Development Status
- 5 - Production/Stable
Intended Audience
- Science/Research
License
- OSI Approved :: Apache Software License
Programming Language
- Python :: 3.10
- Python :: 3.11
- Python :: 3.12
- Python :: 3.13
Topic
- Scientific/Engineering :: Artificial Intelligence
Sentence Transformers: Embeddings, Retrieval, and Reranking
This framework provides an easy method to compute embeddings for accessing, using, and training state-of-the-art embedding and reranker models. It can be used to compute embeddings using Sentence Transformer models (quickstart), to calculate similarity scores using Cross-Encoder (a.k.a. reranker) models (quickstart) or to generate sparse embeddings using Sparse Encoder models (quickstart). This unlocks a wide range of applications, including semantic search, semantic textual similarity, and paraphrase mining.
A wide selection of over 15,000 pre-trained Sentence Transformers models are available for immediate use on 🤗 Hugging Face, including many of the state-of-the-art models from the Massive Text Embeddings Benchmark (MTEB) leaderboard. Additionally, it is easy to train or finetune your own embedding models, reranker models or sparse encoder models using Sentence Transformers, enabling you to create custom models for your specific use cases.
For the full documentation, see www.SBERT.net.
Installation
We recommend Python 3.10+, PyTorch 1.11.0+, and transformers v4.41.0+.
pip install -U sentence-transformers
See Installation in the docs for uv, conda, source, and editable installs, CUDA setup, and extras ([image], [audio], [video], [train], [onnx], [openvino], [dev]).
Getting Started
See Quickstart in our documentation.
Embedding Models
First download a pretrained embedding a.k.a. Sentence Transformer model.
from sentence_transformers import SentenceTransformer
model = SentenceTransformer("sentence-transformers/all-MiniLM-L6-v2")
Then provide some texts to the model.
sentences = [
"The weather is lovely today.",
"It's so sunny outside!",
"He drove to the stadium.",
]
embeddings = model.encode(sentences)
print(embeddings.shape)
# => (3, 384)
And that's already it. We now have numpy arrays with the embeddings, one for each text. We can use these to compute similarities.
similarities = model.similarity(embeddings, embeddings)
print(similarities)
# tensor([[1.0000, 0.6660, 0.1046],
# [0.6660, 1.0000, 0.1411],
# [0.1046, 0.1411, 1.0000]])
Reranker Models
First download a pretrained reranker a.k.a. Cross Encoder model.
from sentence_transformers import CrossEncoder
# 1. Load a pretrained CrossEncoder model
model = CrossEncoder("cross-encoder/ms-marco-MiniLM-L6-v2")
Then provide some texts to the model.
# The texts for which to predict similarity scores
query = "How many people live in Berlin?"
passages = [
"Berlin had a population of 3,520,031 registered inhabitants in an area of 891.82 square kilometers.",
"Berlin has a yearly total of about 135 million day visitors, making it one of the most-visited cities in the European Union.",
"In 2013 around 600,000 Berliners were registered in one of the more than 2,300 sport and fitness clubs.",
]
# 2a. predict scores for pairs of texts
scores = model.predict([(query, passage) for passage in passages])
print(scores)
# => [8.607139 5.506266 6.352977]
And we're good to go. You can also use model.rank to avoid having to perform the reranking manually:
# 2b. Rank a list of passages for a query
ranks = model.rank(query, passages, return_documents=True)
print("Query:", query)
for rank in ranks:
print(f"- #{rank['corpus_id']} ({rank['score']:.2f}): {rank['text']}")
"""
Query: How many people live in Berlin?
- #0 (8.61): Berlin had a population of 3,520,031 registered inhabitants in an area of 891.82 square kilometers.
- #2 (6.35): In 2013 around 600,000 Berliners were registered in one of the more than 2,300 sport and fitness clubs.
- #1 (5.51): Berlin has a yearly total of about 135 million day visitors, making it one of the most-visited cities in the European Union.
"""
Sparse Encoder Models
First download a pretrained sparse embedding a.k.a. Sparse Encoder model.
from sentence_transformers import SparseEncoder
# 1. Load a pretrained SparseEncoder model
model = SparseEncoder("naver/splade-cocondenser-ensembledistil")
# The sentences to encode
sentences = [
"The weather is lovely today.",
"It's so sunny outside!",
"He drove to the stadium.",
]
# 2. Calculate sparse embeddings by calling model.encode()
embeddings = model.encode(sentences)
print(embeddings.shape)
# [3, 30522] - sparse representation with vocabulary size dimensions
# 3. Calculate the embedding similarities
similarities = model.similarity(embeddings, embeddings)
print(similarities)
# tensor([[ 35.629, 9.154, 0.098],
# [ 9.154, 27.478, 0.019],
# [ 0.098, 0.019, 29.553]])
# 4. Check sparsity stats
stats = SparseEncoder.sparsity(embeddings)
print(f"Sparsity: {stats['sparsity_ratio']:.2%}")
# Sparsity: 99.84%
Pre-Trained Models
We provide a large list of pretrained models for more than 100 languages. Some models are general purpose models, while others produce embeddings for specific use cases.
