Raspa
БесплатноНе проверенWraps the RASPA2 molecular simulation engine into MCP tools, enabling AI agents to autonomously design, validate, execute, and interpret molecular simulations f
Описание
Wraps the RASPA2 molecular simulation engine into MCP tools, enabling AI agents to autonomously design, validate, execute, and interpret molecular simulations for porous materials.
README
Python MCP Tests Ruff NumPy Matplotlib License: MIT RASPA2
Turn any AI agent into a molecular simulation expert — overnight.
raspa-mcp is a Model Context Protocol (MCP) server that wraps RASPA2 — the gold-standard molecular simulation engine for porous materials — into a clean, agent-friendly tool layer. Feed it a CIF file and a molecule name; let your agent handle the rest.
Why raspa-mcp?
Running RASPA2 correctly requires deep expertise: choosing the right ensemble, setting unit cell replications, picking force fields, validating Ewald summation parameters, and parsing Fortran-style output files. Historically this knowledge lived in the heads of computational chemists and nowhere else.
raspa-mcp encodes that expertise as 20 structured MCP tools — covering every major simulation type RASPA2 supports — so that an LLM agent like featherflow can autonomously design, validate, execute, and interpret molecular simulations without human intervention.
Features at a Glance
Simulation Templates (12 types)
| Template | Purpose |
|---|---|
GCMC |
Grand Canonical Monte Carlo — adsorption isotherms |
Widom |
Widom test-particle insertion — Henry coefficient at infinite dilution |
VoidFraction |
Helium void fraction (prerequisite for GCMC) |
NVT-MC |
Fixed-N Monte Carlo — configurational sampling, RDF |
NPT-MC |
Variable-volume MC — equilibrium density, flexible cell |
MD |
NVT Molecular Dynamics — diffusion, transport |
NPT-MD |
Constant-pressure MD — thermal expansion |
NVE-MD |
Microcanonical MD — energy conservation benchmarking |
GCMCMixture |
Binary mixture GCMC — co-adsorption, selectivity |
CBMC |
Configurational-Bias MC — chain/flexible molecules (C4+) |
TI |
Thermodynamic Integration — free energy ΔA |
FlexibleMD |
Flexible-framework MD — breathing, gate opening |
Output Parsing (7 parsers)
- Adsorption loading — mol/kg, mg/g, cm³(STP)/g, molecules/uc, ±errors
- Isosteric heat Qst — from energy fluctuations [kJ/mol]
- Henry coefficient & μ_ex — from Widom insertion, −RT ln(W)
- Helium void fraction — direct extraction
- Radial distribution function g(r) — peak detection, full r/g(r) arrays
- MSD → Diffusion coefficients — self D_s and collective D_c via Einstein relation (NumPy linear fit, latter 50% of trajectory)
- 3D density grid — 2D slice extraction from
.gridfiles - Thermodynamic Integration — trapezoidal ∫⟨∂U/∂λ⟩dλ → ΔA [kJ/mol]
- Multi-component mixture — per-component loading with backward compatibility
Analysis Tools
- Selectivity S_AB —
(x_A/x_B) / (y_A/y_B)from mixture loadings - Isotherm plotting — single and multi-MOF comparison PNGs (matplotlib)
- Density slice plotting — heatmap PNG from 3D grid data
Built-in Knowledge Base
- 6 molecules: CO2, N2, CH4, H2O, helium, n-butane (TraPPE / SPC-E)
- 5 force fields: TraPPE-CO2/N2/CH4/H2O, UFF — with mixing rules, pseudo-atom definitions
- Input validator — catches 20+ common mistakes before RASPA2 ever runs
- Environment checker — reports RASPA2 readiness on server startup
Installation
0. Install uv (if not already present)
# Linux / macOS
curl -LsSf https://astral.sh/uv/install.sh | sh
# Windows (PowerShell)
powershell -ExecutionPolicy ByPass -c "irm https://astral.sh/uv/install.ps1 | iex"
uv is a fast Python package manager. It replaces
pip+venvwith a single tool and handles the Python version automatically.
1. Clone and install the Python package
git clone https://github.com/lichman0405/raspa-mcp
cd raspa-mcp
uv sync
uv sync creates a virtual environment under .venv/, pins the Python version (3.11+), and installs all dependencies — no manual venv or pip needed.
2. Compile and configure RASPA2 (one-time setup)
uv run python -m raspa_mcp.installer
This single command:
- Checks for build tools (
git,gcc,make,autoconf,automake,libtool) and installs any that are missing automatically viaapt-get/dnf/yum/brewetc. - Clones RASPA2 from GitHub and compiles from source
- Installs to
~/.local/raspa2by default (override with--prefix) - Writes
RASPA_DIRandPATHexports to your shell RC file automatically
# custom install prefix:
uv run python -m raspa_mcp.installer --prefix /opt/raspa2
# force reinstall even if already present:
uv run python -m raspa_mcp.installer --force
After the command finishes, reload your shell:
source ~/.bashrc # or ~/.zshrc, ~/.profile, etc.
Compatibility: Tested on Ubuntu 24.04 (GCC 14). The installer automatically applies
-std=gnu11and other compiler flags to work around known issues in the RASPA2 source tree on modern GCC versions.
