Stella MCP Server

May 22, 2026 · View on GitHub

A Model Context Protocol (MCP) server for creating and manipulating Stella system dynamics models. This enables AI assistants like Claude to programmatically build, read, validate, and save .stmx files in the XMILE format.

What is this for?

Stella is a system dynamics modeling tool used for simulating complex systems in fields like ecology, biogeochemistry, economics, and engineering. This MCP server allows AI assistants to:

Create models from scratch - Build stock-and-flow diagrams programmatically
Read existing models - Parse and understand .stmx files
Validate models - Check for errors like undefined variables or missing connections
Modify models - Add stocks, flows, auxiliaries, and connectors
Save models - Export valid XMILE files that open in Stella Professional

This is particularly useful for:

Teaching system dynamics modeling
Rapid prototyping of models through natural language
Batch creation or modification of models
Documenting and explaining existing models

Installation

From PyPI

pip install stella-mcp

From source

git clone https://github.com/bradleylab/stella-mcp.git
cd stella-mcp
pip install -e .

Requirements

Python 3.10+
mcp>=1.0.0

Configuration

Claude Desktop

Add to your claude_desktop_config.json:

{
  "mcpServers": {
    "stella": {
      "command": "stella-mcp"
    }
  }
}

Claude Code

Add to your .claude/settings.json:

{
  "mcpServers": {
    "stella": {
      "command": "stella-mcp"
    }
  }
}

Development mode

If running from source:

{
  "mcpServers": {
    "stella": {
      "command": "python",
      "args": ["-m", "stella_mcp.server"],
      "cwd": "/path/to/stella-mcp"
    }
  }
}

Recommended Agent Workflow

For a new model:

create_model with a stable model_id.
Add stocks, flows, and auxiliaries.
Run sync_connectors_from_equations.
Run inspect_model with include_validation=true.
Fix validation errors with update_*, rename_variable, or delete_variable.
Save with save_model.

For imported models:

read_model with compat_mode="permissive" to inspect warnings.
Run inspect_model to understand model structure.
Use compat_mode="strict" before final save when round-trip fidelity matters.

Available Tools

Model Creation & I/O

Tool	Description
`create_model`	Create a new model with name and time settings (start, stop, dt, method)
`set_sim_specs`	Update simulation time settings on an existing model
`read_model`	Load an existing .stmx file
`save_model`	Save model to a .stmx file

Templates

Tool	Description
`list_templates`	List built-in and user-defined templates (supports source/query/tag filters)
`get_template_info`	Get detailed metadata for one template
`load_template`	Load a template as a model in the current session
`save_as_template`	Save the current model as a reusable user template (optional description/tags)

Model Building

Tool	Description
`add_stock`	Add a stock (reservoir) with initial value and units
`add_flow`	Add a flow between stocks with an equation
`add_aux`	Add an auxiliary variable (parameter or calculation)
`update_stock`	Update stock fields while preserving relationships
`update_flow`	Update flow fields while preserving stock links
`update_aux`	Update auxiliary variable fields
`add_connector`	Add a dependency connector between variables
`sync_connectors_from_equations`	Add missing dependency connectors inferred from equations
`set_connector_routing`	Set connector angle and explicit waypoint routing metadata
`rename_variable`	Rename a stock/flow/aux and update references in equations/connectors/modules
`delete_variable`	Delete a stock/flow/aux with consistency checks and cleanup
`create_module`	Create a logical module/group of variables
`add_to_module`	Add variables to an existing module/group
`remove_from_module`	Remove variables from a module/group
`rename_module`	Rename a module/group
`delete_module`	Delete a module/group
`set_module_view`	Set explicit module box position/size on the diagram
`set_module_style`	Set module box style (border/background/font/label side) on the diagram
`auto_place_module_boxes`	Auto-place module boxes around their members

Notes:

Tools accept optional model_id so one MCP session can manage multiple models safely.
create_model and read_model set the session's current model_id and return it.
add_flow and add_aux support optional graphical_function payloads (ypts plus exactly one of xscale or xpts).
add_stock/add_flow/add_aux reject duplicate variable names across variable types; add_connector requires both variables to exist.
set_connector_routing can target a connector by connector_uid or by from_var + to_var.
save_model and get_model_xml accept auto_layout (default true) and resolve_layout_violations (default false).
read_model, save_model, and get_model_xml accept compat_mode:
- permissive (default): continue with warnings
- strict: fail on compatibility issues
set_module_style updates module view styling and persists those attributes in XMILE view <group .../> elements.
save_as_template writes user templates to ~/.stella-mcp/templates by default (override via STELLA_MCP_TEMPLATE_DIR) and stores metadata in a .meta.json sidecar.
Tool failures return structured MCP errors with error.code, error.category, and error.message.

