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Error code: DatasetGenerationError Exception: SchemaInferenceError Message: Please pass `features` or at least one example when writing data Traceback: Traceback (most recent call last): File "/src/services/worker/.venv/lib/python3.9/site-packages/datasets/builder.py", line 1886, in _prepare_split_single num_examples, num_bytes = writer.finalize() File "/src/services/worker/.venv/lib/python3.9/site-packages/datasets/arrow_writer.py", line 648, in finalize raise SchemaInferenceError("Please pass `features` or at least one example when writing data") datasets.arrow_writer.SchemaInferenceError: Please pass `features` or at least one example when writing data The above exception was the direct cause of the following exception: Traceback (most recent call last): File "/src/services/worker/src/worker/job_runners/config/parquet_and_info.py", line 1412, in compute_config_parquet_and_info_response parquet_operations, partial, estimated_dataset_info = stream_convert_to_parquet( File "/src/services/worker/src/worker/job_runners/config/parquet_and_info.py", line 988, in stream_convert_to_parquet builder._prepare_split( File "/src/services/worker/.venv/lib/python3.9/site-packages/datasets/builder.py", line 1741, in _prepare_split for job_id, done, content in self._prepare_split_single( File "/src/services/worker/.venv/lib/python3.9/site-packages/datasets/builder.py", line 1897, in _prepare_split_single raise DatasetGenerationError("An error occurred while generating the dataset") from e datasets.exceptions.DatasetGenerationError: An error occurred while generating the dataset
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Overview
Simulating fluid flow around arbitrary shapes is key to solving various engineering problems. However, simulating flow physics across complex geometries remains numerically challenging and computationally resource-intensive, particularly when using conventional PDE solvers. Machine learning methods offer attractive opportunities to create fast and adaptable PDE solvers. However, benchmark datasets to measure the performance of such methods are scarce, especially for flow physics across complex geometries. We introduce FlowBench, a benchmark for neural simulators with over 10K samples, which is larger than any publicly available flow physics dataset. FlowBench contains flow simulation data across complex geometries (parametric vs. non-parametric), spanning a range of flow conditions (Reynolds number and Grashoff number), capturing a diverse array of flow phenomena (steady vs. transient; forced vs. free convection), and for both 2D and 3D. FlowBench contains over 10K data samples, with each sample the outcome of a fully resolved, direct numerical simulation using a well-validated simulator framework designed for modeling transport phenomena in complex geometries. For each sample, we include velocity, pressure, and temperature field data at 3 different resolutions and several summary statistics features of engineering relevance (such as coefficients of lift and drag, and Nusselt numbers).
We envision that FlowBench will enable evaluating the interplay between complex geometry, coupled flow phenomena, and data sufficiency on the performance of current, and future, neural PDE solvers. We enumerate several evaluation metrics to help rank order the performance of current (and future) neural PDE solvers. We benchmark the performance of three baseline methods: Fourier Neural Operators (FNO), Convolutional Neural Operators (CNO), and DeepONets. This dataset will be a valuable resource for evaluating neural PDE solvers that model complex fluid dynamics around 2D and 3D objects.
Dataset Information FlowBench exposes data for four families of datasets:
FPO - Flow Past an Object
Settings : Time dependent problem. We provide 242 snapshots per simulation.
Geometries : harmonics, nurbs, skelneton
Specification : Navier Stokes [2d, resolutions = 1024x256, 512x128]
LDC - Lid Driven Cavity
Geometries : harmonics, nurbs, skelneton
Specification : Navier Stokes [2d, resolutions = 512x512, 256x256, 128x128]
LDC - Lid Driven Cavity
Geometries : Ellipsoids and Toroids
Specification : Navier Stokes [3d, resolution = 128x128x128]
LDC - Lid Driven Cavity
Setting - Constant Reynolds Number
Geometries : harmonics, nurbs, skelneton
Specification : Navier Stokes + Heat Transfer [2d, resolutions = 512x512, 256x256, 128x128]
LDC - Lid Driven Cavity
Setting - Variable Reynolds Number
Geometries : harmonics, nurbs, skelneton
Specification : Navier Stokes + Heat Transfer [2d, resolutions = 512x512, 256x256, 128x128]
For all families of datasets, except FPO, we directly provide the numpy
input and output tensors X,Y
that can be used by SciML researchers to train their SciML models. Tensor formulae for both X,Y
have been described in appendix (section B.2) of our main paper.
