This tool is a custom node for ComfyUI designed to transform 2D images into 3D files compatible with software like Blender. It leverages the capabilities of Hunyuan-3D-2 and its updated version, Hunyuan-3D-2.1, developed by Tencent.
- Converts images with transparent backgrounds into 3D .glb files for further use in 3D modeling software.
- Supports multiple model versions, including v2.0 and v2.1, as well as optimized mini and turbo models.
- Provides a user-friendly interface to monitor processing progress and handle potential errors effectively.
Context
This custom node serves as an extension within ComfyUI, enabling users to create 3D representations from 2D images. The primary focus is to facilitate the conversion process, making it easier for artists and developers to integrate 3D elements into their projects.
Key Features & Benefits
The tool's standout feature is its ability to generate 3D files from images with transparent backgrounds, which is crucial for maintaining detail during conversion. It supports various model configurations, allowing users to choose the one that best fits their needs, whether for high-quality outputs or faster processing times.
Advanced Functionalities
The node includes advanced capabilities for model selection, allowing users to specify different versions of the Hunyuan model directly through the interface. This flexibility ensures that users can experiment with different outputs based on their specific artistic requirements.
Practical Benefits
By integrating this custom node into their workflows, users can significantly streamline the process of creating 3D assets from 2D images. This not only enhances control over the final output but also improves efficiency, as users can quickly generate and modify 3D files without needing extensive manual adjustments.
Credits/Acknowledgments
This tool is developed by contributors to the ComfyUI project and utilizes models from Tencent's Hunyuan-3D-2 and Hunyuan-3D-2.1 repositories. The project is open source, allowing for community contributions and enhancements.