conda install pytorch torchvision torchaudio pytorch-cuda=11.6 -c pytorch -c nvidia

Contrastive Learning for Many-to-many Multilingual Neural Machine Translation(mCOLT/mRASP2), ACL2021

The code for training mCOLT/mRASP2, a multilingual neural machine translation training method, implemented based on fairseq.

mRASP2: paper blog

mRASP: paper, code

News

We have released two versions, this version is the original one. In this implementation:

You should first merge all data, by pre-pending language token before each sentence to indicate the language.
AA/RAS must be done off-line (before binarize), check this toolkit.

New implementation: https://github.com/PANXiao1994/mRASP2/tree/new_impl

Acknowledgement: This work is supported by Bytedance. We thank Chengqi for uploading all files and checkpoints.

Introduction

mRASP2/mCOLT, representing multilingual Contrastive Learning for Transformer, is a multilingual neural machine translation model that supports complete many-to-many multilingual machine translation. It employs both parallel corpora and multilingual corpora in a unified training framework. For detailed information please refer to the paper.

Pre-requisite

pip install -r requirements.txt
# install fairseq
git clone https://github.com/pytorch/fairseq
cd fairseq
pip install --editable ./

Training Data and Checkpoints

We release our preprocessed training data and checkpoints in the following.

Dataset

We merge 32 English-centric language pairs, resulting in 64 directed translation pairs in total. The original 32 language pairs corpus contains about 197M pairs of sentences. We get about 262M pairs of sentences after applying RAS, since we keep both the original sentences and the substituted sentences. We release both the original dataset and dataset after applying RAS.

Dataset	#Pair
32-lang-pairs-TRAIN	197603294
32-lang-pairs-RAS-TRAIN	262662792
mono-split-a	-
mono-split-b	-
mono-split-c	-
mono-split-d	-
mono-split-e	-
mono-split-de-fr-en	-
mono-split-nl-pl-pt	-
32-lang-pairs-DEV-en-centric	-
32-lang-pairs-DEV-many-to-many	-
Vocab	-
BPE Code	-

Checkpoints & Results

Please note that the provided checkpoint is sightly different from that in the paper. In the following sections, we report the results of the provided checkpoints.

English-centric Directions

We report tokenized BLEU in the following table. Please click the model links to download. It is in pytorch format. (check eval.sh for details)

Models	6e6d-no-mono	12e12d-no-mono	12e12d
en2cs/wmt16	21.0	22.3	23.8
cs2en/wmt16	29.6	32.4	33.2
en2fr/wmt14	42.0	43.3	43.4
fr2en/wmt14	37.8	39.3	39.5
en2de/wmt14	27.4	29.2	29.5
de2en/wmt14	32.2	34.9	35.2
en2zh/wmt17	33.0	34.9	34.1
zh2en/wmt17	22.4	24.0	24.4
en2ro/wmt16	26.6	28.1	28.7
ro2en/wmt16	36.8	39.0	39.1
en2tr/wmt16	18.6	20.3	21.2
tr2en/wmt16	22.2	25.5	26.1
en2ru/wmt19	17.4	18.5	19.2
ru2en/wmt19	22.0	23.2	23.6
en2fi/wmt17	20.2	22.1	22.9
fi2en/wmt17	26.1	29.5	29.7
en2es/wmt13	32.8	34.1	34.6
es2en/wmt13	32.8	34.6	34.7
en2it/wmt09	28.9	30.0	30.8
it2en/wmt09	31.4	32.7	32.8

Unsupervised Directions

We report tokenized BLEU in the following table. (check eval.sh for details)

	12e12d
en2pl/wmt20	6.2
pl2en/wmt20	13.5
en2nl/iwslt14	8.8
nl2en/iwslt14	27.1
en2pt/opus100	18.9
pt2en/opus100	29.2

Zero-shot Directions

row: source language
column: target language We report sacreBLEU in the following table.

12e12d	ar	zh	nl	fr	de	ru
ar	-	32.5	3.2	22.8	11.2	16.7
zh	6.5	-	1.9	32.9	7.6	23.7
nl	1.7	8.2	-	7.5	10.2	2.9
fr	6.2	42.3	7.5	-	18.9	24.4
de	4.9	21.6	9.2	24.7	-	14.4
ru	7.1	40.6	4.5	29.9	13.5	-

Training

export NUM_GPU=4 && bash train_w_mono.sh ${model_config}

We give example of ${model_config} in ${PROJECT_REPO}/examples/configs/parallel_mono_12e12d_contrastive.yml

Inference

You must pre-pend the corresponding language token to the source side before binarize the test data.

fairseq-generate ${test_path} \
    --user-dir ${repo_dir}/mcolt \
    -s ${src} \
    -t ${tgt} \
    --skip-invalid-size-inputs-valid-test \
    --path ${ckpts} \
    --max-tokens ${batch_size} \
    --task translation_w_langtok \
    ${options} \
    --lang-prefix-tok "LANG_TOK_"`echo "${tgt} " | tr '[a-z]' '[A-Z]'` \
    --max-source-positions ${max_source_positions} \
    --max-target-positions ${max_target_positions} \
    --nbest 1 | grep -E '[S|H|P|T]-[0-9]+' > ${final_res_file}

python fairseq/fairseq_cli/preprocess.py --dataset-impl raw --srcdict ckpt/bpe_vocab --tgtdict ckpt/bpe_vocab --testpref test/input -s zh -t en

python fairseq/fairseq_cli/interactive.py ${pathTomRASP2}/mRASP2/data-bin \
  --user-dir mcolt \
  -s en \
  -t zh \
  --skip-invalid-size-inputs-valid-test \
  --path ckpt/12e12d_last.pt \
  --max-tokens 1024 \
  --task translation_w_langtok \
  --lang-prefix-tok "LANG_TOK_"`echo "zh " | tr '[a-z]' '[A-Z]'` \
  --max-source-positions 1024 \
  --max-target-positions 1024 \
  --nbest 1 \
  --bpe subword_nmt \
  --bpe-codes ckpt/codes.bpe.32000 \
  --post-process --tokenizer moses \
  --input ./test/input.en | grep -E '[D]-[0-9]+' > test/output.zh.no_bpe.moses
  
python3 ${repo_dir}/scripts/utils.py ${res_file} ${ref_file} || exit 1;

Synonym dictionaries

We use the bilingual synonym dictionaries provised by MUSE.

We generate multilingual synonym dictionaries using this script, and apply RAS using this script.

Description	File	Size
dep=1	synonym_dict_raw_dep1	138.0 M
dep=2	synonym_dict_raw_dep2	1.6 G
dep=3	synonym_dict_raw_dep3	2.2 G

Contact

Please contact me via e-mail panxiao94@163.com or via wechat/zhihu or join the slack group!

Citation

Please cite as:

@inproceedings{mrasp2,
  title = {Contrastive Learning for Many-to-many Multilingual Neural Machine Translation},
  author= {Xiao Pan and
           Mingxuan Wang and
           Liwei Wu and
           Lei Li},
  booktitle = {Proceedings of ACL 2021},
  year = {2021},
}