History

Ilias Chalkidis ab1238393c Update to include example of LM The model files have been updated in order to include the classification layers, based on https://github.com/huggingface/transformers/issues/2901, and now can be also used as a LM.		2020-02-20 10:57:59 -05:00
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README.md	Update to include example of LM	2020-02-20 10:57:59 -05:00

README.md

language	thumbnail
greek	https://github.com/nlpaueb/GreekBERT/raw/master/greek-bert-logo.png

GreekBERT

A Greek version of BERT pre-trained language model.

Pre-training corpora

The pre-training corpora of bert-base-greek-uncased-v1 include:

The Greek part of Wikipedia,
The Greek part of European Parliament Proceedings Parallel Corpus, and
The Greek part of OSCAR, a cleansed version of Common Crawl.

Future release will also include:

The entire corpus of Greek legislation, as published by the National Publication Office,
The entire corpus of EU legislation (Greek translation), as published in Eur-Lex.

Pre-training details

We trained BERT using the official code provided in Google BERT's github repository (https://github.com/google-research/bert). We then used Hugging Face's Transformers conversion script to convert the TF checkpoint and vocabulary in the desirable format in order to be able to load the model in two lines of code for both PyTorch and TF2 users.
We released a model similar to the English bert-base-uncased model (12-layer, 768-hidden, 12-heads, 110M parameters).
We chose to follow the same training set-up: 1 million training steps with batches of 256 sequences of length 512 with an initial learning rate 1e-4.
We were able to use a single Google Cloud TPU v3-8 provided for free from TensorFlow Research Cloud (TFRC), while also utilizing GCP research credits. Huge thanks to both Google programs for supporting us!

Requirements

We published bert-base-greek-uncased-v1 as part of Hugging Face's Transformers repository. So, you need to install the transfomers library through pip along with PyTorch or Tensorflow 2.

pip install transfomers
pip install (torch|tensorflow)

Pre-process text (Deaccent - Lower)

In order to use bert-base-greek-uncased-v1, you have to pre-process texts to lowercase letters and remove all Greek diacritics.


import unicodedata

def strip_accents_and_lowercase(s):
   return ''.join(c for c in unicodedata.normalize('NFD', s)
                  if unicodedata.category(c) != 'Mn').lower()

accented_string = "Αυτή είναι η Ελληνική έκδοση του BERT."
unaccented_string = strip_accents_and_lowercase(accented_string)

print(unaccented_string) # αυτη ειναι η ελληνικη εκδοση του bert.

Load Pretrained Model

from transformers import AutoTokenizer, AutoModel

tokenizer = AutoTokenizer.from_pretrained("nlpaueb/bert-base-greek-uncased-v1")
model = AutoModel.from_pretrained("nlpaueb/bert-base-greek-uncased-v1")

Use Pretrained Model as a Language Model

import torch
from transformers import *

# Load model and tokenizer
tokenizer_greek = AutoTokenizer.from_pretrained('nlpaueb/bert-base-greek-uncased-v1')
lm_model_greek = AutoModelWithLMHead.from_pretrained('nlpaueb/bert-base-greek-uncased-v1')

# ================ EXAMPLE 1 ================
text_1 = 'O ποιητής έγραψε ένα [MASK] .'
# EN: 'The poet wrote a [MASK].'
input_ids = tokenizer_greek.encode(text_1)
print(tokenizer_greek.convert_ids_to_tokens(input_ids))
# ['[CLS]', 'o', 'ποιητης', 'εγραψε', 'ενα', '[MASK]', '.', '[SEP]']
outputs = lm_model_greek(torch.tensor([input_ids]))[0]
print(tokenizer_greek.convert_ids_to_tokens(outputs[0, 5].max(0)[1].item()))
# the most plausible prediction for [MASK] is "song"

# ================ EXAMPLE 2 ================
text_2 = 'Είναι ένας [MASK] άνθρωπος.'
# EN: 'He is a [MASK] person.'
input_ids = tokenizer_greek.encode(text_1)
print(tokenizer_greek.convert_ids_to_tokens(input_ids))
# ['[CLS]', 'ειναι', 'ενας', '[MASK]', 'ανθρωπος', '.', '[SEP]']
outputs = lm_model_greek(torch.tensor([input_ids]))[0]
print(tokenizer_greek.convert_ids_to_tokens(outputs[0, 3].max(0)[1].item()))
# the most plausible prediction for [MASK] is "good"

# ================ EXAMPLE 3 ================
text_3 = 'Είναι ένας [MASK] άνθρωπος και κάνει συχνά [MASK].'
# EN: 'He is a [MASK] person he does frequently [MASK].'
input_ids = tokenizer_greek.encode(text_3)
print(tokenizer_greek.convert_ids_to_tokens(input_ids))
# ['[CLS]', 'ειναι', 'ενας', '[MASK]', 'ανθρωπος', 'και', 'κανει', 'συχνα', '[MASK]', '.', '[SEP]']
outputs = lm_model_greek(torch.tensor([input_ids]))[0]
print(tokenizer_greek.convert_ids_to_tokens(outputs[0, 8].max(0)[1].item()))
# the most plausible prediction for the second [MASK] is "trips"

Evaluation on downstream tasks

TBA

Author

Ilias Chalkidis on behalf of AUEB's Natural Language Processing Group

| Github: @ilias.chalkidis | Twitter: @KiddoThe2B |

About Us

AUEB's Natural Language Processing Group develops algorithms, models, and systems that allow computers to process and generate natural language texts.

The group's current research interests include:

question answering systems for databases, ontologies, document collections, and the Web, especially biomedical question answering,
natural language generation from databases and ontologies, especially Semantic Web ontologies, text classification, including filtering spam and abusive content,
information extraction and opinion mining, including legal text analytics and sentiment analysis,
natural language processing tools for Greek, for example parsers and named-entity recognizers, machine learning in natural language processing, especially deep learning.

The group is part of the Information Processing Laboratory of the Department of Informatics of the Athens University of Economics and Business.