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WaLa-SV-1B / README.md
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---
language:
- en
license: other
license_name: autodesk-non-commercial-3d-generative-v1.0
pipeline_tag: image-to-3d
tags:
- wala
- single-view-to-3d
---
# Model Card for WaLa-SV-1B
This model is part of the Wavelet Latent Diffusion (WaLa) paper, capable of generating high-quality 3D shapes from single-view images with detailed geometry and complex structures.
## Model Details
### Model Description
WaLa-SV-1B is a large-scale 3D generative model trained on a massive dataset of over 10 million publicly-available 3D shapes. It can efficiently generate a wide range of high-quality 3D shapes from single-view image inputs in just 2.5 seconds. The model uses a wavelet-based compact latent encoding and a billion-parameter architecture to achieve superior performance in terms of geometric detail and structural plausibility.
- **Developed by:** Aditya Sanghi, Aliasghar Khani, Chinthala Pradyumna Reddy, Arianna Rampini, Derek Cheung, Kamal Rahimi Malekshan, Kanika Madan, Hooman Shayani
- **Model type:** 3D Generative Model
- **License:** Autodesk Non-Commercial (3D Generative) v1.0
For more information please look at the [Project Page](https://autodeskailab.github.io/WaLaProject) and [the paper](TBD).
### Model Sources
- **Project Page:** [WaLa](https://autodeskailab.github.io/WaLaProject)
- **Repository:** [Github](https://github.com/AutodeskAILab/WaLa)
- **Paper:** [ArXiv](https://arxiv.org/abs/2411.08017)
- **Demo:** [Colab](https://colab.research.google.com/drive/1W5zPXw9xWNpLTlU5rnq7g3jtIA2BX6aC?usp=sharing)
## Uses
### Direct Use
This model is released by Autodesk and intended for academic and research purposes only for the theoretical exploration and demonstration of the WaLa 3D generative framework. Please see [here](https://github.com/AutodeskAILab/WaLa?tab=readme-ov-file#single-view-to-3d) for inferencing instructions.
### Out-of-Scope Use
The model should not be used for:
- Commercial purposes
- Creation of load-bearing physical objects the failure of which could cause property damage or personal injury
- Any usage not in compliance with the [license](https://huggingface.co/ADSKAILab/WaLa-single-view-1B/blob/main/LICENSE.md), in particular, the "Acceptable Use" section.
## Bias, Risks, and Limitations
### Bias
- The model may inherit biases present in the publicly-available training datasets, which could lead to uneven representation of certain object types or styles.
- The model's performance may degrade for object categories or styles that are underrepresented in the training data.
### Risks and Limitations
- The quality of the generated 3D output may be impacted by the quality and clarity of the input.
- The model may occasionally generate implausible shapes, especially when the input is ambiguous or of low quality. Even theoretically plausible shapes should not be relied upon for real-world structural soundness.
## How to Get Started with the Model
Please refer to the instructions [here](https://github.com/AutodeskAILab/WaLa?tab=readme-ov-file#getting-started)
## Training Details
### Training Data
The model was trained on a dataset of over 10 million 3D shapes aggregated from 19 different publicly-available sub-datasets, including ModelNet, ShapeNet, SMLP, Thingi10K, SMAL, COMA, House3D, ABC, Fusion 360, 3D-FUTURE, BuildingNet, DeformingThings4D, FG3D, Toys4K, ABO, Infinigen, Objaverse, and two subsets of ObjaverseXL (Thingiverse and GitHub).
### Training Procedure
#### Preprocessing
Each 3D shape in the dataset was converted into a truncated signed distance function (TSDF) with a resolution of 256³. The TSDF was then decomposed using a discrete wavelet transform to create the wavelet-tree representation used by the model.
#### Training Hyperparameters
- **Training regime:** Please refer to the paper.
#### Speeds, Sizes, Times
- The model contains approximately 956 million parameters.
- The model can generate shapes within 2-4 seconds.
## Evaluation
### Testing Data, Factors & Metrics
#### Testing Data
The model was evaluated on the Google Scanned Objects (GSO) dataset and a validation set from the training data (MAS validation data).
#### Factors
The evaluation considered various factors such as the quality of generated shapes, the ability to capture fine details and complex structures, and the model's performance across different object categories.
#### Metrics
The model was evaluated using the following metrics:
- Intersection over Union (IoU)
- Light Field Distance (LFD)
- Chamfer Distance (CD)
### Results
The single-view to 3D model achieved the following results on the GSO dataset:
- LFD: 2509.20
- IoU: 0.6154
- CD: 0.02150
On the MAS validation dataset:
- LFD: 2920.74
- IoU: 0.6056
- CD: 0.01530
## Technical Specifications
### Model Architecture and Objective
TThe model uses a U-ViT architecture with modifications. It employs a wavelet-based compact latent encoding to effectively capture both coarse and fine details of 3D shapes from single-view inputs. The input view is processed through the DINO v2 encoder to extract feature representations, which then serve as the condition latent vectors for the generative model.
### Compute Infrastructure
#### Hardware
The model was trained on NVIDIA H100 GPUs.
## Citation
```
@misc{sanghi2024waveletlatentdiffusionwala,
title={Wavelet Latent Diffusion (Wala): Billion-Parameter 3D Generative Model with Compact Wavelet Encodings},
author={Aditya Sanghi and Aliasghar Khani and Pradyumna Reddy and Arianna Rampini and Derek Cheung and Kamal Rahimi Malekshan and Kanika Madan and Hooman Shayani},
year={2024},
eprint={2411.08017},
archivePrefix={arXiv},
primaryClass={cs.CV},
url={https://arxiv.org/abs/2411.08017},
}
```