Assembly effectively is coding in binary. Been a long time since I’ve looked at it, but you’d basically just be recreating the basic assembly commands anyway.
I guess you could try flipping individual transistors with a magnet or an electron gun or something if you really want to make things difficult.
If you actually want to one-up assembly coders, then you can try designing your own processor on breadboard and writing your own machine code. Not a lot of easy ways to get into that, but there’s a couple of turbo dorks on YouTube. Or you could just try reading the RISC-V specification.
But even then, you’re following in someone else’s tracks. I’ve never seen someone try silicon micro-lithography in the home lab, so there’s an idea. Or you could always try to beat the big corps to the punch on quantum computing.
Assembly effectively is coding in binary. Been a long time since I’ve looked at it, but you’d basically just be recreating the basic assembly commands anyway.
I guess you could try flipping individual transistors with a magnet or an electron gun or something if you really want to make things difficult.
If you actually want to one-up assembly coders, then you can try designing your own processor on breadboard and writing your own machine code. Not a lot of easy ways to get into that, but there’s a couple of turbo dorks on YouTube. Or you could just try reading the RISC-V specification.
But even then, you’re following in someone else’s tracks. I’ve never seen someone try silicon micro-lithography in the home lab, so there’s an idea. Or you could always try to beat the big corps to the punch on quantum computing.