Model Inspection

Tool	Description
`list_models`	List available session model IDs and indicate the current model
`inspect_model`	Return a structured model summary for agent inspection
`list_modules`	List modules/groups in the current model
`list_connectors`	List connector IDs, endpoints, angles, and routing metadata
`list_variables`	List all stocks, flows, and auxiliaries
`validate_model`	Check for errors (undefined variables, missing connections, etc.)
`get_model_xml`	Preview the XMILE XML output

Tool Payload Examples

Create and switch between session models:

{"name":"create_model","arguments":{"name":"Population","model_id":"pop_v1"}}

{"name":"create_model","arguments":{"name":"Carbon","model_id":"carbon_v1"}}

{"name":"list_models","arguments":{}}

{"name":"inspect_model","arguments":{"model_id":"sir_baseline","include_validation":true}}

List and load templates:

{"name":"list_templates","arguments":{}}

{"name":"list_templates","arguments":{"source":"builtin","query":"epidem","tags":["epidemiology"]}}

{"name":"get_template_info","arguments":{"template_name":"sir"}}

{"name":"load_template","arguments":{"template_name":"sir","model_id":"sir_baseline"}}

Save current model as a user template:

{"name":"save_as_template","arguments":{"model_id":"pop_v1","template_name":"my_population_template","description":"Baseline single-stock growth starter","tags":["intro","population"]}}

Create and manage modules:

{"name":"create_module","arguments":{"model_id":"sir_baseline","name":"Disease Dynamics","members":["Susceptible","Infected","Recovered"]}}

{"name":"add_to_module","arguments":{"model_id":"sir_baseline","module_name":"Disease Dynamics","members":["infection","recovery"]}}

{"name":"list_modules","arguments":{"model_id":"sir_baseline"}}

{"name":"remove_from_module","arguments":{"model_id":"sir_baseline","module_name":"Disease Dynamics","members":["recovery"]}}

{"name":"rename_module","arguments":{"model_id":"sir_baseline","module_name":"Disease Dynamics","new_name":"Disease Core"}}

{"name":"delete_module","arguments":{"model_id":"sir_baseline","module_name":"Disease Core"}}

Rename and delete variables safely:

{"name":"rename_variable","arguments":{"model_id":"sir_baseline","old_name":"population_total","new_name":"total_population"}}

{"name":"delete_variable","arguments":{"model_id":"sir_baseline","name":"recovery"}}

{"name":"delete_variable","arguments":{"model_id":"sir_baseline","name":"Susceptible","force":true}}

Update an existing variable:

{"name":"update_flow","arguments":{"model_id":"pop_v1","name":"growth","equation":"Population * growth_rate * stress_modifier"}}

Infer missing connectors from equations:

{"name":"sync_connectors_from_equations","arguments":{"model_id":"pop_v1"}}

Set module view geometry directly:

{"name":"set_module_view","arguments":{"model_id":"sir_baseline","module_name":"Disease Dynamics","x":420,"y":280,"width":420,"height":240}}

Set module view style:

{"name":"set_module_style","arguments":{"model_id":"sir_baseline","module_name":"Disease Dynamics","border_color":"#666666","background":"#FFF7E6","font_color":"#333333","font_size":"10pt","label_side":"top"}}

Auto-place module boxes from current member positions:

{"name":"auto_place_module_boxes","arguments":{"model_id":"sir_baseline","padding":40,"only_missing":true}}

Target a specific model in later calls:

{"name":"add_stock","arguments":{"model_id":"pop_v1","name":"Population","initial_value":"100"}}

Read with strict compatibility checks:

{"name":"read_model","arguments":{"filepath":"./external_model.stmx","model_id":"imported","compat_mode":"strict"}}

