Unless the hardware you are running on can accurately measure nanoseconds (hint - it can't), there is no way for Java to give you an accurate time stamp in ns.
On top of that, Java is not deterministic with regard to run time of code. At any time your code can be interrupted by a multitude of other house keeping tasks that the JVM is running, most notably garbage collection.
There is also the Hot Spot compiler, which will identify a piece of byte code being run very often, and will recompile it on the fly to native code, this causes a pause, but then performance is improved in later runs. If you want to remove the Hot Spot effect from the equation you need to soak test your code by running the code a few tens of thousands of times to make sure that it has been compiled to native code, then do the actual timed run to see how efficient the code is.
The end result as you have seen is that the code can be run several times, produce the same results but take differing amounts of time to return that result, and the bad news for OCD coders everywhere is that you will never make the number the same for each test run.
For performance testing like this, I would typically expect to run the code maybe 1,000 times and record fastest time, slowest time, mean time and standard deviation on my timings to get an accurate idea of the run time for a specific piece of code. If I get unexpected slow runs, I then look for full GC events in the logs when the verbose GC options are enabled on the VM.
Oh and don't forget that the OS your JVM is running on is providing a variable amount of runtime too, the OS has house keeping taks it is running too.