Generate Qucs schematics, run simulations, and parse circuit results programmatically.
Copy the install command and let the AI configure it · recommended for beginners
No copy-paste install info for "qucs-mcp" yet — see the docs or source repo.
Use qucs-mcp to generate a Qucs schematic for a common-emitter amplifier, choose component values suitable for audio signals, run an AC small-signal simulation, and return the gain and cutoff frequency.
A usable Qucs schematic, simulation results, and a parsed summary of gain and cutoff frequency.
Use qucs-mcp to create a second-order low-pass filter, run a frequency sweep simulation, and extract the -3 dB cutoff point, passband gain, and key response data.
The filter schematic, frequency-response simulation output, and a structured parsing of key metrics.
Use qucs-mcp to perform a parameter sweep on an RLC circuit, varying resistor and capacitor values, then run simulations and summarize resonance frequency and peak response across configurations.
A parameterized circuit, batch simulation outputs, and a comparison table or summary for each configuration.
Control quantum lab instruments and measurement systems via QCodes and JupyterLab.
Use Quartus II 9.1 via MCP for FPGA setup, simulation, compilation, and programming.
Lets AI assistants connect to and interact with the Qubic cryptocurrency network.
Enforce configurable QA strategies so AI-generated tests meet strict standards.
Helps developers discover Q-SYS controls and build Svelte UI components.
Let AI directly control QEMU virtual machines for debugging and test automation.