GeoX: Geometric Problem Solving Through Unified Formalized Vision-Language Pre-training
💡Project Page • 📃Arxiv Paper • 🗂Dataset • 🤗Checkpoint • 📖Citation
Introduction to GeoX
GeoX is a multi-modal large model designed for automatic geometric problem solving, utilizing three progressive training stages to enhance diagram understanding and reasoning. In this paper, we validate that the formal vision-language training paradigm is a simple-yet-effective solution for complex mathematical diagram learning.
Data Preparation for GeoX
Step 1. Data for Unimodal Pre-training
Update 2024-07-16: You can download our collected diagram images from this link.
Additionally, we used existing geometric text to build a corpus, detailed in our paper.
Step 2. Data for Geometry-Language Alignment
To train the GS-Former, please prepare the unified formal annotations and paired images.
Step 3. Data for End-to-End Visual Instruction Tuning
We use the GeoQA, UniGeo, Geometry3K, and PGPS9K datasets for fine-tuning and evaluation:
- GeoQA: Follow the instructions here to download the
GeoQAdataset. - UniGeo: Follow the instructions here to download the
UniGeodataset. - Geometry3K and PGPS9K: Follow the instructions here to download the
PGPS9Kdatasets. TheGeometry3Kis also provided in this database.
Note: Due to copyright restrictions, we are currently only providing links for the datasets. Full datasets for tuning and evaluation organized by us will be provided via email. If you need it, please contact us by email.
For more details, please refer to our paper and our GitHub repository. If you find our work helpful, please consider starring ⭐ in this repository and citing us:
Citation