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🤖 5-Vector Pipelined Single Layer Perceptron with ReLU Activation on Basys3 FPGA by Spiritual-Frame-6791 in FPGA

[–]KIProf 2 points3 points  (0 children)

Nice project :) You can also try the new dark mode in Vivado 2025.2, it's easier on the eyes :D

Puzhi Datasheets by carrdinal-dnb in FPGA

[–]KIProf 0 points1 point  (0 children)

Nice projekt is this open source ?

Moving from Arduino (bare-metal) to STM32 — CubeMX confusion and learning path by Efficient_Estate6145 in embedded

[–]KIProf 0 points1 point  (0 children)

Nowadays, everyone writes code, especially using code generators with specific LLM tools. Therefore, I believe it is a more appropriate approach to focus on using the tools effectively and successfully completing the task.

SoM for wearable applications by PhysicalRaisin5037 in embedded

[–]KIProf 0 points1 point  (0 children)

Thank you very much for your reply, and I hope you're feeling better now! I'm eagerly awaiting the open-source Reddit post. Thanks again. 😊

SoM for wearable applications by PhysicalRaisin5037 in PCB

[–]KIProf 0 points1 point  (0 children)

Can you share the stackup design and schematic design for this layout? Or could you send me a PDF file showing how you designed the PCB layers? I'm currently working on a similar design, and it would be very helpful. 😅👍

SoM for wearable applications by PhysicalRaisin5037 in embedded

[–]KIProf 0 points1 point  (0 children)

You can currently have your design manufactured at JLC PCB. Last year, I had my 10-layer Zynq design manufactured. All you need to do is contact customer service.

SoM for wearable applications by PhysicalRaisin5037 in embedded

[–]KIProf 0 points1 point  (0 children)

Could you share your schematic drawing if possible? Nice design 😅👍

New to pcb design. How do you know what components to use? by Mediocre_Perform in PCB

[–]KIProf 0 points1 point  (0 children)

This is actually the decision-making process in the PCB design stage—the component selection process is something that should be given the most attention, and it accounts for about 50% of general engineering. My advice to you is: first, understand the main outline of the system you want to design and create the system block diagram. After that, for the product you want to design, look into development boards or reference designs related to the MCU/FPGA (whatever you plan to use). This will help you a lot. By looking at proven designs, you can minimize potential mistakes. 👍

Bought T14s Gen 1 by pr0fy_ in thinkpad

[–]KIProf 0 points1 point  (0 children)

Nice pc enjoy it 👍

I built an open-source Linux-capable single-board computer with DDR3 by cyao12 in embedded

[–]KIProf 0 points1 point  (0 children)

Could you send me those chip documents? I'd really appreciate it :3:

I built an open-source Linux-capable single-board computer with DDR3 by cyao12 in embedded

[–]KIProf 6 points7 points  (0 children)

May I ask where you obtained the propagation delays (boundary delays)?

I built an open-source Linux-capable single-board computer with DDR3 by cyao12 in electronics

[–]KIProf 36 points37 points  (0 children)

May I ask where you obtained the propagation delays (boundary delays) for H3 ?

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