Scalable and Versatile 3D Generation from images
Generate 3D scenes with dynamic lighting and shapes
Gradio Demo of DI-PCG
Create a 1M faces 3D colored model from an image!
Generate 3D molecular models from SMILES strings
Display fractal patterns using L-systems
Create a 3D model from an image in 10 seconds!
Create a dynamic torus knot scene with random properties
Render beautiful graphics with Moondream WebGPU
Interactively rotate a 3D green cube in your browser
Create 3D mesh by chatting.
Generate dynamic 3D scenes with torus knots
Generate a dynamic 3D scene with rotating lights and knots
TRELLIS is an advanced 3D Modeling tool designed to generate scalable and versatile 3D models directly from images. Leveraging cutting-edge AI technology, it enables users to transform 2D images into detailed 3D models with precision and efficiency. Whether for design, gaming, or visualization, TRELLIS offers a robust solution for creating high-quality 3D assets.
• Generate 3D Models from Images: Transform 2D images into detailed 3D models with a few clicks.
• Scalable Output: Adjust the resolution and complexity of the 3D model to suit your needs.
• Versatile Application: Ideal for 3D design, game development, architectural visualization, and more.
• User-Friendly Interface: Intuitive controls make it easy for both professionals and newcomers to create stunning 3D assets.
• Customizable Parameters: Fine-tune settings to achieve the desired result for your project.
What file formats does TRELLIS support for output?
TRELLIS supports multiple formats, including OBJ, STL, and GLB, ensuring compatibility with a wide range of 3D software and platforms.
Can I customize the generated 3D model after creation?
Yes, TRELLIS allows you to adjust parameters during the generation process to tailor the output to your specific requirements.
Is TRELLIS suitable for non-technical users?
Absolutely! TRELLIS features a user-friendly interface designed to be accessible to both professionals and individuals with little to no prior experience in 3D modeling.