Preview XML in permissive mode (default) and return compatibility warnings when present:

{"name":"get_model_xml","arguments":{"model_id":"imported","compat_mode":"permissive"}}

Valid graphical function payload:

{
  "name": "add_aux",
  "arguments": {
    "model_id": "pop_v1",
    "name": "lookup_rate",
    "equation": "GRAPH(Time)",
    "graphical_function": {
      "xscale": {"min": 0, "max": 100},
      "ypts": [0.1, 0.2, 0.4, 0.6],
      "type": "continuous"
    }
  }
}

Invalid graphical function payload (rejected):

{
  "name": "add_aux",
  "arguments": {
    "name": "bad_lookup",
    "equation": "GRAPH(Time)",
    "graphical_function": {
      "xscale": {"min": 0, "max": 100},
      "xpts": [0, 10, 20, 30],
      "ypts": [0.1, 0.2, 0.4, 0.6]
    }
  }
}

Example Usage

Creating a simple population model

User: Create a simple exponential growth model with a population starting at 100
      and a growth rate of 0.1 per year

Claude: [Uses create_model, add_stock, add_aux, add_flow, add_connector, save_model]
        Creates population_growth.stmx with:
        - Stock: Population (initial=100)
        - Aux: growth_rate (0.1)
        - Flow: growth (Population * growth_rate) into Population

Reading and analyzing an existing model

User: Read the carbon cycle model and explain what it does

Claude: [Uses read_model, list_variables]
        This model has 3 stocks (Atmosphere, Land Biota, Soil) and 6 flows
        representing carbon exchange through photosynthesis, respiration...

Building a biogeochemical model

User: Create a two-box ocean model with surface and deep nutrients

Claude: [Uses create_model, add_stock (x4), add_aux (x8), add_flow (x6), save_model]
        Creates a model with nutrient cycling between surface and deep ocean
        including upwelling, downwelling, biological uptake, and remineralization

Validation

The validate_model tool checks for:

Undefined variables - References to variables that don't exist
Mass balance issues - Stocks without flows, flows referencing non-existent stocks
Missing connections - Equations using variables without connectors (warning)
Connector endpoint integrity - Connectors pointing at missing variables (error)
Orphan flows - Flows not connected to any stock
Circular dependencies - Infinite loops in auxiliary calculations
Module integrity - Empty modules (warning) and modules referencing missing members (error)

XMILE Compatibility

Output files use the XMILE standard
Compatible with Stella Professional 1.9+ and Stella Architect
Auto-layout positions elements reasonably; adjust manually in Stella if needed
Variable names with spaces are converted to underscores internally
Parser normalizes imported stock inflow/outflow and connector endpoint references
Time-step export avoids lossy reciprocal rounding (non-exact reciprocals are exported as plain dt)
Import/export preserves unknown attrs/elements on supported sections (header, sim_specs, variables, views/model extras) to reduce round-trip data loss
Compatibility corpus regression tests live in tests/fixtures/compat_corpus/ and run in CI
Maintainer helper: python scripts/sync_compat_corpus_manifest.py --check validates corpus manifest sync

Project Structure

stella-mcp/
├── README.md
├── LICENSE
├── pyproject.toml
└── stella_mcp/
    ├── __init__.py
    ├── server.py      # MCP server wiring + schemas
    ├── tool_handlers.py # Tool handler implementations/registration
    ├── tool_schemas.py  # MCP tool schema definitions
    ├── xmile.py       # Core model types + layout logic
    ├── xmile_io.py    # XMILE parsing/export helpers
    └── validator.py   # Model validation logic

Contributing

Contributions are welcome! Please feel free to submit issues or pull requests.

Maintainer Release

PyPI publishing is handled by .github/workflows/publish.yml using PyPI Trusted Publishing. To release a new version:

Update the version in pyproject.toml and stella_mcp/__init__.py.
Merge the release changes to main.
Create and publish a GitHub release with a matching tag, for example v0.5.0.

The GitHub release event builds the source distribution and wheel, then publishes them to PyPI through the configured trusted publisher.

License

MIT License - see LICENSE for details.

Acknowledgments

Model Context Protocol by Anthropic
ISEE Systems for Stella and the XMILE format