In case it helps to illustrate the point, those aren’t the most complicated things; those are areas in which a few very complicated, difficult problems exist. For example, semiconductors is a very massive field.
Designing the next utilitarian op amp is not something everyone can do but it’s not that difficult of a problem, necessarily.
Designing the next cutting edge CPU (for Intel or AMD or Apple or whatever) on the other hand is (I imagine) a handful of very difficult problems (most of which I have only the vaguest idea of) like optimizing pipeline and predictive execution or how to get to the next level chip design & fabrication process (which itself has a bunch of different issues, from what I gather).
That’s where I would expect the 10x or whatever to work. At the cutting edge of engineering and science where the hardest problems are.
In case it helps to illustrate the point, those aren’t the most complicated things; those are areas in which a few very complicated, difficult problems exist. For example, semiconductors is a very massive field.
Designing the next utilitarian op amp is not something everyone can do but it’s not that difficult of a problem, necessarily.
Designing the next cutting edge CPU (for Intel or AMD or Apple or whatever) on the other hand is (I imagine) a handful of very difficult problems (most of which I have only the vaguest idea of) like optimizing pipeline and predictive execution or how to get to the next level chip design & fabrication process (which itself has a bunch of different issues, from what I gather).
That’s where I would expect the 10x or whatever to work. At the cutting edge of engineering and science where the hardest problems are.