So, in this case above don't we know we need to reserve 3 times the size of int of the underlying java platform ?
Well actually slightly more than that - because arrays are objects with a class reference, as well as the length.
But yes, in this case you happen to know the size in advance. But Java also lets you write:
int a = new int[getLengthFromMethod()];
... in which case no, the amount of memory won't be known at compile time. This flexibility makes it considerably simpler to work with arrays than if you had to know the size at compile time. (Imagine trying to make
ArrayList work otherwise, for example.)
But bear in mind that memory allocation is very dynamic in Java in general - it's effectively only really the size of stack frames which is known in advance, and then only in relative terms (as the size of a reference can vary between platforms). All1 objects are allocated on the heap and references are used to keep track of them.
1 Okay, aside from smart JVMs which are sometimes able to allocate inline after performing escape analysis.