Zemax Server
БесплатноНе проверенEnables AI agents to control Ansys Zemax OpticStudio via ZOS-API, allowing optical design tasks like aperture settings, optimization, and analysis through natur
Описание
Enables AI agents to control Ansys Zemax OpticStudio via ZOS-API, allowing optical design tasks like aperture settings, optimization, and analysis through natural language.
README
Drive Ansys Zemax OpticStudio from Claude Code — live, via the ZOS-API — without touching Zemax's source or binaries.
This project turns a locally-installed Ansys Zemax OpticStudio into a set of named, self-describing tools that Claude Code (or any MCP client) can call. Each tool couples one ZOS-API operation with a plain description, so an AI agent can go from intent → optical-design action → numeric result.
It is non-invasive: it only loads the three public ZOS-API .NET assemblies
that ship with OpticStudio (ZOSAPI.dll, ZOSAPI_Interfaces.dll,
ZOSAPI_NetHelper.dll) through pythonnet.
Nothing in the Zemax install is modified.
Verified against Ansys Zemax OpticStudio 2025 R2.02.
Why this exists
Optical design in OpticStudio is a GUI-heavy, expertise-heavy loop. The ZOS-API exposes almost the entire object model — editors, analyses, optimizers, ray tracing — to external code. This repo wraps that surface for an AI agent so you can converse your way through a design:
"Connect in extension mode, set the aperture to F/4, add visible wavelengths, build a singlet, make the radii variables, run the wizard, then hammer-optimize and tell me the RMS spot."
Architecture
┌─────────────────┐ MCP (stdio) ┌──────────────────────┐ pythonnet/.NET ┌───────────────────────┐
│ Claude Code │◄──────────────►│ zemax_mcp.server │◄─────────────────►│ OpticStudio (ZOS-API) │
│ (WSL / Linux) │ python.exe │ (Windows Python) │ ZOSAPI.dll etc. │ GUI or headless │
└─────────────────┘ └──────────────────────┘ └───────────────────────┘
tools: zemax_connect · zemax_set_aperture · zemax_lde_* · zemax_optimize · zemax_run_analysis · zemax_nsc_* · zemax_eval
Two official connection modes, both supported:
| Mode | Call | Use it for |
|---|---|---|
| Interactive Extension | ConnectAsExtension(0) |
Attach to a running GUI so edits appear live. Enable Programming ▸ Interactive Extension first. |
| Standalone / Headless | CreateNewApplication() |
Launch a headless OpticStudio for batch/automation (needs Pro/Premium tier). |
⚠️ WSL note:
pythonnetloads Windows .NET, so the server runs under Windows Python (python.exe), invoked from Claude Code in WSL. See setup/INSTALL.md.
Repository layout
| Path | What |
|---|---|
zemax_mcp/connection.py |
Non-invasive dual-mode connector (extension + standalone) via ZOSAPI_NetHelper. |
zemax_mcp/server.py |
The MCP server — every ZOS-API feature exposed as a described tool. |
docs/function-to-feature-catalog.md |
Master map: GUI feature ↔ ZOS-API member ↔ what it does ↔ AI use-case. |
skills/sequential-design.md |
Playbook for sequential imaging design (aperture/fields/wavelengths → variables/solves → merit function → local/hammer/global optimization → aberration control), with runnable ZOS-API snippets. |
skills/non-sequential-design.md |
Playbook for non-sequential work (illumination, stray light, scatter, sources/detectors, ray splitting, importance sampling). |
examples/smoke_test.py |
End-to-end: build a singlet, optimize, print RMS spot. |
examples/beam_stabilization.py |
Closed-loop 2-FSM aimpoint stabilization on a real reflective telescope (converts it to NSC, senses the return, drives two FSMs). See docs/beam-stabilization-demo.md. |
examples/atmosphere_1080nm_2km.py |
Atmospheric channel for the 1.08 µm beam over 2 km — absorption (link budget) + scintillation (aperture averaging, fade) + turbulence tilt feeding the FSM loop, plus delivered_power() with first-order thermal blooming. See docs/atmosphere-1080nm-2km.md. |
examples/blooming_split_step.py |
Wave-optics split-step (BPM) thermal-blooming model — propagates the complex field to the 2 km target with a nonlinear thermal phase; the trustworthy blooming Strehl / beam-bending numbers. Validated vs diffraction theory + the link budget. |
setup/INSTALL.md |
Full setup + troubleshooting. |
Quick start
# 1. Install deps under Windows Python (3.11–3.13 recommended)
python -m pip install pythonnet "mcp[cli]"
# 2. Smoke-test the connection (open OpticStudio + Programming ▸ Interactive Extension first)
python -m zemax_mcp.connection extension
# 3. Register with Claude Code (from WSL)
claude mcp add zemax -- python.exe -m zemax_mcp.server
Then just talk to Claude about your optical system.