- Pretrained Sentence Transformer (Embedding) Models
- Pretrained Cross Encoder (Reranker) Models
- Pretrained Sparse Encoder (Sparse Embeddings) Models
Training
Tip: Using an AI coding agent (Claude Code, Codex, Cursor, Gemini CLI, ...)? Install the
train-sentence-transformersHugging Face Agent Skill viahf skills add train-sentence-transformers [--claude] [--global]and ask your agent to fine-tune a model on your data.
This framework allows you to fine-tune your own sentence embedding methods, so that you get task-specific sentence embeddings. You have various options to choose from in order to get perfect sentence embeddings for your specific task.
- Embedding Models
- Reranker Models
- Sparse Embedding Models
Some highlights across the different types of training are:
- Support of various transformer networks including BERT, RoBERTa, XLM-R, DistilBERT, Electra, BART, ...
- Multilingual and multi-task learning
- Evaluation during training to find optimal model
- 20+ loss functions for embedding models, 10+ loss functions for reranker models and 10+ loss functions for sparse embedding models, allowing you to tune models specifically for semantic search, paraphrase mining, semantic similarity comparison, clustering, triplet loss, contrastive loss, etc.
Companion Blog Posts
The following Hugging Face blog posts complement this documentation with narrative walkthroughs and full training examples:
Training guides:
- Training and Finetuning Embedding Models: end-to-end training of bi-encoder embedding models.
- Training and Finetuning Reranker Models: training Cross Encoder models for the second stage of retrieve-and-rerank pipelines.
- Training and Finetuning Sparse Embedding Models: training SPLADE and other sparse encoders.
Multimodal:
- Multimodal Embedding & Reranker Models: using text, image, audio, and video models through a single API.
- Training and Finetuning Multimodal Embedding & Reranker Models: training multimodal models, with a Visual Document Retrieval walkthrough.
Efficiency techniques:
- Introduction to Matryoshka Embedding Models: variable-size embeddings that can be truncated with minimal quality loss.
- Train 400x faster Static Embedding Models: CPU-friendly embedding models without attention.
- Binary and Scalar Embedding Quantization for Significantly Faster & Cheaper Retrieval: post-training compression of embedding vectors.
Application Examples
You can use this framework for:
-
Computing Sentence Embeddings
-
Semantic Textual Similarity
-
Semantic Search
-
Retrieve & Re-Rank
and many more use-cases.
For all examples, see examples/sentence_transformer/applications.
Development setup
After cloning the repo (or a fork) to your machine, in a virtual environment, run:
python -m pip install -e ".[dev]"
pre-commit install
To test your changes, run:
pytest
Citing & Authors
If you find this repository helpful, feel free to cite our publication Sentence-BERT: Sentence Embeddings using Siamese BERT-Networks:
@inproceedings{reimers-2019-sentence-bert,
title = "Sentence-BERT: Sentence Embeddings using Siamese BERT-Networks",
author = "Reimers, Nils and Gurevych, Iryna",
booktitle = "Proceedings of the 2019 Conference on Empirical Methods in Natural Language Processing",
month = "11",
year = "2019",
publisher = "Association for Computational Linguistics",
url = "https://arxiv.org/abs/1908.10084",
}
If you use one of the multilingual models, feel free to cite our publication Making Monolingual Sentence Embeddings Multilingual using Knowledge Distillation:
@inproceedings{reimers-2020-multilingual-sentence-bert,
title = "Making Monolingual Sentence Embeddings Multilingual using Knowledge Distillation",
author = "Reimers, Nils and Gurevych, Iryna",
booktitle = "Proceedings of the 2020 Conference on Empirical Methods in Natural Language Processing",
month = "11",
year = "2020",
publisher = "Association for Computational Linguistics",
url = "https://arxiv.org/abs/2004.09813",
}
Please have a look at Publications for our different publications that are integrated into SentenceTransformers.
Maintainers
Maintainer: Tom Aarsen, 🤗 Hugging Face
Don't hesitate to open an issue if something is broken (and it shouldn't be) or if you have further questions.
This project was originally developed by the Ubiquitous Knowledge Processing (UKP) Lab at TU Darmstadt. We're grateful for their foundational work and continued contributions to the field.
This repository contains experimental software and is published for the sole purpose of giving additional background details on the respective publication.
