Raspberry-Pi

Klipper is a 3D printer firmware that moves motion planning off the printer’s microcontroller. The work runs on a Raspberry Pi or similar single-board computer instead. You get faster print speeds (300-500mm/s on a tuned Voron), pressure advance for cleaner corners, input shaping to kill ringing artifacts, and live config changes with no re-flashing. Klipper paired with a Mainsail or Fluidd web UI on a Raspberry Pi 5 is now the default stack for serious 3D printing.

Yes, you can build a self-sufficient, portable Raspberry Pi server powered entirely by the sun - no mains power, no generator, no ongoing fuel cost. With a 30W solar panel, a 12.8V LiFePO4 battery, a charge controller, and a handful of systemd scripts, you can run a weather station, a mesh network node, or a local web server indefinitely from a fence post, a rooftop, or a field station. This guide walks through the math, the parts, and the software that make it work reliably rather than just technically possible.

A smart garden irrigation system on Home Assistant joins three parts: a Wi-Fi sprinkler controller, a rain sensor, and automations. The automations cancel or adjust watering based on rainfall, soil moisture, and the forecast. With the WiseWater integration and the native scheduler in Home Assistant 2025.12, this setup now beats pricey cloud-bound irrigation systems. Here is how to build one from scratch.

Why DIY Smart Irrigation Beats the Commercial Options

Commercial smart sprinkler controllers like Rachio , Orbit B-hyve , and RainBird Wi-Fi run $100 to $200. Their “smart” features all need a cloud link and often a paid plan. That includes weather skip logic, seasonal tweaks, and soil type awareness. If the vendor shuts down its servers (remember Wink ?), those features revert to dumb timer-only watering. You’re left with an overpriced relay board.

PiKVM turns a Raspberry Pi into a full KVM-over-IP device. It gives you IPMI-like remote access to any computer’s BIOS, boot loader, and OS through a web browser. You wire the Pi to the target machine’s HDMI output and USB port. Then you open the PiKVM web page from anywhere on your network. You get live video of the screen, keyboard and mouse control, virtual media mounting, and ATX power control. A DIY build runs under $100 in parts. Even the top PiKVM V4 Plus at about $385 costs far less than IPMI modules from HPE or Dell.

A Raspberry Pi 5 running RetroPie or Batocera turns a $80 single-board computer into a retro gaming console that handles everything from NES and SNES through PlayStation 1, N64, Dreamcast, and even some PSP titles. The Pi 5’s quad-core 2.4 GHz Cortex-A76 CPU and VideoCore VII GPU deliver roughly 3x the single-core performance and 2.8x the GPU throughput compared to the Pi 4, making previously choppy N64 and Dreamcast games run at full speed for the first time on Pi hardware. With Bluetooth controller support, CRT shaders, and a polished menu system, the result rivals commercial retro consoles like the Analogue Pocket or Retroid Pocket at a fraction of the cost.

You can build a self-contained pen testing lab on a Raspberry Pi 5 running Kali Linux ARM64. Add a battery HAT, a 7-inch display, and a wireless adapter that does packet injection. Total cost lands between $200 and $250. The result is a pocket-sized hacking kit that runs Nmap, Burp Suite, Wireshark, Aircrack-ng, and Metasploit in the field, at CTF events, or on jobs where you can’t lug a laptop.