Configure and use GPIO in Raspberry Pi. When to trigger: When you need to control simple peripherals such as LEDs and Buttons, when you need to simply control Servo and Motors, or when you need to directly control GPIO. Don't trigger: When the hardware carrier is not Raspberry Pi, when you need to precisely control Servo and Motors.
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Select your agent
Option 1: Install via CLI (recommended)
Recommended (no pre-install needed)
npx clawhub@latest --dir ~/.claude/skills install raspberry-pi-gpioOr via clawhub CLI (if already installed)
clawhub --dir ~/.claude/skills install raspberry-pi-gpioβ οΈ Requires Node.js 18+. No Node? Use Option 2 below to download the ZIP instead. Install Node.js β
Option 2: Manual install (no Node required)
Download the ZIP, extract it, and place the folder at the path below. Restart your agent to activate.
Install path
~/.claude/skills/raspberry-pi-gpio/π‘Extract and place the folder at the path above, then restart your agent.
Category
π»Developer & DevOpsWhat raspberry-pi-gpio can do for your AI workflow
Gpio in raspberry pi directly from your Claude conversation
Works across Claude, Cursor, OpenClaw β install once, use everywhere
One-command installation β no complex setup required
Combine with other skills to build powerful multi-step AI workflows
Try these prompts with your AI agent after installing raspberry-pi-gpio
Help me get started with raspberry-pi-gpio
Explains what raspberry-pi-gpio does, walks through the setup, and runs a quick demo based on your current project
Use raspberry-pi-gpio to configure and use GPIO in Raspberry Pi
Invokes raspberry-pi-gpio with the right parameters and returns the result directly in the conversation
What can I do with raspberry-pi-gpio in my developer & devops workflow?
Lists the top use cases for raspberry-pi-gpio, with example commands for each scenario
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raspberry-pi-gpio extends your AI assistant with the ability to configure and use GPIO in Raspberry Pi. When to trigger: When you need to control simple peripherals such as LEDs and Buttons, when you need to simply control Servo and Motors, or when you need to directly control GPIO. Don't trigger: When the hardware carrier is not Raspberry Pi, when you need to precisely control Servo and Motors. Rather than leaving your conversation to handle this manually, you can ask your Claude agent directly β and it will take care of the task end-to-end, using raspberry-pi-gpio as its underlying capability.
raspberry-pi-gpio works across Claude, Cursor, OpenClaw through the Model Context Protocol (MCP) β an open standard that lets AI clients share tools and skills without lock-in. Because MCP is platform-agnostic by design, you install raspberry-pi-gpio once and it becomes available across all your AI clients. Whether you're working in Claude for focused sessions or Cursor for integrated workflows, the skill behaves consistently.
raspberry-pi-gpio installs like any other MCP skill: drop the folder into `~/.claude/skills/raspberry-pi-gpio/` for global access, or `.claude/skills/raspberry-pi-gpio/` to keep it scoped to one project. After a quick restart of Claude, you can trigger it explicitly with `/raspberry-pi-gpio`, or let the AI decide when it's the right tool for your request.
raspberry-pi-gpio has 450 installs and is part of the growing Developer & DevOps skill ecosystem on DiscoverAISkills. Like all skills on DiscoverAISkills, it is free to install and use. The broader AI skills ecosystem continues to expand as developers contribute new capabilities across categories like developer tools, data analysis, writing, automation, and more.
Place the skill folder at ~/.claude/skills/raspberry-pi-gpio/ for personal use (all projects), or .claude/skills/raspberry-pi-gpio/ for project-specific use. Restart your AI client, then invoke with /raspberry-pi-gpio or let the AI discover it automatically.
raspberry-pi-gpio supports Claude, Cursor, OpenClaw. It integrates seamlessly with these AI platforms to extend their capabilities.
raspberry-pi-gpio is free to install. Check the repository for licensing information.
Configure and use GPIO in Raspberry Pi. When to trigger: When you need to control simple peripherals such as LEDs and Buttons, when you need to simply control Servo and Motors, or when you need to directly control GPIO. Don't trigger: When the hardware carrier is not Raspberry Pi, when you need to precisely control Servo and Motors.
Raspberry Pi
Set up and maintain Raspberry Pi avoiding common hardware and configuration pitfalls.
Raspberry Pi Manager
Manage Raspberry Pi devices β GPIO control, system monitoring (CPU/temp/memory), service management, sensor data reading.
raspberry-pi-camera-service
Provides the ability to use the camera to take photos, record videos or directly generate gifs. When to trigger: When you need to take a picture, when you need to observe the current field of view for a period of time, when you need to pay attention to the progress of something.
Platforms
Automate my developer & devops tasks using raspberry-pi-gpio
Identifies repetitive steps in your workflow and sets up raspberry-pi-gpio to handle them automatically
raspberry-pi-gpio is categorized under Developer & DevOps. These skills help AI agents perform specialized tasks in this domain.