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OntoAligner: A Comprehensive Modular and Robust Python Toolkit for Ontology Alignment.

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OntoAligner: A Comprehensive Modular and Robust Python Toolkit for Ontology Alignment

OntoAligner is a Python library that makes ontology alignment and knowledge graph matching easy for researchers, practitioners, and developers. It ships a single, consistent parse → encode → align → postprocess pipeline behind more than a dozen alignment paradigms — from classic fuzzy/lexical matching to retrieval, Large Language Models (LLMs), Retrieval-Augmented Generation (RAG), Knowledge Graph Embeddings (KGE), fuzzy-logic KG alignment, and ensemble learning — so you can go from two raw ontologies to an evaluated alignment in a handful of lines of code.

🏆 OntoAligner was awarded the Best Resource Paper Award at ESWC 2025.

📘 New to OntoAligner? Start with the tutorial notebooks or the full documentation.

🧪 Installation

You can install OntoAligner from PyPI using pip:

pip install ontoaligner

Alternatively, to get the latest version directly from the source, use the following commands:

git clone git@github.com:sciknoworg/OntoAligner.git
pip install ./ontoaligner

Next, verify the installation:

import ontoaligner

print(ontoaligner.__version__)

🚀 Quick Tour

End-to-end with OntoAlignerPipeline

The fastest way to run an alignment: pick a dataset, an encoder, and an aligner, and let the pipeline handle collection, encoding, prediction, postprocessing, and evaluation.

import ontoaligner

pipeline = ontoaligner.OntoAlignerPipeline(
    task_class=ontoaligner.ontology.MouseHumanOMDataset,
    source_ontology_path="assets/mouse-human/source.xml",
    target_ontology_path="assets/mouse-human/target.xml",
    reference_matching_path="assets/mouse-human/reference.xml",
)

matchings, evaluation = pipeline(
    method="rag",
    encoder_model=ontoaligner.encoder.ConceptParentRAGEncoder(),
    model_class=ontoaligner.aligner.MistralLLMBERTRetrieverRAG,
    postprocessor=ontoaligner.postprocess.rag_hybrid_postprocessor,
    llm_path="mistralai/Mistral-7B-v0.3",
    retriever_path="all-MiniLM-L6-v2",
    llm_threshold=0.5,
    ir_rag_threshold=0.7,
    top_k=5,
    max_length=512,
    max_new_tokens=10,
    device="cuda",
    batch_size=32,
    return_matching=True,
    evaluate=True,
)

print("Matching Evaluation Report:", evaluation)

Step-by-step, low-level control

Build the same RAG-based alignment yourself for full control over every stage:

from ontoaligner.ontology import MaterialInformationMatOntoOMDataset
from ontoaligner.utils import metrics, xmlify
from ontoaligner.aligner import MistralLLMBERTRetrieverRAG
from ontoaligner.encoder import ConceptParentRAGEncoder
from ontoaligner.postprocess import rag_hybrid_postprocessor

# Step 1: Initialize the dataset object for the MaterialInformation MatOnto dataset
task = MaterialInformationMatOntoOMDataset()
print("Test Task:", task)

# Step 2: Load source and target ontologies along with reference matchings
dataset = task.collect(
    source_ontology_path="assets/MI-MatOnto/mi_ontology.xml",
    target_ontology_path="assets/MI-MatOnto/matonto_ontology.xml",
    reference_matching_path="assets/MI-MatOnto/matchings.xml",
)

# Step 3: Encode the source and target ontologies
encoder_model = ConceptParentRAGEncoder()
encoded_ontology = encoder_model(source=dataset["source"], target=dataset["target"])

# Step 4: Define configuration for retriever and LLM
retriever_config = {"device": "cuda", "top_k": 5}
llm_config = {"device": "cuda", "max_length": 300, "max_new_tokens": 10, "batch_size": 15}

# Step 5: Generate predictions using the RAG-based ontology matcher
model = MistralLLMBERTRetrieverRAG(retriever_config=retriever_config, llm_config=llm_config)
model.load(llm_path="mistralai/Mistral-7B-v0.3", ir_path="all-MiniLM-L6-v2")
predicts = model.generate(input_data=encoded_ontology)

