You can look at the whole hierarchy of memory, from CPU registers to memory to disk to external storage (floppy, CD, tape, etc.) as measured along multiple axes: flexibility, speed, cost. At one end (registers), memory can be used for arithmetic, addressing, and much more, and it is very fast, but very expensive and therefore very limited. At the other end (disk and external storage), it is slower, plentiful, inexpensive, but not terribly flexible.
As the gap between layers in this hierarchy have grown, you see caching mechanisms used to fill in the gap in performance, especially CPU cache (faster and more expensive than memory, and therefore smaller), and also cache in disk controllers.
The whole hierarchy is a balance of cost versus benefit. You can always have more memory, if you're willing to pay for it.
There are also limits in addressability, but these are also partly a matter of cost (the extra bits to address more memory tend to be needed in the most expensive end of the hierarchy, CPU and disk controllers), and these limits tend to be resolved as needed.