Tool surface (v0.1)
Connection: zemax_connect · zemax_disconnect · zemax_info
System: zemax_new_system · zemax_open_file · zemax_save_file ·
zemax_set_aperture · zemax_set_wavelengths · zemax_set_fields
Lens Data Editor: zemax_lde_summary · zemax_lde_insert_surface ·
zemax_lde_set_surface · zemax_set_variable
Optimize: zemax_merit_wizard · zemax_merit_value · zemax_optimize
(local/hammer/global) · zemax_quick_focus
Analyze: zemax_run_analysis (RayFan, StandardSpot, FftPsf, FftMtf, WavefrontMap, …) ·
zemax_spot_rms · zemax_analysis_series (x/y curves for ray fans / MTF) ·
zemax_batch_ray_trace (fast normalized ray trace)
Multi-config: zemax_mce_summary · zemax_mce_add_config · zemax_mce_add_operand
Tolerancing: zemax_tde_summary · zemax_tolerance_wizard · zemax_run_tolerancing
Non-sequential: zemax_nsc_summary · zemax_nsc_ray_trace · zemax_nsc_detector_data
Advanced: zemax_eval (gated escape hatch for un-wrapped calls)
The tool set is intentionally extensible — the function-to-feature catalog is the roadmap for wrapping the rest of the API.
Status & caveats
- v0.1 — verified live. All 31 MCP tools were run end-to-end against
OpticStudio 2025 R2.02 (Enterprise) in extension mode — including a full
build→optimize loop (merit 1.03→0.08, RMS spot 1453→56 µm), batch ray tracing,
ray-fan/MTF curve extraction, multi-config edits, a 21-operand tolerance wizard
- Monte-Carlo run, and NSC detector readout on the
Diode sample(50×50, total flux 15625). A member-name probe confirmed 33/35 members on the first pass; the two misses were fixed and re-verified: RMS spot isSpotData.GetRMSSpotSizeFor(field, 0)(polychromatic), the wavefront analysis IDM isWavefrontMap(notWavefront). Tool output is JSON-sanitized so non-finite values (e.g. a planar surface'sradius = Infinity) serialize safely.
- Monte-Carlo run, and NSC detector readout on the
- Session health. Many rapid
connect → New() → disconnectcycles can wedge the OpticStudio session (New_AnalysisreturnsNone; on-axis rays report spurious errors). The long-lived MCP server does one connection and holds it, so it won't hit this; the analysis tools now raise a clear "restart & reconnect" message if they detect the wedged state. - Extension mode arms one connection per click. Programming ▸ Interactive
Extension accepts a single
ConnectAsExtensionthen stops listening; the long-lived MCP server grabs it once and holds it, so this only matters if you run multiple one-shot scripts (re-click between each). - Standalone/headless was not available on this license despite the
Enterprise edition —
CreateNewApplication()succeeds butIsValidLicenseForAPIis false. Use extension mode. - Third-party wrappers exist and are worth knowing: ZOSPy (MIT, pythonnet, actively maintained — recommended for heavier use) and the older COM-based PyZOS (largely unmaintained since ~2016).
License
MIT (see project owner).
Built with a cited deep-research pass over the official Ansys/Zemax ZOS-API documentation and Knowledgebase. Non-invasive by construction.
Установка Zemax Server
У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.
▸ github.com/webworn/zemax-mcp-serverFAQ
Zemax Server MCP бесплатный?
Да, Zemax Server MCP бесплатный — установка в пару кликов через Unyly без оплаты.
Нужен ли API-ключ для Zemax Server?
Нет, Zemax Server работает без API-ключей и переменных окружения.
Zemax Server — hosted или self-hosted?
Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.
Как установить Zemax Server в Claude Desktop, Claude Code или Cursor?
Открой Zemax Server 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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