Just like how we still need assembly and C programmers for the most critical use cases, we'll still need Python and Golang programmers for things that need to be more efficient than what was vibe coded.
But do you really need your $whatever to be super efficient, or is it good enough if it just works?
That's not what determinism means though. A human coding something, irrespective of whether the code is right or wrong, is deterministic. We have a well defined cause and effect pathway. If I write bad code, I will have a bug - deterministic. If I write good code, my code compiles - still deterministic. If the coder is sick, he can't write code - deterministic again. You can determine the cause from the effect.
Every behavior in the physical World has a cause and effect chain.
On the other hand, you cannot determine why a LLM hallucinated. There is no way to retrace the path taken from input parameters to generated output. At least as of now. Maybe it will change in the future where we have tools that can retrace the path taken.
The investors who paid for the CEO who hired your project manager to hire you to figure that out, didn't.
I think in this analogy, vibe coders are project managers, who may indeed still benefit from understanding computers, but when they don't the odds aren't anywhere near as poor as a lottery. Ignorance still blows up in people's faces. I'd say the analogy here with humans would be a stereotypical PHB who can't tell what support the dev needs to do their job and then puts them on a PIP the moment any unclear requirement blows up in anyone's face.
I have no idea how an i386 works, let alone a modern cpu. Sure there are registers and different levels of cache before you get to memory.
My lack of knowledge of all this doesn’t prevent me from creating useful programs using higher abstraction layers like c.
