I totally understand that inversion but I think it's a bad analogy.
Industrial automation works by taking a rigorously specified designs developed by engineers and combining it with rigorous quality control processes to ensure the inputs and outputs remains within tolerances. You first have to have a rigorous spec, then you can design a process for manufacturing a lot of widgets while checking 1 out of every 100 of them for their tolerances.
You can only get away with not measuring a given angle on widget #13525 because you're producing many copies of exactly the same thing and you measured that angle on widget #13500 and widget #13400 and so on and the variance in your sampled widgets is within the tolerances specified by the engineer who designed the widget.
There's no equivalent to the design stage or to the QC stage in the vibe-coding process advocated for by the person quoted above.
Industrial automation works by taking a rigorously specified designs developed by engineers and combining it with rigorous quality control processes to ensure the inputs and outputs remains within tolerances. You first have to have a rigorous spec, then you can design a process for manufacturing a lot of widgets while checking 1 out of every 100 of them for their tolerances.
You can only get away with not measuring a given angle on widget #13525 because you're producing many copies of exactly the same thing and you measured that angle on widget #13500 and widget #13400 and so on and the variance in your sampled widgets is within the tolerances specified by the engineer who designed the widget.
There's no equivalent to the design stage or to the QC stage in the vibe-coding process advocated for by the person quoted above.