Adapter allenai/specter2_regression
for allenai/specter2_base
An adapter for the allenai/specter2_base
model that was trained on the allenai/scirepeval dataset.
This adapter was created for usage with the adapter-transformers library.
Aug 2023 Update:
- The SPECTER 2.0 Base and proximity adapter models have been renamed in Model Database based upon usage patterns as follows:
Old Name | New Name |
---|---|
allenai/specter2 | allenai/specter2_base |
allenai/specter2_proximity | allenai/specter2 |
- We have a parallel version (termed aug2023refresh) where the base transformer encoder version is pre-trained on a collection of newer papers (published after 2018). However, for benchmarking purposes, please continue using the current version.
SPECTER 2.0
SPECTER 2.0 is the successor to SPECTER and is capable of generating task specific embeddings for scientific tasks when paired with adapters. This is the base model to be used along with the adapters. Given the combination of title and abstract of a scientific paper or a short texual query, the model can be used to generate effective embeddings to be used in downstream applications.
Note:For general embedding purposes, please use allenai/specter2.
To get the best performance on a downstream task type please load the associated adapter with the base model as in the example below.
Usage
First, install adapter-transformers
:
pip install -U adapter-transformers
Note: adapter-transformers is a fork of transformers that acts as a drop-in replacement with adapter support. More
Now, the adapter can be loaded and activated like this:
from transformers import AutoAdapterModel
model = AutoAdapterModel.from_pretrained("allenai/specter2_base")
adapter_name = model.load_adapter("allenai/specter2_regression", source="hf", set_active=True)
Model Details
Model Description
SPECTER 2.0 has been trained on over 6M triplets of scientific paper citations, which are available here. Post that it is trained with additionally attached task format specific adapter modules on all the SciRepEval training tasks.
Task Formats trained on:
- Classification
- Regression
- Proximity (Retrieval)
- Adhoc Search
This is the regression specific adapter. For generating embeddings which can be used as input to downstream regression models like SVRs to generate a continuous value as the result.
It builds on the work done in SciRepEval: A Multi-Format Benchmark for Scientific Document Representations and we evaluate the trained model on this benchmark as well.
- Developed by: Amanpreet Singh, Mike D'Arcy, Arman Cohan, Doug Downey, Sergey Feldman
- Shared by : Allen AI
- Model type: bert-base-uncased + adapters
- License: Apache 2.0
- Finetuned from model: allenai/scibert.
Model Sources
- Repository: https://github.com/allenai/SPECTER2_0
- Paper: https://api.semanticscholar.org/CorpusID:254018137
- Demo: Usage
Uses
Direct Use
Model | Name and HF link | Description |
---|---|---|
Proximity* | allenai/specter2 | Encode papers as queries and candidates eg. Link Prediction, Nearest Neighbor Search |
Adhoc Query | allenai/specter2_adhoc_query | Encode short raw text queries for search tasks. (Candidate papers can be encoded with the proximity adapter) |
Classification | allenai/specter2_classification | Encode papers to feed into linear classifiers as features |
Regression | allenai/specter2_regression | Encode papers to feed into linear regressors as features |
*Proximity model should suffice for downstream task types not mentioned above
from transformers import AutoTokenizer, AutoModel
# load model and tokenizer
tokenizer = AutoTokenizer.from_pretrained('allenai/specter2_base')
#load base model
model = AutoModel.from_pretrained('allenai/specter2_base')
#load the adapter(s) as per the required task, provide an identifier for the adapter in load_as argument and activate it
model.load_adapter("allenai/specter2_regression", source="hf", load_as="regression", set_active=True)
papers = [{'title': 'BERT', 'abstract': 'We introduce a new language representation model called BERT'},
{'title': 'Attention is all you need', 'abstract': ' The dominant sequence transduction models are based on complex recurrent or convolutional neural networks'}]
# concatenate title and abstract
text_batch = [d['title'] + tokenizer.sep_token + (d.get('abstract') or '') for d in papers]
# preprocess the input
inputs = self.tokenizer(text_batch, padding=True, truncation=True,
return_tensors="pt", return_token_type_ids=False, max_length=512)
output = model(**inputs)
# take the first token in the batch as the embedding
embeddings = output.last_hidden_state[:, 0, :]
Downstream Use
For evaluation and downstream usage, please refer to https://github.com/allenai/scirepeval/blob/main/evaluation/INFERENCE.md.
Training Details
Training Data
The base model is trained on citation links between papers and the adapters are trained on 8 large scale tasks across the four formats. All the data is a part of SciRepEval benchmark and is available here.
The citation link are triplets in the form
{"query": {"title": ..., "abstract": ...}, "pos": {"title": ..., "abstract": ...}, "neg": {"title": ..., "abstract": ...}}
consisting of a query paper, a positive citation and a negative which can be from the same/different field of study as the query or citation of a citation.
Training Procedure
Please refer to the SPECTER paper.
Training Hyperparameters
The model is trained in two stages using SciRepEval:
- Base Model: First a base model is trained on the above citation triplets.
batch size = 1024, max input length = 512, learning rate = 2e-5, epochs = 2 warmup steps = 10% fp16
- Adapters: Thereafter, task format specific adapters are trained on the SciRepEval training tasks, where 600K triplets are sampled from above and added to the training data as well.
batch size = 256, max input length = 512, learning rate = 1e-4, epochs = 6 warmup = 1000 steps fp16
Evaluation
We evaluate the model on SciRepEval, a large scale eval benchmark for scientific embedding tasks which which has [SciDocs] as a subset. We also evaluate and establish a new SoTA on MDCR, a large scale citation recommendation benchmark.
Model | SciRepEval In-Train | SciRepEval Out-of-Train | SciRepEval Avg | MDCR(MAP, Recall@5) |
---|---|---|---|---|
BM-25 | n/a | n/a | n/a | (33.7, 28.5) |
SPECTER | 54.7 | 57.4 | 68.0 | (30.6, 25.5) |
SciNCL | 55.6 | 57.8 | 69.0 | (32.6, 27.3) |
SciRepEval-Adapters | 61.9 | 59.0 | 70.9 | (35.3, 29.6) |
SPECTER 2.0-Adapters | 62.3 | 59.2 | 71.2 | (38.4, 33.0) |
Please cite the following works if you end up using SPECTER 2.0:
@inproceedings{specter2020cohan,
title={{SPECTER: Document-level Representation Learning using Citation-informed Transformers}},
author={Arman Cohan and Sergey Feldman and Iz Beltagy and Doug Downey and Daniel S. Weld},
booktitle={ACL},
year={2020}
}
@article{Singh2022SciRepEvalAM,
title={SciRepEval: A Multi-Format Benchmark for Scientific Document Representations},
author={Amanpreet Singh and Mike D'Arcy and Arman Cohan and Doug Downey and Sergey Feldman},
journal={ArXiv},
year={2022},
volume={abs/2211.13308}
}
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