I have done some measurement over linux scheduler. The linux is "Linux version 2.6.18-194.el5 (email@example.com)" and machine is with 8 cpus. The measurement is the only workload on that machine.
The measurement is two sets. In the first set, 8 threads are set up and each of same computation costs. Second set is to split one thread into two, resulting in totally 9 threads (2 out of which is half in cost of the other 7 threads).
When I run the two measurement sets, I expect the throughput is the same, for the total computation costs are the same and linux scheduler should (though I'm not sure) schedule those two smaller threads in one core. The results turn out to be there is dramatic decrease in throughput from 8 threads to 9 threads. Anyone has ideas what could be the reason.
Edit: @Waldheinz. Those threads are set up in order (say 0, 1 ... 7) and a (endless) stream of tuples go through from thread 0, 1 to thread 7. Each tuple spend sometime on each thread, doing some computation. All 8 threads are of the same computation costs as in the first set of measurement.
Updates: If the number of threads changed to 16, meaning every core has two threads, throughput is improved to the case of 8 threads...