RASPA2 source: https://github.com/iRASPA/RASPA2
Reference: D. Dubbeldam, S. Calero, D.E. Ellis, R.Q. Snurr, Mol. Simul. 42, 81–101 (2016)
Quickstart — featherflow
Register raspa-mcp with one command (run in the featherflow project directory):
featherflow config mcp add raspa2 \
--command uv \
--arg run \
--arg --directory \
--arg /path/to/raspa-mcp \
--arg raspa-mcp \
--lazy \
--description "RASPA2 molecular simulation: GCMC, MD, adsorption isotherms, force fields, output parsing" \
--timeout 600
--lazy: raspa-mcp exposes 20 tools — lazy mode registers a single gateway entry-point instead of all tools upfront, keeping per-call LLM token cost low.--timeout 600: RASPA2 simulations can take minutes; featherflow recommends 300–600 s for scientific computing MCP servers.
Verify:
featherflow config mcp list
Your agent can now autonomously:
User: Study CO2 adsorption in ZIF-8 at 298 K from 0.1 to 50 bar.
Agent:
1. raspa-mcp.get_simulation_template("VoidFraction") → run RASPA2
2. raspa-mcp.parse_raspa_output(...) → void fraction = 0.47
3. raspa-mcp.get_simulation_template("GCMC") → fill placeholders × 7 pressures
4. raspa-mcp.validate_simulation_input(...) → clean
5. shell_exec → RASPA2 × 7
6. raspa-mcp.parse_raspa_output(...) → isotherm data
7. raspa-mcp.plot_isotherm(...) → ZIF-8_CO2.png
8. feishu-mcp.upload_file_and_share(...) → report delivered
No human intervention required.
MCP Tools Reference
| Tool | Category |
|---|---|
list_simulation_types |
Discovery |
get_simulation_template |
Input generation |
get_parameter_docs |
Input generation |
list_available_forcefields |
Force field |
get_forcefield_files |
Force field |
recommend_forcefield |
Force field |
list_available_molecules |
Molecule |
get_molecule_definition |
Molecule |
create_workspace |
Workspace |
validate_simulation_input |
Validation |
parse_raspa_output |
Output parsing |
parse_rdf_output |
Output parsing |
parse_msd_output |
Output parsing |
parse_ti_output |
Output parsing |
parse_density_grid |
Output parsing |
calculate_selectivity |
Analysis |
plot_isotherm |
Visualization |
plot_isotherm_comparison |
Visualization |
plot_density_slice |
Visualization |
check_raspa2_environment |
Environment |
generate_force_field_def |
Custom workflow |
generate_force_field_mixing_rules_def |
Custom workflow |
generate_pseudo_atoms_def |
Custom workflow |
generate_molecule_def |
Custom workflow |
inspect_cif |
Custom workflow |
recommend_supercell |
Custom workflow |
preflight_workspace |
Custom workflow |
get_workflow_recipe |
Custom workflow |
Custom-everything workflow
When you bring your own CIF, your own force field, and your own molecule definitions, the tooling above gives you safe builders for every file RASPA2 expects:
inspect_cif(cif) → formula, cell, charges, overlap warnings
recommend_supercell(cif, 12) → UnitCells line + ChargeMethod hint
create_workspace(work, name, cif)
generate_force_field_def(work) # safe "3 zeros" overwrite file
generate_force_field_mixing_rules_def(work, atom_types=[...]) # LJ ε/σ
generate_pseudo_atoms_def(work, atoms=[...]) # atom registry
generate_molecule_def(work, "MyAdsorbate", ...) # per-molecule .def
preflight_workspace(work) # cross-file sanity
force_field.def≠force_field_mixing_rules.def. The first file is overwrite rules (use the "3 zeros" minimum for almost every job). The second file is where Lennard-Jones ε/σ live. Mixing them up is the single most common cause of cryptic:#parse errors from RASPA2. The generators emit the correct format for both.
For an end-to-end recipe call get_workflow_recipe("custom_mof_gcmc").
All write operations are sandboxed under RASPA_MCP_WORKSPACE_BASE
(default ~/raspa_workspaces) — paths outside that root are rejected.
Testing
uv run pytest tests/ -q # 41 tests, ~1.5 s
uv run ruff check raspa_mcp/ tests/
Architecture
raspa-mcp/
├── raspa_mcp/
│ ├── server.py # 20 MCP tools (FastMCP, stdio transport)
│ ├── parser.py # Output parsers (loading, RDF, MSD, TI, density)
│ ├── validator.py # Input validator (20+ rule checks)
│ ├── installer.py # RASPA2 env detection + source build + raspa-mcp-setup CLI
│ └── data/
│ ├── templates.py # 12 simulation.input templates
│ ├── molecules.py # 6 molecule definitions + metadata
│ └── forcefields.py # 5 force field file sets
├── tests/
│ └── test_server.py # 41 unit tests
└── docs/
└── workflow.md # Full autonomous research workflow walkthrough
Full Business Workflow
See docs/workflow.md for a complete end-to-end walkthrough of an autonomous MOF screening study using featherflow + raspa-mcp + RASPA2 + feishu-mcp, from a single chat message to a ranked report delivered to Feishu — approximately 120–140 tool calls, zero human steps.
License
MIT
Acknowledgements
Built on top of RASPA2 by Dubbeldam, Calero, Ellis & Snurr. Force-field parameters from the TraPPE family (Martin, Siepmann et al.) and the Universal Force Field (Rappé et al.).
Установка Raspa
У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.
▸ github.com/lichman0405/raspa-mcpFAQ
Raspa MCP бесплатный?
Да, Raspa MCP бесплатный — установка в пару кликов через Unyly без оплаты.
Нужен ли API-ключ для Raspa?
Нет, Raspa работает без API-ключей и переменных окружения.
Raspa — hosted или self-hosted?
Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.
Как установить Raspa в Claude Desktop, Claude Code или Cursor?
Открой Raspa на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.
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