# Step 6: Apply hybrid postprocessing
hybrid_matchings, hybrid_configs = rag_hybrid_postprocessor(
    predicts=predicts, ir_score_threshold=0.1, llm_confidence_th=0.8
)

evaluation = metrics.evaluation_report(predicts=hybrid_matchings, references=dataset["reference"])
print("Hybrid Matching Evaluation Report:", evaluation)

# Step 7: Convert matchings to XML format and save the XML representation
xml_str = xmlify.xml_alignment_generator(matchings=hybrid_matchings)
open("matchings.xml", "w", encoding="utf-8").write(xml_str)

Advanced AlignerPipeline

AlignerPipeline provides a reusable execution flow for running one user-provided encoder and one ontology matching aligner over a collected ontology matching dataset. See the bellow on how to define advanced aligner pipeline.

from ontoaligner.ontology import MaterialInformationMatOntoOMDataset
from ontoaligner.utils import metrics
from ontoaligner.encoder import ConceptParentLightweightEncoder
from ontoaligner.aligner import SimpleFuzzySMLightweight
from ontoaligner import AlignerPipeline

task = MaterialInformationMatOntoOMDataset()

dataset = task.collect(
    source_ontology_path="assets/MI-MatOnto/mi_ontology.xml",
    target_ontology_path="assets/MI-MatOnto/matonto_ontology.xml",
    reference_matching_path="assets/MI-MatOnto/matchings.xml",
)

aligner_pipeline = AlignerPipeline(
    encoder=ConceptParentLightweightEncoder(),
    aligner=SimpleFuzzySMLightweight(fuzzy_sm_threshold=0.2),
    om_dataset=dataset,
)
matchings = aligner_pipeline.generate()

evaluation = metrics.evaluation_report(predicts=matchings, references=dataset["reference"])
print("Matching Evaluation Report:", evaluation)

Fusing multiple aligners with Ensemble Learning with AlignerPipeline

Combine independent aligner branches (lexical, retrieval, KGE, LLM, RAG, ...) into a single, more robust alignment via a voting strategy such as WeightedVoting, BordaVoting, CondorcetVoting, or ReciprocalRankFusionVoting:

from ontoaligner.aligner.ensemble import EnsembleLearningAligner
from ontoaligner.aligner.ensemble.voting import WeightedVoting
from ontoaligner import AlignerPipeline

lexical_pipeline = AlignerPipeline(...)  # define your lexical aligner pipeline
retrieval_pipeline = AlignerPipeline(...)  # define your retrieval aligner pipeline
llm_pipeline = AlignerPipeline(...)  # define your LLM aligner pipeline

ensemble = EnsembleLearningAligner(
    aligners=[
        ("lexical", lexical_pipeline, 0.2),   # each branch is an AlignerPipeline
        ("retrieval", retrieval_pipeline, 0.3),
        ("llm", llm_pipeline, 0.5),
    ],
    voting=WeightedVoting(),
)

final_matchings = ensemble.generate()

See ontoaligner.readthedocs.io/developerguide/pipeline.html for more details on how to define your own AlignerPipeline and EnsembleLearningAligner.

👉 More end-to-end scripts are available in examples/, including aligner_pipeline.py, ensemble.py, flora.py, olala.py, and many more.

📚 Documentation & Tutorials

Comprehensive documentation, including detailed guides and examples, is available at ontoaligner.readthedocs.io. Below are key tutorials with links to both the documentation and the corresponding example scripts.

