├── config.json
├── generation_config.json
├── pytorch_model-00001-of-00082.bin
├── pytorch_model-00002-of-00082.bin
├── pytorch_model-00003-of-00082.bin
├── pytorch_model-00004-of-00082.bin
├── pytorch_model-00005-of-00082.bin
├── pytorch_model-00006-of-00082.bin
├── pytorch_model-00007-of-00082.bin
├── pytorch_model-00008-of-00082.bin
├── pytorch_model-00009-of-00082.bin
├── pytorch_model-00010-of-00082.bin
├── pytorch_model-00011-of-00082.bin
├── pytorch_model-00012-of-00082.bin
├── pytorch_model-00013-of-00082.bin
├── pytorch_model-00014-of-00082.bin
├── pytorch_model-00015-of-00082.bin
├── pytorch_model-00016-of-00082.bin
├── pytorch_model-00017-of-00082.bin
├── pytorch_model-00018-of-00082.bin
├── pytorch_model-00019-of-00082.bin
├── pytorch_model-00020-of-00082.bin
├── pytorch_model-00021-of-00082.bin
├── pytorch_model-00022-of-00082.bin
├── pytorch_model-00023-of-00082.bin
├── pytorch_model-00024-of-00082.bin
├── pytorch_model-00025-of-00082.bin
├── pytorch_model-00026-of-00082.bin
├── pytorch_model-00027-of-00082.bin
├── pytorch_model-00028-of-00082.bin
├── pytorch_model-00029-of-00082.bin
├── pytorch_model-00030-of-00082.bin
├── pytorch_model-00031-of-00082.bin
├── pytorch_model-00032-of-00082.bin
├── pytorch_model-00033-of-00082.bin
├── pytorch_model-00034-of-00082.bin
├── pytorch_model-00035-of-00082.bin
├── pytorch_model-00036-of-00082.bin
├── pytorch_model-00037-of-00082.bin
├── pytorch_model-00038-of-00082.bin
├── pytorch_model-00039-of-00082.bin
├── pytorch_model-00040-of-00082.bin
├── pytorch_model-00041-of-00082.bin
├── pytorch_model-00042-of-00082.bin
├── pytorch_model-00043-of-00082.bin
├── pytorch_model-00044-of-00082.bin
├── pytorch_model-00045-of-00082.bin
├── pytorch_model-00046-of-00082.bin
├── pytorch_model-00047-of-00082.bin
├── pytorch_model-00048-of-00082.bin
├── pytorch_model-00049-of-00082.bin
├── pytorch_model-00050-of-00082.bin
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└── pytorch_model.bin.index.json0 directories, 85 files
2 导出为PyTorch state_dicts
同理修改export_state_dict_checkpoint.py文件 第五步quantization可选
最后Quantization 可以帮助我们加速模型推理并减少推理所需内存。这方面也有开源的工具可以直接使用。 第六步相关问题
保存检查点checkpoint model时出现显存溢出OOMOut Of Memory
调优过程中遇到保存检查点modelcheckpoint model时出现显存溢出OOMOut Of Memory的问题经过查看issue-CUDA out of memory中的讨论发现是 bitsandbytes 的新版0.38.1存在bug需要将版本退回0.37.2问题解决。 调优结束后adapter_model.bin 没有参数大小为443
这个问题主要是由于alpaca-lora和peft库之间的兼容性问题根据 fix issues to be compatible with latest peft #359 中的讨论来看目前最简单的做法是修改 finetune.py文件具体如下
model.save_pretrained(output_dir) # 原来275行的代码
model.save_pretrained(output_dir,state_dictold_state_dict()) # 修改后的275行的代码 参考文档
LLaMAStanford Alpaca斯坦福-羊驼Alpaca-LoRAGPT fine-tune实战使用 LoRA 技术对 LLaMA 65B 大模型进行微调及推理 - 知乎 (zhihu.com)
