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ERNIE-Pytorch

This project is to convert ERNIE to huggingface's format.

ERNIE is based on the Bert model and has better performance on Chinese NLP tasks.

How to use

You can use the version I have converted or convert it by yourself.

Directly Download

Directly download has converted ERNIE model from here and unzip, you will get:

ERNIE/
├── bert_config.json
├── pytorch_model.bin
└── vocab.txt

Convert by yourself

  1. Download the paddle-paddle version ERNIE model,config and vocab from here and move to this project path.

  2. check the add_argument in convert_ernie_to_pytorch.py and run python convert_ernie_to_pytorch.py, you can get the log:

===================extract weights start====================
model config:
attention_probs_dropout_prob: 0.1
hidden_act: relu
hidden_dropout_prob: 0.1
hidden_size: 768
initializer_range: 0.02
max_position_embeddings: 513
num_attention_heads: 12
num_hidden_layers: 12
type_vocab_size: 2
vocab_size: 18000
------------------------------------------------
word_embedding -> bert.embeddings.word_embeddings.weight (18000, 768)
pos_embedding -> bert.embeddings.position_embeddings.weight (513, 768)
sent_embedding -> bert.embeddings.token_type_embeddings.weight (2, 768)
pre_encoder_layer_norm_scale -> bert.embeddings.LayerNorm.gamma (768,)
pre_encoder_layer_norm_bias -> bert.embeddings.LayerNorm.beta (768,)
encoder_layer_0_multi_head_att_query_fc.w_0 -> bert.encoder.layer.0.attention.self.query.weight (768, 768)
encoder_layer_0_multi_head_att_query_fc.b_0 -> bert.encoder.layer.0.attention.self.query.bias (768,)
encoder_layer_0_multi_head_att_key_fc.w_0 -> bert.encoder.layer.0.attention.self.key.weight (768, 768)
encoder_layer_0_multi_head_att_key_fc.b_0 -> bert.encoder.layer.0.attention.self.key.bias (768,)
encoder_layer_0_multi_head_att_value_fc.w_0 -> bert.encoder.layer.0.attention.self.value.weight (768, 768)
encoder_layer_0_multi_head_att_value_fc.b_0 -> bert.encoder.layer.0.attention.self.value.bias (768,)
encoder_layer_0_multi_head_att_output_fc.w_0 -> bert.encoder.layer.0.attention.output.dense.weight (768, 768)
encoder_layer_0_multi_head_att_output_fc.b_0 -> bert.encoder.layer.0.attention.output.dense.bias (768,)
encoder_layer_0_post_att_layer_norm_bias -> bert.encoder.layer.0.attention.output.LayerNorm.bias (768,)
encoder_layer_0_post_att_layer_norm_scale -> bert.encoder.layer.0.attention.output.LayerNorm.weight (768,)
encoder_layer_0_ffn_fc_0.w_0 -> bert.encoder.layer.0.intermediate.dense.weight (3072, 768)
encoder_layer_0_ffn_fc_0.b_0 -> bert.encoder.layer.0.intermediate.dense.bias (3072,)
encoder_layer_0_ffn_fc_1.w_0 -> bert.encoder.layer.0.output.dense.weight (768, 3072)
encoder_layer_0_ffn_fc_1.b_0 -> bert.encoder.layer.0.output.dense.bias (768,)
encoder_layer_0_post_ffn_layer_norm_bias -> bert.encoder.layer.0.output.LayerNorm.bias (768,)
encoder_layer_0_post_ffn_layer_norm_scale -> bert.encoder.layer.0.output.LayerNorm.weight (768,)
.......
encoder_layer_11_multi_head_att_query_fc.w_0 -> bert.encoder.layer.11.attention.self.query.weight (768, 768)
encoder_layer_11_multi_head_att_query_fc.b_0 -> bert.encoder.layer.11.attention.self.query.bias (768,)
encoder_layer_11_multi_head_att_key_fc.w_0 -> bert.encoder.layer.11.attention.self.key.weight (768, 768)
encoder_layer_11_multi_head_att_key_fc.b_0 -> bert.encoder.layer.11.attention.self.key.bias (768,)
encoder_layer_11_multi_head_att_value_fc.w_0 -> bert.encoder.layer.11.attention.self.value.weight (768, 768)
encoder_layer_11_multi_head_att_value_fc.b_0 -> bert.encoder.layer.11.attention.self.value.bias (768,)
encoder_layer_11_multi_head_att_output_fc.w_0 -> bert.encoder.layer.11.attention.output.dense.weight (768, 768)
encoder_layer_11_multi_head_att_output_fc.b_0 -> bert.encoder.layer.11.attention.output.dense.bias (768,)
encoder_layer_11_post_att_layer_norm_bias -> bert.encoder.layer.11.attention.output.LayerNorm.bias (768,)
encoder_layer_11_post_att_layer_norm_scale -> bert.encoder.layer.11.attention.output.LayerNorm.weight (768,)
encoder_layer_11_ffn_fc_0.w_0 -> bert.encoder.layer.11.intermediate.dense.weight (3072, 768)
encoder_layer_11_ffn_fc_0.b_0 -> bert.encoder.layer.11.intermediate.dense.bias (3072,)
encoder_layer_11_ffn_fc_1.w_0 -> bert.encoder.layer.11.output.dense.weight (768, 3072)
encoder_layer_11_ffn_fc_1.b_0 -> bert.encoder.layer.11.output.dense.bias (768,)
encoder_layer_11_post_ffn_layer_norm_bias -> bert.encoder.layer.11.output.LayerNorm.bias (768,)
encoder_layer_11_post_ffn_layer_norm_scale -> bert.encoder.layer.11.output.LayerNorm.weight (768,)
pooled_fc.w_0 -> bert.pooler.dense.weight (768, 768)
pooled_fc.b_0 -> bert.pooler.dense.bias (768,)
====================extract weights done!===================
======================save model start======================
finish save model
finish save config
finish save vocab
======================save model done!======================

