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I Have an i3 intel CPU ( dual core with hyper threading )
i'm usually monitoring my cpu usage using a sidebar gadget showing each core usage in separate line from ( 0 - 3 ).
but recently i noticed that core number 0 isn't being used at all.
after some search i bumped into a topic explaining the numbers and the idea that cores 0, 2 are the real cores and the 1, 3 are the hyper threaded cores, but according to that it means that my CPU's real core is never used and even my other core is useless.
and reading more i bumped into this multi-core-cpu-single-thread-behaviour-not-achieving-100 that says switching takes place, but still this didn't answer the question above, where is the real core 0 and why only 1 core is used.

as you can see that's the normal CPU usage, what happened to the core 0,2,3 why aren't they being used by other programs and why is only 1 core active even when lot of programs are running.

( ALL processes are using all cores, inspected through affinity )

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The distinction between real and hyper-threaded cores makes no sense. A hyper-threaded cores can interleave the execution of two threads. But neither of these is in any sense more “real” than the other. –  Konrad Rudolph Jan 10 '11 at 20:55
While I understand understanding how CPU works is needed for programming, this seems more appropriate for SuperUser to me. –  Suma Jan 10 '11 at 20:58

2 Answers 2

up vote 1 down vote accepted

With hyperthreading both logical CPUs on one core are equivalent. It is not one of the is real and the second is hyperthreaded. Both are sharing the same physical core. It does not matter at all which one of them is used. It is better to first schedule threads on different physical cores and only once all physical cores are used, use 2nd logical CPUs on the same cores, which seems exactly what you describe.

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Would there be any way to specify that an application or group of threads should only use one core, but may run as many threads on that core as it supports? Things like Interlocked.CompareExchange are cheap for programs running on one core, and expensive when running on multiple cores. Some applications might benefit more from the improved efficiency of single-core operation than from increased parallelism (especially if other applications or group of threads could use the other cores). –  supercat May 4 '11 at 22:01

Perhaps because there just are not more processed in need of computing power, and because SIBLING-level scheduling is considered more expensive. That is, processes - let's consider work-intensive ones for simplicity - will be assigned to different cores first before "overloading" a core (a group of N hw threads) with another program. In other words, a 6-core 4-thread machine usually populates the 24 threads in the order of 0, 4, 8, 12, 16, 20, 1, 5, 9, 13, 17, 21, 2, 6, 10, 14, 18, 22, 3, 7, 11, 15, 19, 23. (Slight deviations are of course possible due to "spontaneous" process migration.)

And it is not true only one thread is used: your very own graphpics shows Core 3 and 3) and Core 4 [sic] (it's threads 3 and 4) used, 1% and 2%. Most of the processes you see in the process list don't even run, they just sleep.

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