To manufacture things smaller, you need more precise machinery to make it. But to make the precise machinery, you need more precise tools to make *that*. So there are slow, but steady improvements where the technology we already have allows us to develop better technology. Cost is also a huge part of this. Once machines that could physically assemble small electronics (pick and place machines) became cheaper it became practical for more companies to make small electronics affordably, while before they might have been assembled by hand with a larger size and greater cost. As these machines make electronics cheaply, it becomes cheaper to make the machines as well, and the ability to assemble such small and precise things becomes more widespread.

Computer chips themselves are made with a complicated electrical/chemical/physical process that has many factors involved in it. There are only a few companies in the world that produce state-of-the-art processors like the ones in modern laptops and phones. They have a combination of the best knowledge and the best equipment, which is constantly refined to make them better and cheaper (cost reductions mostly come from fewer mistakes happening in manufacturing so more of what they make actually works and can be sold). There are so many precise tweaks and refinements, and so much expensive equipment that if one of these factories was lost, it would take quite a long time to regain those capabilities even if you had people who knew how it worked.

Basically it’s a lot of different technologies combining and building upon each other to make things smaller and cheaper.