---
pretty_name: Wind Tunnel 20K Dataset
size_categories:
- 10K
# Wind Tunnel 20K Dataset
The Wind Tunnel Dataset contains 19,812 OpenFOAM simulations of 1,000 unique automobile-like objects placed in a virtual wind tunnel.
Each object is simulated under 20 distinct conditions: 4 random wind speeds ranging from 10 to 50 m/s, and 5 rotation angles
(0°, 180° and 3 random angles).
The meshes for these automobile-like objects were generated using the Instant Mesh model on images sourced from the Stanford Cars Dataset.
To ensure stable and reliable results, each simulation runs for 300 iterations.
The entire dataset of 20,000 simulations is organized into three subsets: 70% for training, 20% for validation, and 10% for testing.
The data generation process itself was orchestrated using the [Inductiva API](https://inductiva.ai/),
which allowed us to run hundreds of OpenFOAM simulations in parallel on the cloud.
# Why
Existing object datasets have many limitations: they are either small in size, closed source, or have low quality meshes.
Hence, we decided to generate a new dataset using the [InstantMesh](https://github.com/TencentARC/InstantMesh) model,
which is open-source (Apache-2.0) and is currently state-of-the-art in image-to-mesh generation.
The automobile-like meshes were generated by running the image-to-mesh model [InstantMesh](https://github.com/TencentARC/InstantMesh)
on 1k images from the publicly available (Apache-2.0)
[Stanford Cars Dataset](https://www.kaggle.com/datasets/jessicali9530/stanford-cars-dataset) consisting of 16,185 images of automobiles.
Naturally, running the image-to-mesh model leads to meshes that may have certain defects, such as irregular surfaces, asymmetry issues
and disconnected components. Therefore, after running the image-to-mesh model, we run a custom post-processing step where we try to
improve the meshes quality. We used PCA to align the mesh with the main axis and we removed disconnected components.
The resulting set of meshes still have little defects, such as presence of "spikes" or "cavities" in supposedly flat areas and
asymmetric shapes, among others. We consider these little defects as valuable features of the dataset not as issues, since from the
point of view of the learning problem, they bring challenges to the model that we believe will contribute to obtaining more robust
and generalizable models.
# How did we generate the dataset
1. Generating Input Meshes, using InstantMesh on Standord Cars Dataset and postprocess the input meshes.
2. Running OpenFoam on the Input Meshes with the Inductiva API.
We ran OpenFoam simulations with different wind speeds and object angles on the input meshes.
This produces an output mesh that contains all the information named `openfoam_mesh.obj`;
4. We postprocessed the OpenFoam output to generate streamlines and pressure_map meshes.
The code used to generate the meshes and postprocess them is available on github: [https://github.com/inductiva/datasets-generation](https://github.com/inductiva/datasets-generation).
# Dataset Structure
```
data
├── train
│ ├──
│ │ ├── input_mesh.obj
│ │ ├── openfoam_mesh.obj
│ │ ├── pressure_field_mesh.vtk
│ │ ├── simulation_metadata.json
│ │ └── streamlines_mesh.ply
│ └── ...
├── validation
│ └── ...
└── test
└── ...
```
## Dataset Files
Each simulation in the Wind Tunnel Dataset is accompanied by several key files that provide both the input and the output data of the simulations.
Here’s a breakdown of the files included in each simulation:
- **[input_mesh.obj](#input_meshobj)**: OBJ file with the input mesh. These were generated using the InstantMesh model by the process described in section link.
- **[openfoam_mesh.obj](#openfoam_meshobj)**: OBJ file with the OpenFOAM mesh. (explicar)
- **[pressure_field_mesh.vtk](#pressure_field_meshvtk)**: VTK file with the pressure field data. (explicar)
- **[streamlines_mesh.ply](#streamlines_meshply)**: PLY file with the streamlines. (posprocessing)
- **[metadata.json](#metadatajson)**: JSON with metadata about the input parameters and about some output results such as the force coefficients (obtained via simulation) and the path of the output files.
