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🔥News 2021-10: Our full paper, Learning Discrete Representations via Constrained Clustering for Effective and Efficient Dense Retrieval[code], was accepted by WSDM'22. It presents RepCONC and achieves state-of-the-art first-stage retrieval effectiveness-efficiency tradeoff.
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🔥News 2021-8: Our full paper, Jointly Optimizing Query Encoder and Product Quantization to Improve Retrieval Performance[code], was accepted by CIKM'21. It presents JPQ and greatly improves the efficiency of Dense Retrieval.
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🔥News 2021-4: Our full paper, Optimizing Dense Retrieval Model Training with Hard Negatives[code], was accepted by SIGIR'21. It provides theoretical analysis on different negative sampling strategies and greatly improves the effectiveness of Dense Retrieval with hard negative sampling.
RepBERT is is currently the state-of-the-art first-stage retrieval technique on MS MARCO Passage Ranking task. It represents documents and queries with fixed-length contextualized embeddings. The inner products of them are regarded as relevance scores. Its efficiency is comparable to bag-of-words methods. For more details, check out our paper:
| MS MARCO Passage Ranking Leaderboard (Jun 28th 2020) | Category | Eval MRR@10 | Latency |
|---|---|---|---|
| BM25 + BERT from (Nogueira and Cho, 2019) | Cascade | 0.358 | 3400 ms |
| RepBERT (this code) | First-Stage | 0.294 | 80 ms |
| BiLSTM + Co-Attention + self attention based document scorer (Alaparthi et al., 2019) (best non-BERT) | Cascade | 0.291 | - |
| docTTTTTquery (Nogueira1 et al., 2019) | First-Stage | 0.272 | 64 ms |
| DeepCT (Dai and Callan, 2019) | First-Stage | 0.239 | 55 ms |
| doc2query (Nogueira et al., 2019) | First-Stage | 0.218 | 90 ms |
| BM25(Anserini) | First-Stage | 0.186 | 50 ms |
We make the following data available for download:
repbert.dev.small.top1k.tsv: 6,980,000 pairs of dev set queries and retrieved passages. In this tsv file, the first column is the query id, the second column is the passage id, and the third column is the rank of the passage. There are 1000 passages per query in this file.repbert.eval.small.top1k.tsv: 6,837,000 pairs of eval set queries and retrieved passages. In this tsv file, the first column is the query id, the second column is the passage id, and the third column is the rank of the passage. There are 1000 passages per query in this file.repbert.ckpt-350000.zip: Trained BERT base model to represent queries and passages. It contains two files, namelyconfig.jsonandpytorch_model.bin.
Download and verify the above files from the below table:
| File | Size | MD5 | Download |
|---|---|---|---|
repbert.dev.small.top1k.tsv |
127 MB | 0d08617b62a777c3c8b2d42ca5e89a8e |
[Google Drive] |
repbert.eval.small.top1k.tsv |
125 MB | b56a79138f215292d674f58c694d5206 |
[Google Drive] |
repbert.ckpt-350000.zip |
386 MB | b59a574f53c92de6a4ddd4b3fbef784a |
[Google Drive] |
We provide instructions on how to replicate RepBERT retrieval results using provided trained model.
First, make sure you already installed 🤗 Transformers:
pip install transformers
git clone https://github.com/jingtaozhan/RepBERT-Index
cd RepBERT-IndexNext, download collectionandqueries.tar.gz from MSMARCO-Passage-Ranking. It contains passages, queries, and qrels.
mkdir data
cd data
wget https://msmarco.blob.core.windows.net/msmarcoranking/collectionandqueries.tar.gz
mkdir msmarco-passage
tar xvfz collectionandqueries.tar.gz -C msmarco-passageTo confirm, collectionandqueries.tar.gz should have MD5 checksum of 31644046b18952c1386cd4564ba2ae69.
To reduce duplication of effort in training and testing, we tokenize queries and passages in advance. This should take some time (about 3-4 hours). Besides, we convert tokenized passages to numpy memmap array, which can greatly reduce the memory overhead at run time.
python convert_text_to_tokenized.py --tokenize_queries --tokenize_collection
python convert_collection_to_memmap.pyPlease download the provided model repbert.ckpt-350000.zip, put it in ./data, and unzip it. You should see two files in the directory ./data/ckpt-350000, namely pytorch_model.bin and config.json.
Next, you need to precompute the representations of passages and queries.
python precompute.py --load_model_path ./data/ckpt-350000 --task doc
python precompute.py --load_model_path ./data/ckpt-350000 --task query_dev.small
python precompute.py --load_model_path ./data/ckpt-350000 --task query_eval.smallAt last, you can retrieve the passages for the queries in the dev set (or eval set). multi_retrieve.py will use the gpus specified by --gpus argument and the representations of all passages are evenly distributed among all gpus. If your CUDA memory is limited, you can use --per_gpu_doc_num to specify the num of passages distributed to each gpu.
python multi_retrieve.py --query_embedding_dir ./data/precompute/query_dev.small_embedding --output_path ./data/retrieve/repbert.dev.small.top1k.tsv --hit 1000 --gpus 0,1,2,3,4
python ms_marco_eval.py ./data/msmarco-passage/qrels.dev.small.tsv ./data/retrieve/repbert.dev.small.top1k.tsvYou can also retrieve the passages with only one GPU.
export CUDA_VISIBLE_DEVICES=0
python retrieve.py --query_embedding_dir ./data/precompute/query_dev.small_embedding --output_path ./data/retrieve/repbert.dev.small.top1k.tsv --hit 1000 --per_gpu_doc_num 1800000
python ms_marco_eval.py ./data/msmarco-passage/qrels.dev.small.tsv ./data/retrieve/repbert.dev.small.top1k.tsvThe results should be:
#####################
MRR @10: 0.3038783713103188
QueriesRanked: 6980
#####################
Next, download qidpidtriples.train.full.tsv.gz from MSMARCO-Passage-Ranking.
cd ./data/msmarco-passage
wget https://msmarco.blob.core.windows.net/msmarcoranking/qidpidtriples.train.full.tsv.gzExtract it and use shuf command to generate a smaller file (10%).
shuf ./qidpidtriples.train.full.tsv -o ./qidpidtriples.train.small.tsv -n 26991900Start training. Note that the evaluaton result is about reranking.
python ./train.py --task train --evaluate_during_training