You currently have two options if you want to apply effects and filters to your photos: use an app that will inevitably harvest your data for training their AI model (we’re watching you, Instagram), or actually edit your photos manually, which requires time, software subscriptions, and the patience of a saint. Reddit user sharkbiscuit101 unlocked a third option, and it involves a Raspberry Pi 4, a rotary encoder, a gamepad, and a frankly unreasonable amount of ingenuity. The build produces glitch photography on the pixel level, in real time, through a custom script running entirely offline on hardware you can source yourself. No cloud upload, no terms of service, and crucially, no algorithm deciding what your creative output should look like. This is your camera, running your parameters, answering to nobody.
The camera itself works exactly how you’d want a dedicated glitch tool to work. Hit the shutter button, but before you do, twist the rotary dial to control how aggressively the Pi’s script mangles the RGB channels of whatever you’re pointing at. The result lands somewhere between a corrupted memory card and a fever dream, and the specific character of the glitch is entirely yours to tune through on-screen sliders before you commit to a shot. A small preview screen shows you the live feed so you can watch the image fall apart in real time, which is exactly as satisfying as it sounds. The rotary encoder also handles preset saves, so when you find a combination of settings that produces something genuinely beautiful and broken, you can lock it in and recall it later.
Designer: sharkbiscuit101
The physical design is wonderfully unashamed about what it is. A transparent acrylic chassis sandwich holds the Pi 4 and an Arducam module at the center, with a small HDMI screen on the front face showing the preview, and a Adafruit gamepad breakout board mounted beside it for navigation. A Sharge battery pack, the rectangular kind you’d find at Amazon, clamps to the side and handles power duties. Since the Pi 4 has no dedicated power button, the battery’s own switch becomes the on-off toggle, which is one of those practical workarounds that somehow feels more elegant than a purpose-built solution. Brass standoffs hold the whole sandwich together, giving the build a satisfying mechanical solidity that belies its component-bin origins.
Sharkbiscuit101 hasn’t released the script or component list publicly yet, though the Reddit thread is essentially one long, enthusiastic demand that they do exactly that. The sample images they’ve posted, saturated cascades of cyan and red over a person’s silhouette, a park scene dissolved into chromatic noise, a building rendered in kaleidoscopic symmetry, make a compelling case for why people want to replicate this. When the files do drop, expect a flood of variations, because this is precisely the kind of open-ended hardware that the maker community will run with in seventeen different directions simultaneously.
