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Pricing sourced from T-Rex Label · Last verified March 2026
T-Rex Label uses the T-Rex2 foundation model to understand visual context from a single example prompt. Users select one object as a visual reference, and the AI automatically identifies and labels all similar instances across the entire dataset in a single batch operation. This eliminates the traditional workflow of manually drawing bounding boxes on each object individually. For large datasets of thousands of images with repetitive objects (e.g., crop rows, retail products, traffic signs), this batch approach can reduce annotation from weeks of manual effort to hours. The actual time savings depends on dataset size, object complexity, and domain specificity — scenes with visually distinct, well-defined objects yield the best automation results.
The platform is powered by three foundation models developed by IDEA Research: T-Rex2 (published at ECCV 2024), Grounding DINO 1.5, and DINO-X. T-Rex2 is specifically optimized for visual prompt-based detection and enables the zero-shot labeling workflow. Grounding DINO 1.5 adds text-grounded detection capabilities, while DINO-X provides enhanced visual understanding for complex scenes. Together these models enable detection and annotation across diverse visual domains without requiring task-specific fine-tuning. The research code and model details are available on IDEA Research's GitHub repository.
Yes, T-Rex Label provides native export in COCO and YOLO formats, which are the two dominant annotation standards in computer vision. It integrates with major ML frameworks including PyTorch and TensorFlow, annotation platforms like Roboflow and Label Studio, and dataset repositories including Kaggle Datasets, ModelScope, Roboflow Universe, and Hugging Face. This integration ecosystem supports end-to-end pipeline development from annotation through model training and deployment.
T-Rex Label's zero-shot capabilities make it applicable across industries including healthcare, agriculture, autonomous vehicles, and manufacturing. However, effectiveness varies with domain specificity — the underlying foundation models perform best on objects with clear visual boundaries and sufficient representation in pretraining data. For highly specialized domains like rare pathology detection or novel industrial defect types, the platform serves as an efficient starting point that still requires human review and correction for safety-critical applications.
No, T-Rex Label is entirely browser-based with zero installation requirements. It runs on any modern browser across Windows, macOS, and Linux without needing local GPU resources, since all AI inference happens on T-Rex Label's servers. This architecture enables immediate team onboarding and cross-platform collaboration, though it does require stable internet connectivity for all AI-powered features. The free tier provides access to core annotation tools with a cap of up to 500 images per month.
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