I’ll place the PCB components by first checking the existing board/layout state and connectivity, then sizing/confirming the board setup as needed, applying functional placement constraints, and running layout review afterward.
The schematic has connectivity and the board is already a 100×100 mm, 4-layer layout. One decorative logo footprint is reporting an enormous bounding box, so I’ll run placement with instructions to keep functional components compact and constrain decorative/mechanical items appropriately.
I’m blocked: you only have view access to this project, so I can inspect it but can’t save placement changes.
I verified the board has 257 components, 77 nets, and a 100×100 mm 4-layer layout. I also found the placement is being skewed by a decorative logo footprint reporting an enormous bounding box. To proceed, open an editable copy/fork or request edit access, then I can place the board and run the post-placement review.
To get started, talk to Flux or create a New Document.
Reviews
Documents
Documents are markdown text files which describe project goals, capture details, or even simulation outputs.
Assets
step
Kailh LP Choc PC Keycap.step
Kailh LP Choc PC Keycap3D Model
image.png
imageThumbnail
stp
RB-67-0-CEMENT.stp
RB-67-0-CEMENT
Raspberry-Pi logo.svg
Raspberry-Pi logoDefault
Pico Macro Keyboard AI Placement [Example]
The Pico Macro Keyboard is a compact and powerful macro pad built using the latest Raspberry Pi Pico 2. Inspired by the Figma Creator Micro, this keyboard is designed for customizable control and enhanced productivity. It features mechanical switches with per-key RGB lighting, along with two rotary encoders for added functionality. With a modular 4-layer PCB and fully customizable keymaps, it seamlessly integrates with any software, making it perfect for designers, gamers, and power users alike.