Jupyter Earth MCP Server
by Datalayer
Jupyter Earth MCP Server is a Model Context Protocol (MCP) server implementation providing tools for Geospatial analysis in Jupyter notebooks. It allows users to search for and download Earth data granules from NASA Earthdata within a Jupyter environment.
Last updated: N/A
π β¨ Jupyter Earth MCP Server
Github Actions Status PyPI - Version
π Jupyter Earth MCP Server is a Model Context Protocol (MCP) server implementation that provides a set of tools for πΊοΈ Geospatial analysis in π Jupyter notebooks.
The following demo uses the Earthdata MCP server to search for datasets and data granules on NASA Earthdata, this MCP server to download the data in Jupyter and the jupyter-mcp-server to run further analysis.
<div> <a href="https://www.loom.com/share/c2b5b05f548d4f1492d5c107f0c48dbc"> <p>Analyzing Sea Level Rise with AI-Powered Geospatial Tools and Jupyter - Watch Video</p> </a> <a href="https://www.loom.com/share/c2b5b05f548d4f1492d5c107f0c48dbc"> <img style="max-width:100%;" src="https://cdn.loom.com/sessions/thumbnails/c2b5b05f548d4f1492d5c107f0c48dbc-598a84f02de7e74e-full-play.gif"> </a> </div>Start JupyterLab
Make sure you have the following installed. The collaboration package is needed as the modifications made on the notebook can be seen thanks to Jupyter Real Time Collaboration.
pip install jupyterlab jupyter-collaboration ipykernel
pip uninstall -y pycrdt datalayer_pycrdt
pip install datalayer_pycrdt
Then, start JupyterLab with the following command.
jupyter lab --port 8888 --IdentityProvider.token MY_TOKEN --ip 0.0.0.0
You can also run make jupyterlab.
[!NOTE]
The
--ipis set to0.0.0.0to allow the MCP server running in a Docker container to access your local JupyterLab.
Use with Claude Desktop
Claude Desktop can be downloaded from this page for macOS and Windows.
For Linux, we had success using this UNOFFICIAL build script based on nix
# β οΈ UNOFFICIAL
# You can also run `make claude-linux`
NIXPKGS_ALLOW_UNFREE=1 nix run github:k3d3/claude-desktop-linux-flake \
--impure \
--extra-experimental-features flakes \
--extra-experimental-features nix-command
To use this with Claude Desktop, add the following to your claude_desktop_config.json (read more on the MCP documentation website).
[!IMPORTANT]
Ensure the port of the
SERVER_URLandTOKENmatch those used in thejupyter labcommand.The
NOTEBOOK_PATHshould be relative to the directory where JupyterLab was started.
Claude Configuration on macOS and Windows
{
"mcpServers": {
"jupyter-earth": {
"command": "docker",
"args": [
"run",
"-i",
"--rm",
"-e",
"SERVER_URL",
"-e",
"TOKEN",
"-e",
"NOTEBOOK_PATH",
"datalayer/jupyter-earth-mcp-server:latest"
],
"env": {
"SERVER_URL": "http://host.docker.internal:8888",
"TOKEN": "MY_TOKEN",
"NOTEBOOK_PATH": "notebook.ipynb"
}
}
}
}
Claude Configuration on Linux
CLAUDE_CONFIG=${HOME}/.config/Claude/claude_desktop_config.json
cat <<EOF > $CLAUDE_CONFIG
{
"mcpServers": {
"jupyter-earth": {
"command": "docker",
"args": [
"run",
"-i",
"--rm",
"-e",
"SERVER_URL",
"-e",
"TOKEN",
"-e",
"NOTEBOOK_PATH",
"--network=host",
"datalayer/jupyter-earth-mcp-server:latest"
],
"env": {
"SERVER_URL": "http://localhost:8888",
"TOKEN": "MY_TOKEN",
"NOTEBOOK_PATH": "notebook.ipynb"
}
}
}
}
EOF
cat $CLAUDE_CONFIG
Components
Tools
The server currently offers 1 tool:
download_earth_data_granules
- Add a code cell in a Jupyter notebook to download Earth data granules from NASA Earth Data.
- Input:
folder_name(string): Local folder name to save the data.short_name(string): Short name of the Earth dataset to download.count(int): Number of data granules to download.temporal(tuple): (Optional) Temporal range in the format (date_from, date_to).bounding_box(tuple): (Optional) Bounding box in the format (lower_left_lon, lower_left_lat, upper_right_lon, upper_right_lat).
- Returns: Cell output.
Building
You can build the Docker image it from source.
make build-docker