For FPO family of datasets, we adopt a slightly different approach. Because we are exposing the full 242 time steps of a simulation, it was more prudent to have the end users prepare their own input and output tensors depending on the time steps they choose. This allows the end users to control the size of the tensors going into their SciML models. Hence we recommend the following approach for accessing the data:
- Go to the one of the FPO simulation folders, e.g.
FPO_NS_2D_512x128
- Choose your geometry, e.g., harmonics
- You would notice several directories - these represent the various geometries of the type harmonics.
- Under each geometry, the user will find full simulations of three different flow conditions packaged as a *.npz file. Each of these files contains the full simulation across 242 time steps for each of the fields.
License
CC-BY-NC-4.0
Downloading dataset from Huggingface
To run the example code, you need to install the following package:
pip install huggingface_hub
The following script demonstrates how to download a directory from the Hugging Face Hub:
from huggingface_hub import HfApi, hf_hub_download
import os
import shutil
REPO_ID = "BGLab/FlowBench"
DIRECTORY = "LDC_NS_2D"
# Initialize the Hugging Face API
api = HfApi()
# List files in the directory
files_list = api.list_repo_files(repo_id=REPO_ID, repo_type="dataset")
# Filter the files in the specified directory
files_to_download = [f for f in files_list if f.startswith(DIRECTORY)]
# Create local directory if it doesn't exist
os.makedirs(DIRECTORY, exist_ok=True)
# Download each file
for file in files_to_download:
file_path = hf_hub_download(repo_id=REPO_ID, filename=file, repo_type="dataset")
# Copy the file to the local directory using shutil.copy2
shutil.copy2(file_path, os.path.join(DIRECTORY, os.path.basename(file_path)))
print("Files downloaded successfully.")
Directory Structure
main/
βββ FPO_NS_2D_1024x256/
β βββ harmonics/
β β βββ 1/*.npz
β β βββ 2/*.npz
β β βββ 3/*.npz
β β βββ .
β β βββ .
β β βββ 100/*.npz
β βββ nurbs/
β β βββ 1/*.npz
β β βββ 2/*.npz
β β βββ 3/*.npz
β β βββ .
β β βββ .
β β βββ 100/*.npz
β βββ skelneton/
β β βββ 1/*.npz
β β βββ 2/*.npz
β β βββ 3/*.npz
β β βββ .
β β βββ .
β β βββ 100/*.npz
βββ FPO_NS_2D_1024x256/
β βββ harmonics/
β β βββ 1/*.npz
β β βββ 2/*.npz
β β βββ 3/*.npz
β β βββ .
β β βββ .
β β βββ 100/*.npz
β βββ nurbs/
β β βββ 1/*.npz
β β βββ 2/*.npz
β β βββ 3/*.npz
β β βββ .
β β βββ .
β β βββ 100/*.npz
β βββ skelneton/
β β βββ 1/*.npz
β β βββ 2/*.npz
β β βββ 3/*.npz
β β βββ .
β β βββ .
β β βββ 100/*.npz
βββ LDC_NSHT_2D_constant-Re/
β βββ 128x128/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
β βββ 256x256/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
β βββ 512x512/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
βββ LDC_NSHT_2D_variable-Re/
β βββ 128x128/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
β βββ 256x256/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
β βββ 512x512/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
βββ LDC_NS_2D/
β βββ 128x128/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
β βββ 256x256/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
β βββ 512x512/
β β βββ harmonics_lid_driven_cavity_X.npz
β β βββ harmonics_lid_driven_cavity_Y.npz
β β βββ nurbs_lid_driven_cavity_X.npz
β β βββ nurbs_lid_driven_cavity_Y.npz
β β βββ skelneton_lid_driven_cavity_X.npz
β β βββ skelneton_lid_driven_cavity_Y.npz
βββ LDC_NS_3D/
β βββ LDC_3D_X.npz
β βββ LDC_3D_Y.npz
βββ README.md
βββ .gitattributes
βββ croissant.json
βββ info.txt
Citation If you find this dataset useful in your research, please consider citing our paper as follows:
@article{tali2024flowBench,
title = "FlowBench: A Large Scale Benchmark for Flow Simulation over Complex Geometries",
author = "Tali, Ronak and Rabeh, Ali and Yang, Cheng-Hau and Shadkhah, Mehdi and Karki, Samundra and Upadhyaya, Abhisek and Dhakshinamoorthy, Suriya and Saadati, Marjan and Sarkar, Soumik and Krishnamurthy, Adarsh and Hegde, Chinmay and Balu, Aditya and Ganapathysubramanian, Baskar"
year = "2024"
}
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