Reranker is a lightweight, effective and efficient package for training and deploying deep languge model reranker in information retrieval (IR), question answering (QA) and many other natural language processing (NLP) pipelines. The training procedure follows our ECIR paper Rethink Training of BERT Rerankers in Multi-Stage Retrieval Pipeline using a localized constrastive esimation (LCE) loss.
Reranker speaks Huggingface🤗 language! This means that you instantly get all state-of-the-art pre-trained models as soon as they are ported to HF transformers. You also get the familiar model and trainer interfaces.
Reranker has two submissions to MS MARCO document leaderboard. Each got 1st place, advancing the SOTA!
Date | Submission Name | Dev MRR@100 | Eval MRR@100 |
---|---|---|---|
2021/01/20 | LCE loss + HDCT (ensemble) | 0.464 | 0.405 |
2020/09/09 | HDCT top100 + BERT-base FirstP (single) | 0.434 | 0.382 |
- Training rerankers from the state-of-the-art pre-trained language models like BERT, RoBERTa and ELECTRA.
- The state-of-the-art reranking performance with our LCE loss based training pipeline.
- GPU memory optimizations: Loss Parallelism and Gradient Cache which allow training of larger model.
- Faster training
- Distributed Data Parallel (DDP) for multi GPUs.
- Automatic Mixed Precision (AMP) training and inference with up to 2x speedup!
- Break CPU RAM limitation by memory mapping datasets with
pyarrow
throughdatasets
package interface. - Checkpoint interoperability with Hugging Face
transformers
.
The library is designed to be dedicated for text reranking modeling, training and testing. This helps us keep the code concise and focus on a more specific task.
Under the hood, Reranker provides a thin layer of wrapper over Huggingface libraries. Our model wraps PreTrainedModel
and our trainer sub-class Huggingface Trainer
. You can then work with the familiar interfaces.
Reranker uses Pytorch, Huggingface Transformers and Datasets. Install with the following commands,
git clone https://github.com/luyug/Reranker.git
cd Reranker
pip install .
Reranker has been tested with torch==1.6.0, transformers==4.2.0, datasets==1.1.3
.
For development, install as editable,
pip install -e .
The easiest way to do inference is to use one of our uploaded trained checkpoints with RerankerForInference
.
from reranker import RerankerForInference
rk = RerankerForInference.from_pretrained("Luyu/bert-base-mdoc-bm25") # load checkpoint
inputs = rk.tokenize('weather in new york', 'it is cold today in new york', return_tensors='pt')
score = rk(inputs).logits
For training, you will need a model, a dataset and a trainer. Say we have parsed arguments into
model_args
, data_args
and training_args
with reranker.arguments
. First,
initialize the reranker and tokenizer from one of
pre-tained language models from Hugging Face.
For example, let's use RoBERTa by loading roberta-base
.
from reranker import Reranker
from transformers import AutoTokenizer
tokenizer = AutoTokenizer.from_pretrained('roberta-base')
model = Reranker.from_pretrained(model_args, data_args, training_args, 'roberta-base')
Then create the dataset,
from reranker.data import GroupedTrainDataset
train_dataset = GroupedTrainDataset(
data_args, data_args.train_path,
tokenizer=tokenizer, train_args=training_args
)
Create a trainer and train,
from reranker import RerankerTrainer
trainer = RerankerTrainer(
model=model,
args=training_args,
train_dataset=train_dataset,
data_collator=GroupCollator(tokenizer),
)
trainer.train()
See full examples in our examples.
MS MARCO Document Ranking with Reranker
More to come
We support computing a query's LCE loss with multiple GPUs with flag --collaborative
. Note that a group size (pos + neg)
not divisible by number of GPUs may incur undefined behaviours.
You will typically want to use it with gradient accumulation steps greater than one.
Detailed instruction ot be added.
Experimental We provide subclasses RerankerDC
and RerankerDCTrainer
. In the MS MARCO example, You can use them with --distance_cahce
argument to activate gradient caching with respect to computed unnormalized distance. This allows potentially training with unlimited number of negatives beyond GPU memory limitation up to numerical precision.
The method is described in our preprint Scaling Deep Contrastive Learning Batch Size with Almost Constant Peak Memory Usage.
Detailed instruction to be added.
We provide a few helpers in the helper directory for data formatting,
score_to_marco.py
turns a raw score txt file into MS MARCO format.score_to_tein.py
turns a raw score txt file into trec eval format.
For example,
python score_to_tein.py --score_file {path to raw score txt}
This generates a trec eval format file in the same directory as the raw score file.
Reranker core utilities (batch training, batch inference) expect processed and tokenized text in token id format. This means pre-processing should be done beforehand, e.g. with BERT tokenizer.
Training data is grouped by query into a json file where each line has a query, its corresponding positives and sampled negatives.
{
"qry": {
"qid": str,
"query": List[int],
},
"pos": List[
{
"pid": str,
"passage": List[int],
}
],
"neg": List[
{
"pid": str,
"passage": List[int]
}
]
}
Training data is handled by class reranker.data.GroupedTrainDataset
.
Inference data is grouped by query document(passage) pairs. Each line is a json entry to be rereanked (scored).
{
"qid": str,
"pid": str,
"qry": List[int],
"psg": List[int]
}
To speed up postprocessing, we currently take an additional tsv specifying text ids,
qid0 pid0
qid0 pid1
...
The ordering in the two files are expected to be the same.
Inference data is handled by class reranker.data.PredictionDataset
.
Scores are stored in a tsv file with columns corresponding to qid, pid and score.
qid0 pid0 s0
qid0 pid1 s1
...
You can post-process it with our helper scirpt into MS MARCO format or TREC eval format.
We welcome contribution to the package, either adding new dataset interface or new models.
You can reach me by email [email protected]
. As a 2nd year master, I get busy days from time to time and may not reply very promptly. Feel free to ping me if you don't get replies.
If you use Reranker in your research, please consider citing our ECIR paper,
@inproceedings{gao2021lce,
title={Rethink Training of BERT Rerankers in Multi-Stage Retrieval Pipeline},
author={Luyu Gao and Zhuyun Dai and Jamie Callan},
year={2021},
booktitle={The 43rd European Conference On Information Retrieval (ECIR)},
}
For the gradient cache utility, consider citing our preprint,
@misc{gao2021scaling,
title={Scaling Deep Contrastive Learning Batch Size with Almost Constant Peak Memory Usage},
author={Luyu Gao and Yunyi Zhang},
year={2021},
eprint={2101.06983},
archivePrefix={arXiv},
primaryClass={cs.LG}
}
Reranker is currently licensed under APACHE-2.0.