A good speaker, blogger has the answer embedded in the problem itself, it is reasonable to assume that a similar rule applies to economics. A silent person probably has it in silence, and with all the frivolity, is it a joke?

Precision is a wonderful property, but in the current economy it is applied to the industry, or perhaps better yet, to the place, locally.

For example, if we take mechanical engineering, then with precision levels above the required limits, there will most likely be a huge number of failures under enormous work loads and due to other possible factors caused by the specifics of the work. And in principle, it is impossible to talk about continuously scalable systems in mechanical engineering. In mechanical engineering, there are standard sizes, model series. Here, in passing, one could ask the question of why dinosaurs became extinct.

Mechanical engineering is remarkable technology at the level of space. Mechanical engineering is and remains a remarkable platform for the introduction of the latest technologies, investment. But the boom in the development of mechanical engineering occurred in the previous generation and this progress was not driven by the desire for precision. I would not bet on precision, but would leave a field of freedom that assumes the presence of a number of points with a certain degree of precision, with the ability to play according to the situation.

If we move on to the information model, we obtain the ability to deploy due to a number of typical blocks with a freedom field in which points with a certain degree of precision are embedded. But reality in the smallest details is still very far from the calculated models and theories.

Photo: Sphere Hoberman, Microsoft Designer