At Wed, 13 Jun 2012 17:49:15 +0300, Daniel Kalchev wrote: > > > > On 12.06.12 16:08, Momchil Ivanov wrote: > > So the L2 cache is shared between both cores and hence it's size does > > not matter at all? > > If the cache is shared between both cores then it does not matter on > which core the process runs, as long as data is in teh case. The cache > size is irrelevant. > > Some CPUs have shared cache between cores, some don't. The ULE scheduler > takes this into account, the 4BSD does not. Even if the ULE scheduler > takes the CPU topology into consideration, if you only have two cores, > it is almost guaranteed that processes will be switched between both, > because the OS is running way more than two processes "at the same time". > > Even with more cores... it is not guaranteed an computational process > won't be 'bouncing'. Here is an example. > Suppose you have an 8 core (or threads) CPU. If you happen to have an > modern Ethernet controller, like the Intel 82576 (the igb driver in > FreeBSD), then it will use up to 8 interrupt lines, by default routing > them each to a different core. Then, if you have heavier network > traffic, chances are that at any given moment all 8 interrupts might be > fired and all 8 cores switched to service network traffic -- removing > your computational process from the running queue. The next time it > runs, it might run on any other core, especially if the cache is not shared. > > Of course, if you have sufficiently large number of CPUs, you can > configure your system so that such things do not happen, like by > limiting the number of cores the igb driver attaches to, and have some > of the cores dedicated to 'only' running an computational task. > > There is however, very little sense doing so.
OK, thank you for the explanation. Regards, Momchil _______________________________________________ [email protected] mailing list http://lists.freebsd.org/mailman/listinfo/freebsd-stable To unsubscribe, send any mail to "[email protected]"
