English

gridfm-datakit-v1: A Python Library for Scalable and Realistic Power Flow and Optimal Power Flow Data Generation

Machine Learning 2025-12-17 v1 Artificial Intelligence Systems and Control Systems and Control Optimization and Control

Abstract

We introduce gridfm-datakit-v1, a Python library for generating realistic and diverse Power Flow (PF) and Optimal Power Flow (OPF) datasets for training Machine Learning (ML) solvers. Existing datasets and libraries face three main challenges: (1) lack of realistic stochastic load and topology perturbations, limiting scenario diversity; (2) PF datasets are restricted to OPF-feasible points, hindering generalization of ML solvers to cases that violate operating limits (e.g., branch overloads or voltage violations); and (3) OPF datasets use fixed generator cost functions, limiting generalization across varying costs. gridfm-datakit addresses these challenges by: (1) combining global load scaling from real-world profiles with localized noise and supporting arbitrary N-k topology perturbations to create diverse yet realistic datasets; (2) generating PF samples beyond operating limits; and (3) producing OPF data with varying generator costs. It also scales efficiently to large grids (up to 10,000 buses). Comparisons with OPFData, OPF-Learn, PGLearn, and PFΔ\Delta are provided. Available on GitHub at https://github.com/gridfm/gridfm-datakit under Apache 2.0 and via `pip install gridfm-datakit`.

Keywords

Cite

@article{arxiv.2512.14658,
  title  = {gridfm-datakit-v1: A Python Library for Scalable and Realistic Power Flow and Optimal Power Flow Data Generation},
  author = {Alban Puech and Matteo Mazzonelli and Celia Cintas and Tamara R. Govindasamy and Mangaliso Mngomezulu and Jonas Weiss and Matteo Baù and Anna Varbella and François Mirallès and Kibaek Kim and Le Xie and Hendrik F. Hamann and Etienne Vos and Thomas Brunschwiler},
  journal= {arXiv preprint arXiv:2512.14658},
  year   = {2025}
}

Comments

Main equal contributors: Alban Puech, Matteo Mazzonelli. Other equal contributors: Celia Cintas, Tamara R. Govindasamy, Mangaliso Mngomezulu, Jonas Weiss

R2 v1 2026-07-01T08:27:47.968Z