Multilingual-MiniLM-L12-H384 / README.md

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	---
	language:
	- multilingual
	- en
	- ar
	- bg
	- de
	- el
	- es
	- fr
	- hi
	- ru
	- sw
	- th
	- tr
	- ur
	- vi
	- zh
	thumbnail: https://huggingface.co/front/thumbnails/microsoft.png
	tags:
	- text-classification
	license: mit
	---

	## MiniLM: Small and Fast Pre-trained Models for Language Understanding and Generation

	MiniLM is a distilled model from the paper "[MiniLM: Deep Self-Attention Distillation for Task-Agnostic Compression of Pre-Trained Transformers](https://arxiv.org/abs/2002.10957)".

	Please find the information about preprocessing, training and full details of the MiniLM in the [original MiniLM repository](https://github.com/microsoft/unilm/blob/master/minilm/).

	Please note: This checkpoint uses `BertModel` with `XLMRobertaTokenizer` so `AutoTokenizer` won't work with this checkpoint!

	### Multilingual Pretrained Model
	- Multilingual-MiniLMv1-L12-H384: 12-layer, 384-hidden, 12-heads, 21M Transformer parameters, 96M embedding parameters

	Multilingual MiniLM uses the same tokenizer as XLM-R. But the Transformer architecture of our model is the same as BERT. We provide the fine-tuning code on XNLI based on [huggingface/transformers](https://github.com/huggingface/transformers). Please replace `run_xnli.py` in transformers with [ours](https://github.com/microsoft/unilm/blob/master/minilm/examples/run_xnli.py) to fine-tune multilingual MiniLM.

	We evaluate the multilingual MiniLM on cross-lingual natural language inference benchmark (XNLI) and cross-lingual question answering benchmark (MLQA).

	#### Cross-Lingual Natural Language Inference - [XNLI](https://arxiv.org/abs/1809.05053)

	We evaluate our model on cross-lingual transfer from English to other languages. Following [Conneau et al. (2019)](https://arxiv.org/abs/1911.02116), we select the best single model on the joint dev set of all the languages.

	\| Model \| #Layers \| #Hidden \| #Transformer Parameters \| Average \| en \| fr \| es \| de \| el \| bg \| ru \| tr \| ar \| vi \| th \| zh \| hi \| sw \| ur \|
	\|---------------------------------------------------------------------------------------------\|---------\|---------\|-------------------------\|---------\|------\|------\|------\|------\|------\|------\|------\|------\|------\|------\|------\|------\|------\|------\|------\|
	\| [mBERT](https://github.com/google-research/bert) \| 12 \| 768 \| 85M \| 66.3 \| 82.1 \| 73.8 \| 74.3 \| 71.1 \| 66.4 \| 68.9 \| 69.0 \| 61.6 \| 64.9 \| 69.5 \| 55.8 \| 69.3 \| 60.0 \| 50.4 \| 58.0 \|
	\| [XLM-100](https://github.com/facebookresearch/XLM#pretrained-cross-lingual-language-models) \| 16 \| 1280 \| 315M \| 70.7 \| 83.2 \| 76.7 \| 77.7 \| 74.0 \| 72.7 \| 74.1 \| 72.7 \| 68.7 \| 68.6 \| 72.9 \| 68.9 \| 72.5 \| 65.6 \| 58.2 \| 62.4 \|
	\| [XLM-R Base](https://arxiv.org/abs/1911.02116) \| 12 \| 768 \| 85M \| 74.5 \| 84.6 \| 78.4 \| 78.9 \| 76.8 \| 75.9 \| 77.3 \| 75.4 \| 73.2 \| 71.5 \| 75.4 \| 72.5 \| 74.9 \| 71.1 \| 65.2 \| 66.5 \|
	\| mMiniLM-L12xH384 \| 12 \| 384 \| 21M \| 71.1 \| 81.5 \| 74.8 \| 75.7 \| 72.9 \| 73.0 \| 74.5 \| 71.3 \| 69.7 \| 68.8 \| 72.1 \| 67.8 \| 70.0 \| 66.2 \| 63.3 \| 64.2 \|

	This example code fine-tunes 12-layer multilingual MiniLM on XNLI.

	```bash
	# run fine-tuning on XNLI
	DATA_DIR=/{path_of_data}/
	OUTPUT_DIR=/{path_of_fine-tuned_model}/
	MODEL_PATH=/{path_of_pre-trained_model}/

	python ./examples/run_xnli.py --model_type minilm \
	--output_dir ${OUTPUT_DIR} --data_dir ${DATA_DIR} \
	--model_name_or_path microsoft/Multilingual-MiniLM-L12-H384 \
	--tokenizer_name xlm-roberta-base \
	--config_name ${MODEL_PATH}/multilingual-minilm-l12-h384-config.json \
	--do_train \
	--do_eval \
	--max_seq_length 128 \
	--per_gpu_train_batch_size 128 \
	--learning_rate 5e-5 \
	--num_train_epochs 5 \
	--per_gpu_eval_batch_size 32 \
	--weight_decay 0.001 \
	--warmup_steps 500 \
	--save_steps 1500 \
	--logging_steps 1500 \
	--eval_all_checkpoints \
	--language en \
	--fp16 \
	--fp16_opt_level O2
	```

	#### Cross-Lingual Question Answering - [MLQA](https://arxiv.org/abs/1910.07475)

	Following [Lewis et al. (2019b)](https://arxiv.org/abs/1910.07475), we adopt SQuAD 1.1 as training data and use MLQA English development data for early stopping.

	\| Model F1 Score \| #Layers \| #Hidden \| #Transformer Parameters \| Average \| en \| es \| de \| ar \| hi \| vi \| zh \|
	\|--------------------------------------------------------------------------------------------\|---------\|---------\|-------------------------\|---------\|------\|------\|------\|------\|------\|------\|------\|
	\| [mBERT](https://github.com/google-research/bert) \| 12 \| 768 \| 85M \| 57.7 \| 77.7 \| 64.3 \| 57.9 \| 45.7 \| 43.8 \| 57.1 \| 57.5 \|
	\| [XLM-15](https://github.com/facebookresearch/XLM#pretrained-cross-lingual-language-models) \| 12 \| 1024 \| 151M \| 61.6 \| 74.9 \| 68.0 \| 62.2 \| 54.8 \| 48.8 \| 61.4 \| 61.1 \|
	\| [XLM-R Base](https://arxiv.org/abs/1911.02116) (Reported) \| 12 \| 768 \| 85M \| 62.9 \| 77.8 \| 67.2 \| 60.8 \| 53.0 \| 57.9 \| 63.1 \| 60.2 \|
	\| [XLM-R Base](https://arxiv.org/abs/1911.02116) (Our fine-tuned) \| 12 \| 768 \| 85M \| 64.9 \| 80.3 \| 67.0 \| 62.7 \| 55.0 \| 60.4 \| 66.5 \| 62.3 \|
	\| mMiniLM-L12xH384 \| 12 \| 384 \| 21M \| 63.2 \| 79.4 \| 66.1 \| 61.2 \| 54.9 \| 58.5 \| 63.1 \| 59.0 \|

	### Citation

	If you find MiniLM useful in your research, please cite the following paper:

	``` latex
	@misc{wang2020minilm,
	title={MiniLM: Deep Self-Attention Distillation for Task-Agnostic Compression of Pre-Trained Transformers},
	author={Wenhui Wang and Furu Wei and Li Dong and Hangbo Bao and Nan Yang and Ming Zhou},
	year={2020},
	eprint={2002.10957},
	archivePrefix={arXiv},
	primaryClass={cs.CL}
	}
	```