Control a bench oscilloscope over LAN for hardware debugging and validation.
Copy the install command and let the AI configure it · recommended for beginners
No copy-paste install info for "oscilloscope-mcp" yet — see the docs or source repo.
Connect to the lab oscilloscope, configure channel 1 for RESET_N and channel 2 for the clock input, set an appropriate timebase and trigger, capture a power-on event, and summarize whether reset release timing matches expectations.
Returns the captured waveform, key timing measurements, and a conclusion on whether reset and clock behavior are correct.
Using my RTL simulation expectations, capture SPI CS, SCLK, MOSI, and MISO waveforms, measure timing parameters, and identify differences between the physical board behavior and simulation results.
Outputs a multi-channel waveform analysis, key timing comparisons, and a description of mismatches between simulation and hardware.
Run 20 triggered acquisitions on the target board, monitor GPIO pulse width and period stability, calculate min, max, and mean values, and flag samples outside tolerance.
Provides batch measurement statistics, anomaly records, and a concise summary suitable for regression testing.
Let AI control oscilloscopes for waveform capture and measurement analysis.
Connect AI to an Owon oscilloscope for capture, measurements, and remote control.
Control oscilloscopes and signal generators via SCPI for automated test workflows.
Control a PicoScope 5000A for capture, measurement, sweeps, and signal generation.
Generate, interpret, validate, and debug OSC messages with natural language control.
Control quantum lab instruments and measurement systems via QCodes and JupyterLab.