I'll expand on Beta's (correct) answer. All the individual make processes communicate with each other and guarantee that there will never be more than N jobs running across all the different make invocations, when you use
-jN. At the same time, they always guarantee that (assuming there are at least N jobs that can possibly be run across all the make invocations), N jobs will always be running.
Suppose instead that you had 4 directories with "something to do", which somehow you could know a priori, and so instead of invoking one instance of make with
-j4 and letting that make invoke the 4 submakes normally, you force each of the submakes to be invoked with
-j1. Now suppose that the first directory had 10 targets out of date, the second had 5, the third had 20, and the fourth had 100 out of date targets. At first you have 4 jobs running in parallel. Then once the second directory's 5 targets are built, you only have 3 jobs running in parallel, then 2, then for the rest of the build of the fourth directory you'll have only one target being built at a time and no parallelism. That's much Less Good.
The way GNU make works, instead, all four instances of make are communicating. When the second directory is done, the jobs it was running are available to the other directories, etc. By the end of the build the fourth directory is building four jobs at a time in parallel. That's much More Good.
Maybe if you explained why you want to do this, it would be more helpful to us in constructing an answer.