Loading Google AI or OpenAI pre-trained weights or PyTorch dump

from_pretrained() method

To load one of Google AI’s, OpenAI’s pre-trained models or a PyTorch saved model (an instance of BertForPreTraining saved with torch.save()), the PyTorch model classes and the tokenizer can be instantiated using the from_pretrained() method:

model = BERT_CLASS.from_pretrained(PRE_TRAINED_MODEL_NAME_OR_PATH, cache_dir=None, from_tf=False, state_dict=None, *input, **kwargs)

where

  • BERT_CLASS is either a tokenizer to load the vocabulary (BertTokenizer or OpenAIGPTTokenizer classes) or one of the eight BERT or three OpenAI GPT PyTorch model classes (to load the pre-trained weights): BertModel, BertForMaskedLM, BertForNextSentencePrediction, BertForPreTraining, BertForSequenceClassification, BertForTokenClassification, BertForMultipleChoice, BertForQuestionAnswering, OpenAIGPTModel, OpenAIGPTLMHeadModel or OpenAIGPTDoubleHeadsModel, and

  • PRE_TRAINED_MODEL_NAME_OR_PATH is either:

    • the shortcut name of a Google AI’s or OpenAI’s pre-trained model selected in the list:

      • bert-base-uncased: 12-layer, 768-hidden, 12-heads, 110M parameters

      • bert-large-uncased: 24-layer, 1024-hidden, 16-heads, 340M parameters

      • bert-base-cased: 12-layer, 768-hidden, 12-heads , 110M parameters

      • bert-large-cased: 24-layer, 1024-hidden, 16-heads, 340M parameters

      • bert-base-multilingual-uncased: (Orig, not recommended) 102 languages, 12-layer, 768-hidden, 12-heads, 110M parameters

      • bert-base-multilingual-cased: (New, recommended) 104 languages, 12-layer, 768-hidden, 12-heads, 110M parameters

      • bert-base-chinese: Chinese Simplified and Traditional, 12-layer, 768-hidden, 12-heads, 110M parameters

      • bert-base-german-cased: Trained on German data only, 12-layer, 768-hidden, 12-heads, 110M parameters Performance Evaluation

      • bert-large-uncased-whole-word-masking: 24-layer, 1024-hidden, 16-heads, 340M parameters - Trained with Whole Word Masking (mask all of the the tokens corresponding to a word at once)

      • bert-large-cased-whole-word-masking: 24-layer, 1024-hidden, 16-heads, 340M parameters - Trained with Whole Word Masking (mask all of the the tokens corresponding to a word at once)

      • bert-large-uncased-whole-word-masking-finetuned-squad: The bert-large-uncased-whole-word-masking model finetuned on SQuAD (using the run_bert_squad.py examples). Results: exact_match: 86.91579943235573, f1: 93.1532499015869

      • bert-base-german-dbmdz-cased: Trained on German data only, 12-layer, 768-hidden, 12-heads, 110M parameters Performance Evaluation

      • bert-base-german-dbmdz-uncased: Trained on (uncased) German data only, 12-layer, 768-hidden, 12-heads, 110M parameters Performance Evaluation

      • openai-gpt: OpenAI GPT English model, 12-layer, 768-hidden, 12-heads, 110M parameters

      • gpt2: OpenAI GPT-2 English model, 12-layer, 768-hidden, 12-heads, 117M parameters

      • gpt2-medium: OpenAI GPT-2 English model, 24-layer, 1024-hidden, 16-heads, 345M parameters

      • transfo-xl-wt103: Transformer-XL English model trained on wikitext-103, 18-layer, 1024-hidden, 16-heads, 257M parameters

    • a path or url to a pretrained model archive containing:

      • bert_config.json or openai_gpt_config.json a configuration file for the model, and

      • pytorch_model.bin a PyTorch dump of a pre-trained instance of BertForPreTraining, OpenAIGPTModel, TransfoXLModel, GPT2LMHeadModel (saved with the usual torch.save())

    If PRE_TRAINED_MODEL_NAME_OR_PATH is a shortcut name, the pre-trained weights will be downloaded from AWS S3 (see the links here) and stored in a cache folder to avoid future download (the cache folder can be found at ~/.pytorch_pretrained_bert/).

  • cache_dir can be an optional path to a specific directory to download and cache the pre-trained model weights. This option is useful in particular when you are using distributed training: to avoid concurrent access to the same weights you can set for example cache_dir='./pretrained_model_{}'.format(args.local_rank) (see the section on distributed training for more information).

  • from_tf: should we load the weights from a locally saved TensorFlow checkpoint

  • state_dict: an optional state dictionary (collections.OrderedDict object) to use instead of Google pre-trained models

  • *inputs, **kwargs: additional input for the specific Bert class (ex: num_labels for BertForSequenceClassification)

Uncased means that the text has been lowercased before WordPiece tokenization, e.g., John Smith becomes john smith. The Uncased model also strips out any accent markers. Cased means that the true case and accent markers are preserved. Typically, the Uncased model is better unless you know that case information is important for your task (e.g., Named Entity Recognition or Part-of-Speech tagging). For information about the Multilingual and Chinese model, see the Multilingual README or the original TensorFlow repository.

When using an uncased model, make sure to pass --do_lower_case to the example training scripts (or pass do_lower_case=True to FullTokenizer if you’re using your own script and loading the tokenizer your-self.).

