This repository contains the code for BERT-fused NMT, which is introduced in the ICLR-20 submission.
- PyTorch version == 1.0.0/1.1.0
- Python version >= 3.5
Installing from source
To install fairseq from source and develop locally:
git clone https://github.com/bert-nmt/bert-nmt
cd bertnmt
pip install --editable .
First, you should run Fairseq prepaer-xxx.sh to get tokenized&bped files like:
train.en train.de valid.en valid.de test.en test.de
Then you can use makedataforbert.sh to get input file for BERT model (please note that the path is correct). You can get
train.en train.de valid.en valid.de test.en test.de train.bert.en valid.bert.en test.bert.en
Then preprocess data like Fairseq:
python preprocess.py --source-lang src_lng --target-lang tgt_lng \
--trainpref $TEXT/train --validpref $TEXT/valid --testpref $TEXT/test \
--destdir destdir --joined-dictionary --bert-model-name bert-base-uncased
Train a vanilla NMT model using Fairseq
Using data above and standard Fairseq repository, you can get a pretrained NMT model.
The important options we add:
parser.add_argument('--bert-model-name', default='bert-base-uncased', type=str)
parser.add_argument('--warmup-from-nmt', action='store_true', )
parser.add_argument('--warmup-nmt-file', default='checkpoint_nmt.pt', )
parser.add_argument('--encoder-bert-dropout', action='store_true',)
parser.add_argument('--encoder-bert-dropout-ratio', default=0.25, type=float)
-
--bert-model-namespecify the BERT model name, provided in file. -
--warmup-from-nmtindicate you will also use a pretrained NMT model to train your BERT-fused NMT model. If you this option, we suggest you use--reset-lr-scheduler, too. -
--warmup-nmt-filespecify the NMT model name (in your $savedir). -
--encoder-bert-dropoutindicate you will use drop-net trick. -
--encoder-bert-dropout-ratiospecify the ratio ($\in [0, 0.5]$ ) used in drop-net. This is a training script example:
#!/usr/bin/env bash
nvidia-smi
cd /yourpath/bertnmt
python3 -c "import torch; print(torch.__version__)"
src=en
tgt=de
bedropout=0.5
ARCH=transformer_s2_iwslt_de_en
DATAPATH=/yourdatapath
SAVEDIR=checkpoints/iwed_${src}_${tgt}_${bedropout}
mkdir -p $SAVEDIR
if [ ! -f $SAVEDIR/checkpoint_nmt.pt ]
then
cp /your_pretrained_nmt_model $SAVEDIR/checkpoint_nmt.pt
fi
if [ ! -f "$SAVEDIR/checkpoint_last.pt" ]
then
warmup="--warmup-from-nmt --reset-lr-scheduler"
else
warmup=""
fi
python train.py $DATAPATH \
-a $ARCH --optimizer adam --lr 0.0005 -s $src -t $tgt --label-smoothing 0.1 \
--dropout 0.3 --max-tokens 4000 --min-lr '1e-09' --lr-scheduler inverse_sqrt --weight-decay 0.0001 \
--criterion label_smoothed_cross_entropy --max-update 150000 --warmup-updates 4000 --warmup-init-lr '1e-07' \
--adam-betas '(0.9,0.98)' --save-dir $SAVEDIR --share-all-embeddings $warmup \
--encoder-bert-dropout --encoder-bert-dropout-ratio $bedropout | tee -a $SAVEDIR/training.log
Using the generate.py to test model is the same as the Fairseq, but you should add --bert-model-name to indicate your BERT model name.
Using the interactive.py to test model is a little different from the Fairseq. You should follow this procedure:
sed -r 's/(@@ )|(@@ ?$)//g' $bpefile > $bpefile.debpe
$MOSE/scripts/tokenizer/detokenizer.perl -l $src < $bpefile.debpe > $bpefile.debpe.detok
paste -d "\n" $bpefile $bpefile.debpe.detok > $bpefile.in
cat $bpefile.in | python interactive.py -s $src -t $tgt \
--buffer-size 1024 --batch-size 128 --beam 5 --remove-bpe > output.log