Software is better when you understand the silicon that runs it.
Since I was a kid in primary school, I was already melting things with batteries and hypnotized by soldering iron smoke. That dangerous curiosity led me to ESIME (IPN), where I learned a vital lesson: in hardware, errors smell like burning plastic(and a lot of heat). There is no Ctrl+Z.
High Stakes & Fireballs
Writing code is safe until you connect it to a 400W motor driver. In university, one wrong line of VHDL didn't just throw an error—it turned a MOSFET H-Bridge into a fireball. That smell of burnt silicon taught me more about latency and safety protocols than any textbook. Real-world automation doesn't just crash; it breaks.
I carried that "iron" discipline into software development. I don't just write code that passes tests; I write code that survives the real world. Today, I use Artificial Intelligence as a catalyst to build bridges between the physical and digital worlds, ensuring that the systems I build are as robust as the hardware they control.