Control quantum lab instruments and measurement systems via QCodes and JupyterLab.
Copy the install command and let the AI configure it · recommended for beginners
No copy-paste install info for "InstrMCP" yet — see the docs or source repo.
Using InstrMCP, connect to the signal generator, oscilloscope, and cryogenic measurement controller on the current bench, verify their online status, and return the available instrument list and connection results.
A list of instruments, connection statuses, and error details for unavailable devices.
Use InstrMCP through QCodes to sweep gate voltage from -1V to 1V in 0.05V steps, record the corresponding conductance data, and organize it into a table for further analysis.
Measurement execution results, a sweep data table, and a brief description of the recorded data.
Based on InstrMCP, generate a JupyterLab workflow for quantum device electrical testing, including instrument initialization, sweep measurement, data saving, and exception interruption handling.
An executable workflow description or script outline covering initialization, measurement, and data saving.
Conduct quantum computing research with paper search, ideation, experiments, and reporting.
Connect AI agents to control local JupyterLab for coding and analysis.
Query and compare real-time IBM Quantum hardware status and performance data.
Connect to Jupyter via MCP to run code and explore data interactively.
Control lab automation devices via MCP and test workflows in simulation.
Let AI directly control QEMU virtual machines for debugging and test automation.