### input_mesh.obj
| **Input Mesh** | **OpenFOAM Mesh** |
|-------------------------------|------------------------------|
| ![Input Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/input_mesh.png) | ![OpenFOAM Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/openfoam_mesh.png) |
### openfoam_mesh.obj
| **Input Mesh** | **OpenFOAM Mesh** |
|-------------------------------|------------------------------|
| ![Input Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/input_mesh.png) | ![OpenFOAM Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/openfoam_mesh.png) |
### pressure_field_mesh.obj
| **Input Mesh** | **OpenFOAM Mesh** |
|-------------------------------|------------------------------|
| ![Input Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/input_mesh.png) | ![OpenFOAM Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/openfoam_mesh.png) |
### streamlines_mesh.ply
| **Input Mesh** | **OpenFOAM Mesh** |
|-------------------------------|------------------------------|
| ![Input Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/input_mesh.png) | ![OpenFOAM Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/openfoam_mesh.png) |
### metadata.obj
```json
{
"id": "1w63au1gpxgyn9kun5q9r7eqa",
"object_file": "object_24.obj",
"wind_speed": 35,
"rotate_angle": 332,
"num_iterations": 300,
"resolution": 5,
"drag_coefficient": 0.8322182,
"moment_coefficient": 0.3425206,
"lift_coefficient": 0.1824983,
"front_lift_coefficient": 0.4337698,
"rear_lift_coefficient": -0.2512715,
"input_mesh_path": "data/train/1w63au1gpxgyn9kun5q9r7eqa/input_mesh.obj",
"openfoam_mesh_path": "data/train/1w63au1gpxgyn9kun5q9r7eqa/openfoam_mesh.obj",
"pressure_field_mesh_path": "data/train/1w63au1gpxgyn9kun5q9r7eqa/pressure_field_mesh.vtk",
"streamlines_mesh_path": "data/train/1w63au1gpxgyn9kun5q9r7eqa/streamlines_mesh.ply"
}
```
### Dataset Statistics
The dataset comprises 19,812 valid samples out of a total of 20,000 simulations, with [188 submissions failing](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/failed_tasks.txt) due to numerical errors in OpenFOAM.
The complete dataset requires X GB of storage. Below, the histograms illustrate the distribution of points:
| **Input Mesh** | **OpenFOAM Mesh** |
|-------------------------------|------------------------------|
| ![Input Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/histogram_of_points_input.png) | ![OpenFOAM Mesh](https://huggingface.co/datasets/inductiva/windtunnel/resolve/main/assets/histogram_of_points_foam.png) |
## Downloading the Dataset:
To download the dataset you have to install the [Datasets package](https://huggingface.co/docs/datasets/en/index) by HuggingFace:
```python
pip install datasets
```
### 1. Using snapshot_download()
```python
import huggingface_hub
dataset_name = "inductiva/windtunnel-20k"
# Download the entire dataset
huggingface_hub.snapshot_download(repo_id=dataset_name, repo_type="dataset")
# Download to a specific local directory
huggingface_hub.snapshot_download(
repo_id=dataset_name, repo_type="dataset", local_dir="local_folder"
)
# Download only the simulation metadata across all simulations
huggingface_hub.snapshot_download(
repo_id=dataset_name,
repo_type="dataset",
local_dir="local_folder",
allow_patterns=["*/*/*/simulation_metadata.json"]
)
```
### 2. Using load_dataset()
```python
import datasets
# Load the dataset (streaming is supported)
dataset = datasets.load_dataset("inductiva/windtunnel-20k", streaming=False)
# Display dataset information
print(dataset)
# Access a sample from the training set
sample = dataset["train"][0]
print("Sample from training set:", sample)
```
## OpenFoam Parameters
You can find the OpenFoam configuration files on github: [https://github.com/inductiva/wind-tunnel/tree/main/windtunnel/templates](https://github.com/inductiva/wind-tunnel/tree/main/windtunnel/templates)
## What's next?
If you have any issues using this dataset, feel free to reach out to us at [support@intuctiva.ai](support@intuctiva.ai).
If you detect any clearly problematic mesh, please let us know so we can correct that issue for the next version of the
Windtunnel-20k dataset.
To learn more about how we created this dataset—or how you can generate synthetic datasets for Physics-AI models—visit [Inductiva.AI](inductiva.ai) or check out our blog post on [transforming complex simulation workflows into easy-to-use Python classes](https://inductiva.ai/blog/article/transform-complex-simulations).