Examples:

# BERT
tokenizer = BertTokenizer.from_pretrained('bert-base-uncased', do_lower_case=True, do_basic_tokenize=True)
model = BertForSequenceClassification.from_pretrained('bert-base-uncased')

# OpenAI GPT
tokenizer = OpenAIGPTTokenizer.from_pretrained('openai-gpt')
model = OpenAIGPTModel.from_pretrained('openai-gpt')

# Transformer-XL
tokenizer = TransfoXLTokenizer.from_pretrained('transfo-xl-wt103')
model = TransfoXLModel.from_pretrained('transfo-xl-wt103')

# OpenAI GPT-2
tokenizer = GPT2Tokenizer.from_pretrained('gpt2')
model = GPT2Model.from_pretrained('gpt2')

Cache directory

pytorch_pretrained_bert save the pretrained weights in a cache directory which is located at (in this order of priority):

  • cache_dir optional arguments to the from_pretrained() method (see above),

  • shell environment variable PYTORCH_PRETRAINED_BERT_CACHE,

  • PyTorch cache home + /pytorch_pretrained_bert/ where PyTorch cache home is defined by (in this order):

    • shell environment variable ENV_TORCH_HOME

    • shell environment variable ENV_XDG_CACHE_HOME + /torch/)

    • default: ~/.cache/torch/

Usually, if you don’t set any specific environment variable, pytorch_pretrained_bert cache will be at ~/.cache/torch/pytorch_pretrained_bert/.

You can alsways safely delete pytorch_pretrained_bert cache but the pretrained model weights and vocabulary files wil have to be re-downloaded from our S3.

Serialization best-practices

This section explain how you can save and re-load a fine-tuned model (BERT, GPT, GPT-2 and Transformer-XL). There are three types of files you need to save to be able to reload a fine-tuned model:

  • the model itself which should be saved following PyTorch serialization best practices,

  • the configuration file of the model which is saved as a JSON file, and

  • the vocabulary (and the merges for the BPE-based models GPT and GPT-2).

The default filenames of these files are as follow:

  • the model weights file: pytorch_model.bin,

  • the configuration file: config.json,

  • the vocabulary file: vocab.txt for BERT and Transformer-XL, vocab.json for GPT/GPT-2 (BPE vocabulary),

  • for GPT/GPT-2 (BPE vocabulary) the additional merges file: merges.txt.

If you save a model using these *default filenames*, you can then re-load the model and tokenizer using the ``from_pretrained()`` method.

Here is the recommended way of saving the model, configuration and vocabulary to an output_dir directory and reloading the model and tokenizer afterwards:

from transformers import WEIGHTS_NAME, CONFIG_NAME

output_dir = "./models/"

# Step 1: Save a model, configuration and vocabulary that you have fine-tuned

# If we have a distributed model, save only the encapsulated model
# (it was wrapped in PyTorch DistributedDataParallel or DataParallel)
model_to_save = model.module if hasattr(model, 'module') else model

# If we save using the predefined names, we can load using `from_pretrained`
output_model_file = os.path.join(output_dir, WEIGHTS_NAME)
output_config_file = os.path.join(output_dir, CONFIG_NAME)

torch.save(model_to_save.state_dict(), output_model_file)
model_to_save.config.to_json_file(output_config_file)
tokenizer.save_vocabulary(output_dir)

# Step 2: Re-load the saved model and vocabulary

# Example for a Bert model
model = BertForQuestionAnswering.from_pretrained(output_dir)
tokenizer = BertTokenizer.from_pretrained(output_dir, do_lower_case=args.do_lower_case)  # Add specific options if needed
# Example for a GPT model
model = OpenAIGPTDoubleHeadsModel.from_pretrained(output_dir)
tokenizer = OpenAIGPTTokenizer.from_pretrained(output_dir)

Here is another way you can save and reload the model if you want to use specific paths for each type of files:

output_model_file = "./models/my_own_model_file.bin"
output_config_file = "./models/my_own_config_file.bin"
output_vocab_file = "./models/my_own_vocab_file.bin"

# Step 1: Save a model, configuration and vocabulary that you have fine-tuned

# If we have a distributed model, save only the encapsulated model
# (it was wrapped in PyTorch DistributedDataParallel or DataParallel)
model_to_save = model.module if hasattr(model, 'module') else model

torch.save(model_to_save.state_dict(), output_model_file)
model_to_save.config.to_json_file(output_config_file)
tokenizer.save_vocabulary(output_vocab_file)

# Step 2: Re-load the saved model and vocabulary

# We didn't save using the predefined WEIGHTS_NAME, CONFIG_NAME names, we cannot load using `from_pretrained`.
# Here is how to do it in this situation:

# Example for a Bert model
config = BertConfig.from_json_file(output_config_file)
model = BertForQuestionAnswering(config)
state_dict = torch.load(output_model_file)
model.load_state_dict(state_dict)
tokenizer = BertTokenizer(output_vocab_file, do_lower_case=args.do_lower_case)

# Example for a GPT model
config = OpenAIGPTConfig.from_json_file(output_config_file)
model = OpenAIGPTDoubleHeadsModel(config)
state_dict = torch.load(output_model_file)
model.load_state_dict(state_dict)
tokenizer = OpenAIGPTTokenizer(output_vocab_file)