Historic Language Models (HLMs)

Languages

Our Historic Language Models Zoo contains support for the following languages - incl. their training data source:

Language Training data Size
German Europeana 13-28GB (filtered)
French Europeana 11-31GB (filtered)
English British Library 24GB (year filtered)
Finnish Europeana 1.2GB
Swedish Europeana 1.1GB

Models

At the moment, the following models are available on the model hub:

Model identifier Model Hub link
dbmdz/bert-base-historic-multilingual-cased here
dbmdz/bert-base-historic-english-cased here
dbmdz/bert-base-finnish-europeana-cased here
dbmdz/bert-base-swedish-europeana-cased here

We also released smaller models for the multilingual model:

Model identifier Model Hub link
dbmdz/bert-tiny-historic-multilingual-cased here
dbmdz/bert-mini-historic-multilingual-cased here
dbmdz/bert-small-historic-multilingual-cased here
dbmdz/bert-medium-historic-multilingual-cased here

Notice: We have released language models for Historic German and French trained on more noisier data earlier - see this repo for more information:

Model identifier Model Hub link
dbmdz/bert-base-german-europeana-cased here
dbmdz/bert-base-french-europeana-cased here

Corpora Stats

German Europeana Corpus

We provide some statistics using different thresholds of ocr confidences, in order to shrink down the corpus size and use less-noisier data:

OCR confidence Size
0.60 28GB
0.65 18GB
0.70 13GB

For the final corpus we use a OCR confidence of 0.6 (28GB). The following plot shows a tokens per year distribution:

German Europeana Corpus Stats

French Europeana Corpus

Like German, we use different ocr confidence thresholds:

OCR confidence Size
0.60 31GB
0.65 27GB
0.70 27GB
0.75 23GB
0.80 11GB

For the final corpus we use a OCR confidence of 0.7 (27GB). The following plot shows a tokens per year distribution:

French Europeana Corpus Stats

British Library Corpus

Metadata is taken from here. Stats incl. year filtering:

Years Size
ALL 24GB
>= 1800 && < 1900 24GB

We use the year filtered variant. The following plot shows a tokens per year distribution:

British Library Corpus Stats

Finnish Europeana Corpus

OCR confidence Size
0.60 1.2GB

The following plot shows a tokens per year distribution:

Finnish Europeana Corpus Stats

Swedish Europeana Corpus

OCR confidence Size
0.60 1.1GB

The following plot shows a tokens per year distribution:

Swedish Europeana Corpus Stats

All Corpora

The following plot shows a tokens per year distribution of the complete training corpus:

All Corpora Stats

Multilingual Vocab generation

For the first attempt, we use the first 10GB of each pretraining corpus. We upsample both Finnish and Swedish to ~10GB. The following tables shows the exact size that is used for generating a 32k and 64k subword vocabs:

Language Size
German 10GB
French 10GB
English 10GB
Finnish 9.5GB
Swedish 9.7GB

We then calculate the subword fertility rate and portion of [UNK]s over the following NER corpora:

Language NER corpora
German CLEF-HIPE, NewsEye
French CLEF-HIPE, NewsEye
English CLEF-HIPE
Finnish NewsEye
Swedish NewsEye

Breakdown of subword fertility rate and unknown portion per language for the 32k vocab:

Language Subword fertility Unknown portion
German 1.43 0.0004
French 1.25 0.0001
English 1.25 0.0
Finnish 1.69 0.0007
Swedish 1.43 0.0

Breakdown of subword fertility rate and unknown portion per language for the 64k vocab:

Language Subword fertility Unknown portion
German 1.31 0.0004
French 1.16 0.0001
English 1.17 0.0
Finnish 1.54 0.0007
Swedish 1.32 0.0

Final pretraining corpora

We upsample Swedish and Finnish to ~27GB. The final stats for all pretraining corpora can be seen here:

Language Size
German 28GB
French 27GB
English 24GB
Finnish 27GB
Swedish 27GB

Total size is 130GB.

Smaller multilingual models

Inspired by the "Well-Read Students Learn Better: On the Importance of Pre-training Compact Models" paper, we train smaller models (different layers and hidden sizes), and report number of parameters and pre-training costs:

Model (Layer / Hidden size) Parameters Pre-Training time
hmBERT Tiny ( 2/128) 4.58M 4.3 sec / 1,000 steps
hmBERT Mini ( 4/256) 11.55M 10.5 sec / 1,000 steps
hmBERT Small ( 4/512) 29.52M 20.7 sec / 1,000 steps
hmBERT Medium ( 8/512) 42.13M 35.0 sec / 1,000 steps
hmBERT Base (12/768) 110.62M 80.0 sec / 1,000 steps

We then perform downstream evaluations on the multilingual NewsEye dataset:

