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--- |
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license: cc-by-sa-4.0 |
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task_categories: |
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- graph-ml |
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pretty_name: 3D RANS simulations of the rotor37 |
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tags: |
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- physics learning |
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- geometry learning |
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dataset_info: |
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features: |
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- name: Base_2_3/Zone/CellData/Density |
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list: float32 |
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- name: Base_2_3/Zone/CellData/NormalsX |
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list: float32 |
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- name: Base_2_3/Zone/CellData/NormalsY |
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list: float32 |
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- name: Base_2_3/Zone/CellData/NormalsZ |
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list: float32 |
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- name: Base_2_3/Zone/CellData/Pressure |
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list: float32 |
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- name: Base_2_3/Zone/CellData/Temperature |
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list: float32 |
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- name: Base_2_3/Zone/GridCoordinates/CoordinateX |
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list: float32 |
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- name: Base_2_3/Zone/GridCoordinates/CoordinateY |
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list: float32 |
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- name: Base_2_3/Zone/GridCoordinates/CoordinateZ |
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list: float32 |
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- name: Base_2_3/Zone/PointData/Density |
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list: float32 |
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- name: Base_2_3/Zone/PointData/NormalsX |
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list: float32 |
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- name: Base_2_3/Zone/PointData/NormalsY |
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list: float32 |
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- name: Base_2_3/Zone/PointData/NormalsZ |
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list: float32 |
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- name: Base_2_3/Zone/PointData/Pressure |
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list: float32 |
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- name: Base_2_3/Zone/PointData/Temperature |
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list: float32 |
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- name: Global/Compression_ratio |
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list: float32 |
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- name: Global/Efficiency |
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list: float32 |
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- name: Global/Massflow |
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list: float32 |
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- name: Global/Omega |
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list: float32 |
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- name: Global/P |
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list: float32 |
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splits: |
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- name: train |
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num_bytes: 1783864000 |
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num_examples: 1000 |
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- name: test |
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num_bytes: 214121825 |
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num_examples: 200 |
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download_size: 2197899526 |
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dataset_size: 1997985825 |
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configs: |
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- config_name: default |
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data_files: |
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- split: train |
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path: data/train-* |
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- split: test |
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path: data/test-* |
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--- |
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<p align='center'> |
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<img src='https://i.ibb.co/zThPK7B8/Logo-Rotor37-2-consolas-100.png' alt='https://i.ibb.co/zThPK7B8/Logo-Rotor37-2-consolas-100.png' width='1000'/> |
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<img src='https://i.ibb.co/DKP161M/rotor37-preview.png' alt='https://i.ibb.co/DKP161M/rotor37-preview.png' width='1000'/> |
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</p> |
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```yaml |
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legal: |
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owner: Safran |
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license: cc-by-sa-4.0 |
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data_production: |
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type: simulation |
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physics: 3D CFD RANS compressor blade |
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num_samples: |
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train: 1000 |
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test: 200 |
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storage_backend: hf_datasets |
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plaid: |
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version: 0.1.13.dev1+gb350f274a |
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``` |
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This dataset was generated with [`plaid`](https://plaid-lib.readthedocs.io/), we refer to this documentation for additional details on how to extract data from `plaid_sample` objects. |
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The simplest way to use this dataset is to first download it: |
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```python |
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from plaid.storage import download_from_hub |
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repo_id = "channel/dataset" |
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local_folder = "downloaded_dataset" |
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download_from_hub(repo_id, local_folder) |
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``` |
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Then, to iterate over the dataset and instantiate samples: |
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```python |
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from plaid.storage import init_from_disk |
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local_folder = "downloaded_dataset" |
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split_name = "train" |
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datasetdict, converterdict = init_from_disk(local_folder) |
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dataset = datasetdict[split] |
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converter = converterdict[split] |
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for i in range(len(dataset)): |
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plaid_sample = converter.to_plaid(dataset, i) |
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``` |
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It is possible to stream the data directly: |
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```python |
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from plaid.storage import init_streaming_from_hub |
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repo_id = "channel/dataset" |
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datasetdict, converterdict = init_streaming_from_hub(repo_id) |
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dataset = datasetdict[split] |
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converter = converterdict[split] |
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for sample_raw in dataset: |
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plaid_sample = converter.sample_to_plaid(sample_raw) |
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``` |
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Plaid samples' features can be retrieved like the following: |
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```python |
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from plaid.storage import load_problem_definitions_from_disk |
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local_folder = "downloaded_dataset" |
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pb_defs = load_problem_definitions_from_disk(local_folder) |
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# or |
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from plaid.storage import load_problem_definitions_from_hub |
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repo_id = "channel/dataset" |
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pb_defs = load_problem_definitions_from_hub(repo_id) |
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pb_def = pb_defs[0] |
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plaid_sample = ... # use a method from above to instantiate a plaid sample |
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for t in plaid_sample.get_all_time_values(): |
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for path in pb_def.get_in_features_identifiers(): |
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plaid_sample.get_feature_by_path(path=path, time=t) |
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for path in pb_def.get_out_features_identifiers(): |
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plaid_sample.get_feature_by_path(path=path, time=t) |
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``` |
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For those familiar with HF's `datasets` library, raw data can be retrieved without using the `plaid` library: |
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```python |
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from datasets import load_dataset |
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repo_id = "channel/dataset" |
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datasetdict = load_dataset(repo_id) |
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for split_name, dataset in datasetdict.items(): |
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for raw_sample in dataset: |
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for feat_name in dataset.column_names: |
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feature = raw_sample[feat_name] |
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``` |
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Notice that raw data refers to the variable features only, with a specific encoding for time variable features. |
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### Dataset Sources |
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- **Papers:** |
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- [arxiv](https://arxiv.org/pdf/2305.12871) |
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- [arxiv](https://arxiv.org/abs/2505.02974) |
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