Test

import torch
from pytorch_pretrained_bert import BertTokenizer, BertModel

# Load pre-trained model tokenizer (vocabulary)
tokenizer = BertTokenizer.from_pretrained('./ERNIE')

# Tokenized input
text = "[CLS] 这 是 百度 的 ERNIE 模型 [SEP]"
tokenized_text = tokenizer.tokenize(text)

# Convert token to vocabulary indices
indexed_tokens = tokenizer.convert_tokens_to_ids(tokenized_text)

print('indexed_tokens', indexed_tokens)
print('token length', len(indexed_tokens))

segments_ids = [0] * len(indexed_tokens)

# Convert inputs to PyTorch tensors
tokens_tensor = torch.tensor([indexed_tokens])
segments_tensors = torch.tensor([segments_ids])

# Load pre-trained model (weights)
model = BertModel.from_pretrained('./ERNIE')
model.eval()

# Predict hidden states features for each layer
with torch.no_grad():
    encoded_layers, _ = model(tokens_tensor, segments_tensors)
# We have a hidden states for each of the 12 layers in model bert-base-uncased
assert len(encoded_layers) == 12

print('last layer shape', encoded_layers[-1].shape, 'and value is ')
print(encoded_layers[-1])

"""
indexed_tokens [1, 47, 10, 502, 130, 5, 9150, 10490, 469, 289, 2]
token length 11
last layer shape torch.Size([1, 11, 768]) and value is
tensor([[[ -0.3116,   0.4061,  -0.8272,  ...,  -0.9734,  -1.0078,  -0.3976],
         [  0.7068,  -0.2950,  -0.0637,  ...,  -0.2928,  -0.6499,  -1.8806],
         [  0.1266,   0.0512,   0.4579,  ...,  -0.6819,  -0.5113,  -3.4221],
         ...,
         [  0.6971,  -0.0681,   0.3795,  ...,   0.1983,  -0.3936,  -0.8244],
         [ -0.4181,  -0.3663,   0.4874,  ...,   0.4876,  -0.0783,  -2.6979],
         [ -0.3116,   0.4061,  -0.8272,  ...,  -0.9734,  -1.0078,  -0.3976]]])
"""

Citation

If you use this work in a scientific publication, I would appreciate references to the following BibTex entry:

@misc{nghuyong2019@ERNIE-Pytorch,
  title={ERNIEPytorch},
  author={Yong Hu},
  howpublished={\url{https://github.com/nghuyong/ERNIE-Pytorch}},
  year={2019}
}

Reference

  1. https://arxiv.org/abs/1904.09223
  2. PaddlePaddle/ERNIE#37 (comment)

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