Build and sample quantum stabilizer circuits through conversational simulation.
Copy the install command and let the AI configure it · recommended for beginners
No copy-paste install info for "stim-mcp-server" yet — see the docs or source repo.
Use Stim to build a simple repetition-code quantum error-correction circuit with 3 data qubits and 2 measurement rounds, then provide runnable circuit code and a summary of 1,000 samples.
Returns Stim circuit code, sampling steps, and a brief summary of measurement result distributions.
I want to verify whether this stabilizer circuit design is sound. Analyze the gate order, measurement setup, and possible logical issues, then suggest fixes.
Provides a diagnosis of the circuit structure, likely issues, and improved revision suggestions.
Build two circuit variants that achieve the same stabilizer measurement goal, then compare their gate counts, measurement complexity, and sampling behavior.
Returns two circuit designs and a comparison to help choose the more suitable implementation.
Simulate dynamic actions for any query with persistent state across sessions.
Control quantum lab instruments and measurement systems via QCodes and JupyterLab.
Conduct quantum computing research with paper search, ideation, experiments, and reporting.
Give LLMs persistent semantic memory with concept storage, linking, and retrieval.
Let AI directly control QEMU virtual machines for debugging and test automation.
Build, debug, and manage software tasks with natural language across LLMs.