Example Tutorial Script
Lightweight 📚 Fuzzy Matching 📝 Code
Retrieval 📚 Retrieval Aligner 📝 Code
Large Language Models 📚 LLM Aligner 📝 Code
Retrieval Augmented Generation 📚 RAG Aligner 📝 Code
FewShot 📚 FewShot-RAG Aligner 📝 Code
In-Context Vectors Learning 📚 In-Context Vectors RAG 📝 Code
Knowledge Graph Embedding 📚 KGE Aligner 📝 Code
Property Alignment 📚 PropMatch Aligner 📝 Code
FLORA (Knowledge Graphs) 📚 FLORA Aligner 📝 Code
OLaLa 📚 OLaLa Aligner 📝 Code
Ensemble Learning 📚 Ensemble Learning 📝 Code
eCommerce 📚 Product Alignment in eCommerce 📝 Code
Financial Corporate Actions 📚 FIBO Corporate Actions Alignment 📝 Code

👥 Contact & Contributions

We welcome contributions to enhance OntoAligner and make it even better! Please review our contribution guidelines in CONTRIBUTING.md before getting started. You are also welcome to assist with the ongoing maintenance by referring to MAINTENANCE.md. Your support is greatly appreciated.

If you encounter any issues or have questions, please submit them in the GitHub issues tracker.

📚 Citing this Work

If you use OntoAligner in your work or research, please cite the following preprint:

  • OntoAligner Library:

    Babaei Giglou, H., D'Souza, J., Karras, O., Auer, S. (2025). OntoAligner: A Comprehensive Modular and Robust Python Toolkit for Ontology Alignment. In: Curry, E., et al. The Semantic Web. ESWC 2025. Lecture Notes in Computer Science, vol 15719. Springer, Cham. https://doi.org/10.1007/978-3-031-94578-6_10

    📌 BibTeX

    @InProceedings{10.1007/978-3-031-94578-6_10,
        author="Babaei Giglou, Hamed and D'Souza, Jennifer and Karras, Oliver and Auer, S{\"o}ren",
        editor="Curry, Edward and Acosta, Maribel and Poveda-Villal{\'o}n, Maria and van Erp, Marieke and Ojo, Adegboyega and Hose, Katja and Shimizu, Cogan and Lisena, Pasquale",
        title="OntoAligner: A Comprehensive Modular and Robust Python Toolkit for Ontology Alignment",
        booktitle="The Semantic Web",
        year="2025",
        publisher="Springer Nature Switzerland",
        address="Cham",
        pages="174--191"
    }
    
  • LLMs4OM (for RAG module)

    Babaei Giglou, H., D'Souza, J., Engel, F., Auer, S. (2025). LLMs4OM: Matching Ontologies with Large Language Models. In: Meroño Peñuela, A., et al. The Semantic Web: ESWC 2024 Satellite Events. ESWC 2024. Lecture Notes in Computer Science, vol 15344. Springer, Cham. https://doi.org/10.1007/978-3-031-78952-6_3

    📌 BibTeX

    @InProceedings{10.1007/978-3-031-78952-6_3,
      author="Babaei Giglou, Hamed and D'Souza, Jennifer and Engel, Felix and Auer, S{\"o}ren",
      editor="Mero{\~{n}}o Pe{\~{n}}uela, Albert and Corcho, Oscar and Groth, Paul and Simperl, Elena and Tamma, Valentina and Nuzzolese, Andrea Giovanni and Poveda-Villal{\'o}n, Maria and Sabou, Marta and Presutti, Valentina and Celino, Irene and Revenko, Artem and Raad, Joe and Sartini, Bruno and Lisena, Pasquale",
      title="LLMs4OM: Matching Ontologies with Large Language Models",
      booktitle="The Semantic Web: ESWC 2024 Satellite Events",
      year="2025",
      publisher="Springer Nature Switzerland",
      address="Cham",
      pages="25--35",
      isbn="978-3-031-78952-6"
      }
    
  • Knowledge Graph Embeddings based aligner

    Giglou, Hamed Babaei, Jennifer D'Souza, Sören Auer, and Mahsa Sanaei. "OntoAligner Meets Knowledge Graph Embedding Aligners." arXiv preprint arXiv:2509.26417 (2025). https://arxiv.org/abs/2509.26417>

    📌 BibTeX

    @article{babaei2025ontoaligner,
      title={OntoAligner Meets Knowledge Graph Embedding Aligners},
      author={Babaei Giglou, Hamed and D'Souza, Jennifer and Auer, S{\"o}ren and Sanaei, Mahsa},
      journal={arXiv e-prints},
      pages={arXiv--2509},
      year={2025}
    }
    

📃 License

This software is licensed under License.

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