NewsEye hmBERT Evaluation

Pretraining

Multilingual model - hmBERT Base

We train a multilingual BERT model using the 32k vocab with the official BERT implementation on a v3-32 TPU using the following parameters:

python3 run_pretraining.py --input_file gs://histolectra/historic-multilingual-tfrecords/*.tfrecord \
--output_dir gs://histolectra/bert-base-historic-multilingual-cased \
--bert_config_file ./config.json \
--max_seq_length=512 \
--max_predictions_per_seq=75 \
--do_train=True \
--train_batch_size=128 \
--num_train_steps=3000000 \
--learning_rate=1e-4 \
--save_checkpoints_steps=100000 \
--keep_checkpoint_max=20 \
--use_tpu=True \
--tpu_name=electra-2 \
--num_tpu_cores=32

The following plot shows the pretraining loss curve:

Training loss curve

Smaller multilingual models

We use the same parameters as used for training the base model.

hmBERT Tiny

The following plot shows the pretraining loss curve for the tiny model:

Training loss curve

hmBERT Mini

The following plot shows the pretraining loss curve for the mini model:

Training loss curve

hmBERT Small

The following plot shows the pretraining loss curve for the small model:

Training loss curve

hmBERT Medium

The following plot shows the pretraining loss curve for the medium model:

Training loss curve

English model

The English BERT model - with texts from British Library corpus - was trained with the Hugging Face JAX/FLAX implementation for 10 epochs (approx. 1M steps) on a v3-8 TPU, using the following command:

python3 run_mlm_flax.py --model_type bert \
--config_name /mnt/datasets/bert-base-historic-english-cased/ \
--tokenizer_name /mnt/datasets/bert-base-historic-english-cased/ \
--train_file /mnt/datasets/bl-corpus/bl_1800-1900_extracted.txt \
--validation_file /mnt/datasets/bl-corpus/english_validation.txt \
--max_seq_length 512 \
--per_device_train_batch_size 16 \
--learning_rate 1e-4 \
--num_train_epochs 10 \
--preprocessing_num_workers 96 \
--output_dir /mnt/datasets/bert-base-historic-english-cased-512-noadafactor-10e \
--save_steps 2500 \
--eval_steps 2500 \
--warmup_steps 10000 \
--line_by_line \
--pad_to_max_length

The following plot shows the pretraining loss curve:

Training loss curve

Finnish model

The BERT model - with texts from Finnish part of Europeana - was trained with the Hugging Face JAX/FLAX implementation for 40 epochs (approx. 1M steps) on a v3-8 TPU, using the following command:

python3 run_mlm_flax.py --model_type bert \
--config_name /mnt/datasets/bert-base-finnish-europeana-cased/ \
--tokenizer_name /mnt/datasets/bert-base-finnish-europeana-cased/ \
--train_file /mnt/datasets/hlms/extracted_content_Finnish_0.6.txt \
--validation_file /mnt/datasets/hlms/finnish_validation.txt \
--max_seq_length 512 \
--per_device_train_batch_size 16 \
--learning_rate 1e-4 \
--num_train_epochs 40 \
--preprocessing_num_workers 96 \
--output_dir /mnt/datasets/bert-base-finnish-europeana-cased-512-dupe1-noadafactor-40e \
--save_steps 2500 \
--eval_steps 2500 \
--warmup_steps 10000 \
--line_by_line \
--pad_to_max_length

The following plot shows the pretraining loss curve:

Training loss curve

Swedish model

The BERT model - with texts from Swedish part of Europeana - was trained with the Hugging Face JAX/FLAX implementation for 40 epochs (approx. 660K steps) on a v3-8 TPU, using the following command:

python3 run_mlm_flax.py --model_type bert \
--config_name /mnt/datasets/bert-base-swedish-europeana-cased/ \
--tokenizer_name /mnt/datasets/bert-base-swedish-europeana-cased/ \
--train_file /mnt/datasets/hlms/extracted_content_Swedish_0.6.txt \
--validation_file /mnt/datasets/hlms/swedish_validation.txt \
--max_seq_length 512 \
--per_device_train_batch_size 16 \
--learning_rate 1e-4 \
--num_train_epochs 40 \
--preprocessing_num_workers 96 \
--output_dir /mnt/datasets/bert-base-swedish-europeana-cased-512-dupe1-noadafactor-40e \
--save_steps 2500 \
--eval_steps 2500 \
--warmup_steps 10000 \
--line_by_line \
--pad_to_max_length

The following plot shows the pretraining loss curve:

Training loss curve

Acknowledgments

Research supported with Cloud TPUs from Google's TPU Research Cloud (TRC) program, previously known as TensorFlow Research Cloud (TFRC). Many thanks for providing access to the TRC ❤️

Thanks to the generous support from the Hugging Face team, it is possible to download both cased and uncased models from their S3 storage 🤗

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