Hugging Face's logo

Datasets:
hanhainebula
/
bge-m3_miracl_2cr

ArXiv:
Dataset card Files Community
bge-m3_miracl_2cr / README.md
hanhainebula's picture
hanhainebula
Upload README.md with huggingface_hub
d17fcf9 verified
preview code
|
raw
history blame
4.9 kB

Introduction

This respository introduces how to reproduce the Dense, Sparse, and Dense+Sparse evaluation results of the paper BGE-M3 on the MIRACL dev split.

Requirements 

# Install Java (Linux)
apt update
apt install openjdk-11-jdk

# Install Pyserini
pip install pyserini

# Install Faiss
## CPU version
conda install -c conda-forge faiss-cpu

## GPU version
conda install -c conda-forge faiss-gpu

It should be noted that the Pyserini code needs to be modified to support the multiple alpha settings in pyserini/fusion. I have already submitted a pull request to the official repository to support this feature. You can refer to this PR to modify the code.

2CR

Download and Unzip 

# Download
## MIRACL topics and qrels
git clone https://huggingface.co./datasets/miracl/miracl
mv miracl/*/*/* topics-and-qrels

git lfs install
git clone https://huggingface.co./datasets/hanhainebula/bge-m3_miracl_2cr


# Unzip
languages=(ar bn en es fa fi fr hi id ja ko ru sw te th zh de yo)

## Dense
for lang in ${languages[@]}; do
  tar -zxvf bge-m3_miracl_2cr/dense/${lang}.tar.gz -C bge-m3_miracl_2cr/dense/
done

## Sparse
for lang in ${languages[@]}; do
  tar -zxvf bge-m3_miracl_2cr/sparse/${lang}.tar.gz -C bge-m3_miracl_2cr/sparse/
done

Reproduction

Dense 

# Avaliable Language: ar bn en es fa fi fr hi id ja ko ru sw te th zh de yo
lang=zh

# Generate run
python -m pyserini.search.faiss \
  --threads 16 --batch-size 512 \
  --encoder-class auto \
  --encoder BAAI/bge-m3 \
  --pooling cls --l2-norm \
  --topics topics-and-qrels/miracl-v1.0-${lang}-dev.tsv \
  --index bge-m3_miracl_2cr/dense/${lang} \
  --output bge-m3_miracl_2cr/dense/runs/${lang}.txt \
  --hits 1000

# Evaluate
## nDCG@10
python -m pyserini.eval.trec_eval \
  -c -M 100 -m ndcg_cut.10 \
  topics-and-qrels/qrels.miracl-v1.0-${lang}-dev.tsv \
  bge-m3_miracl_2cr/dense/runs/${lang}.txt
## Recall@100
python -m pyserini.eval.trec_eval \
  -c -m recall.100 \
  topics-and-qrels/qrels.miracl-v1.0-${lang}-dev.tsv \
  bge-m3_miracl_2cr/dense/runs/${lang}.txt

Sparse 

# Avaliable Language: ar bn en es fa fi fr hi id ja ko ru sw te th zh de yo
lang=zh

# Generate run
python -m pyserini.search.lucene \
  --threads 16 --batch-size 128 \
  --topics bge-m3_miracl_2cr/sparse/${lang}/query_embd.tsv \
  --index bge-m3_miracl_2cr/sparse/${lang}/index \
  --output bge-m3_miracl_2cr/sparse/runs/${lang}.txt \
  --output-format trec \
  --impact --hits 1000

# Evaluate
## nDCG@10
python -m pyserini.eval.trec_eval \
  -c -M 100 -m ndcg_cut.10 \
  topics-and-qrels/qrels.miracl-v1.0-${lang}-dev.tsv \
  bge-m3_miracl_2cr/sparse/runs/${lang}.txt
## Recall@100
python -m pyserini.eval.trec_eval \
  -c -m recall.100 \
  topics-and-qrels/qrels.miracl-v1.0-${lang}-dev.tsv \
  bge-m3_miracl_2cr/sparse/runs/${lang}.txt

Dense+Sparse

Note: You should first merge this PR to support the multiple alpha settings in pyserini/fusion.

# Avaliable Language: ar bn en es fa fi fr hi id ja ko ru sw te th zh de yo
lang=zh

# Generate dense run and sparse run
python -m pyserini.search.faiss \
  --threads 16 --batch-size 512 \
  --encoder-class auto \
  --encoder BAAI/bge-m3 \
  --pooling cls --l2-norm \
  --topics topics-and-qrels/miracl-v1.0-${lang}-dev.tsv \
  --index bge-m3_miracl_2cr/dense/${lang} \
  --output bge-m3_miracl_2cr/dense/runs/${lang}.txt \
  --hits 1000

python -m pyserini.search.lucene \
  --threads 16 --batch-size 128 \
  --topics bge-m3_miracl_2cr/sparse/${lang}/query_embd.tsv \
  --index bge-m3_miracl_2cr/sparse/${lang}/index \
  --output bge-m3_miracl_2cr/sparse/runs/${lang}.txt \
  --output-format trec \
  --impact --hits 1000

# Generate dense+sparse run
mkdir -p bge-m3_miracl_2cr/fusion/runs

python -m pyserini.fusion \
  --method interpolation \
  --runs bge-m3_miracl_2cr/dense/runs/${lang}.txt bge-m3_miracl_2cr/sparse/runs/${lang}.txt \
  --alpha 1 3e-5 \
  --output bge-m3_miracl_2cr/fusion/runs/${lang}.txt \
  --depth 1000 --k 1000

# Evaluation
## nDCG@10
python -m pyserini.eval.trec_eval \
  -c -M 100 -m ndcg_cut.10 \
  topics-and-qrels/qrels.miracl-v1.0-${lang}-dev.tsv \
  bge-m3_miracl_2cr/fusion/runs/${lang}.txt
## Recall@100
python -m pyserini.eval.trec_eval \
  -c -m recall.100 \
  topics-and-qrels/qrels.miracl-v1.0-${lang}-dev.tsv \
  bge-m3_miracl_2cr/fusion/runs/${lang}.txt

Note:

  • The hybrid method we used for MIRACL in BGE-M3 paper is: s_dense + 0.3 * s_sparse. But when the sparse score is calculated, it has already been multiplied by 100^2, so the alpha for sparse run here is 3e-5, instead of 0.3.