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nick-leland
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heat1d-pde-dataset

Tasks:
Tabular Regression
Languages:
English
Size:
1K<n<10K
Tags:
physics,
scientific,
pin,
physics-informed-network,
pde,
partial-differential-equations,
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metadata
license: mit
task_categories:
  - tabular-regression
language:
  - en
tags:
  - physics,
  - scientific,
  - pin,
  - physics-informed-network,
  - pde,
  - partial-differential-equations,
  - heat-equation,
  - heat,
  - equation,
pretty_name: 1D Heat Equation PDE Dataset
size_categories:
  - 1K<n<10K

heat1d-pde-dataset

This dataset contains numerical solutions of the 1D heat equation with cooling terms, designed for machine learning applications in scientific computing and physics-informed neural networks.

Dataset Description

Dataset Summary

The dataset consists of spatiotemporal solutions to the 1D heat equation with boundary conditions and a cooling term. Each sample includes initial states, final states (with and without noise), simulation parameters, and elapsed times.

Supported Tasks

  • PDE Solution Prediction
  • Parameter Inference
  • Physics-Informed Machine Learning
  • Scientific Machine Learning Benchmarking

Dataset Structure 

{
    'initial_states': [N, 200],      # Initial temperature distribution
    'final_states': [N, 200],        # Final temperature distribution (with noise)
    'clean_initial_states': [N, 200], # Initial states without noise
    'clean_final_states': [N, 200],   # Final states without noise
    'parameters': [N, 3],            # [alpha, k, t_env]
    'elapsed_times': [N],            # Time between initial and final states
}

Data Fields

  • initial_states: Temperature distribution at t=0
  • final_states: Temperature distribution at t=elapsed_time
  • clean_initial_states: Noise-free initial states
  • clean_final_states: Noise-free final states
  • parameters:
    • alpha: Thermal diffusivity [1e-5, 1e-4]
    • k: Cooling coefficient [0.01, 0.1]
    • t_env: Environmental temperature [15, 35]
  • elapsed_times: Time difference between states

Data Splits

All data is provided in the training set. Users should create their own validation/test splits.

Source Code

The dataset was generated using a finite difference solver for the heat equation:

∂T/∂t = α∂²T/∂x² - k(T - T_env)

with boundary conditions:

  • T(x=0, t) = temp1
  • T(x=L, t) = temp2

Noise Levels

  • Input states: 1% of temperature range
  • Output states: 0.5% of temperature range
  • Parameters: 1% of parameter values

Usage

Install the datasets library:

pip install datasets

Load the dataset:

from datasets import load_dataset

# Download files locally
dataset = load_dataset("nick-leland/heat1d-pde-dataset", download_mode="force_redownload")

# Read the initial structure (h5py files)
df = dataset['train'].data.to_pandas()
file_path = df['image'][0]['path']
data = h5py.File(file_path, 'r')

# Access data
initial_states = data['initial_states'][:]
final_states = data['final_states'][:]
parameters = data['parameters'][:]
elapsed_times = data['elapsed_times'][:]

Dataset Creator

Nicholas Leland

Licensing Information

license: mit