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"SECURE" KEYPAD

I didn't except that there would be a new popular puzzle in 2025
Solved in 5 / 143 / 14 .

Very fun puzzle! I did it in 5/217/14 at first, but then I went back and realized an inefficiency I could remove and got it down to 5/161/14 .

非常有意思的谜题，让我对 gen 命令有了更深刻的理解，感谢！
5/175/14

Nice puzzle, first did it with 2 but now also have the 1 chip solution. Solved in 5 / 179 / 14

That was fun! Inspired by s7eph4n my solution is now a 5 / 161 /14 .

I was like, "pffft. Child's play." Then i saw the story caveat. Ok, not quite as simple as it first appeared. I like that I ended up using an instruction that I've largely found useless.
First attempt: 8/206/18
Will revisit. Thanks for the puzzle!

After my first working solution, that performed ok-ish 10/368/27 , I realized that I don't need to check every digit on it's own . So I rebuild my solution and can now confirm, that a single MC6000 solution is possible.

Solved in 5/199/14
Nice puzzle, thanks.

My first spec, this was fun to make!
I wanted to find a nice balance between packaging and coding.
I landed on this layout that has enough room to fit quite a few components, but tight enough to force you to have to be a little creative with placement and wiring.
The four XBus inputs and two simple outputs are begging to be connected to a single MC6000, and I'm still looking for a way to solve it like that, but I don't know it it's possible.

I'm fairly happy with my current solution, it's simple enough that anyone who's made it to the custom specifications objective should be able to get something similar.

My solution stats:
Cost: ¥8
Power: 342
Lines of code: 23
Components: 1x MC6000, 1x MC4000