The detail is simply that you said "must generate values continuously", and if that, to the extreme, is true, then CPU saturation is actually the goal.
But, if you define "continuously" as X values per second, then there is room to work.
Because then you can run your process at 100% CPU, measure the number of values over time, and if you find that it's generates more values than necessary (more than X/sec), then you can now insert pauses in to the process as appropriate until the value rate reaches your desired goal.
The plan being to continually monitor and adjust the pauses to maintain your value rate over time. Then your process will take as much CPU as necessary to meet your values/sec goal.
If you have a benchmark of values/sec that you are happy with, then interjecting the sleeps will give "all the priority necessary" to the other applications, but still maintain your throughput. If, on the other hand, you don't have any solid requirement, that is the requirement is "run as fast as possible when nothing else is running, with no actual requirement for ANY results if some other process dominates the CPU", then that's truly a kernel issue of the host OS, and not something the JVM has any direct, portable mechanism to address.
On Unix systems, you have the nice(1) command to adjust process (not thread) priority, and Windows has their own mechanism. With these commands, you can knock the priority of your Java process to just above "idle" (the default "process" that always runs when nothing else is running). But it's platform specific, as this is an inherently platform specific problem. This may well be managed through platform specific startup scripts that launch your Java program (or even a Java launcher that detects the platform and "does the right thing" before executing your actual code).
Most systems will allow you to lower your own process priorities, but few will let you raise unless you're an admin/superuser or have whatever the appropriate role is for your host OS.