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When a new thread is spawned, what is the algorithm for assigning the thread to a particular core?

That depends entirely on the OS. And the answer is usually a heavily modified round-robin scheme. Every x milliseconds, a core is interrupted, and a new thread placed on it (so there is no "least used core". As long as there are threads ready to run, every core will have something to do).

In Windows, I believe the highest-prioritized thread/process is always selected for execution. (So if you have one process running at high priority on a single-core system, that process will potentially run 100% of the time, starving out every other process. Of course this only applies if that process never blocks, which is unlikely in the real world.

Under Linux, lower-prioritized processes are regularly scheduled as well, just not as often.

But the best you can do is typically just assume that the OS will work out a fair scheme, and then try to play nice with the rest of the system. (Yield/block/sleep when you have nothing to do, allowing other threads to run).

Are threads moved from one core to another during their lifetime?

Of course. Imagine you have three threads running on a dualcore system. Show me a fair schedule that doesn't involve regularly moving threads between cores.

My final question, which is basically a reuse of the above, is about the .NET ThreadPool class, which handles things like .BeginInvoke and such. Does this class do any of this stuff? If not, why not, or should it? What stuff? Thread scheduling and choosing cores to run on? No, the threadpool is simply a mechanism to reuse threads for muliple tasks, instead of having to create a new thread for every single task, and then closing it afterwards.

Is there any way to tweak this handling, sort of hint at the operating system that this particular thread

That's what thread/process priority is for. If you have a thread that must get lots of CPU time, even when there are other CPU-intensive threads running, raise the thread's priority. But handle with care. Usually, there aren't many CPU-intensive threads running, which means that even at normal priority, you'll get 99.9% of the CPU time. As I said, Windows schedules higher-prioritized threads very aggressively, so only raise priority if you really mean it.
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When a new thread is spawned, what is the algorithm for assigning the thread to a particular core?

That depends entirely on the OS. And the answer is usually a heavily modified round-robin scheme. Every x milliseconds, a core is interrupted, and a new thread placed on it (so there is no "least used core". As long as there are threads ready to run, every core will have something to do).

In Windows, I believe the highest-prioritized thread/process is always selected for execution. (So if you have one process running at high priority on a single-core system, that process will potentially run 100% of the time, starving out every other process. Of course this only applies if that process never blocks, which is unlikely in the real world.

Under Linux, lower-prioritized processes are regularly scheduled as well, just not as often.

But the best you can do is typically just assume that the OS will work out a fair scheme, and then try to play nice with the rest of the system. (Yield/block/sleep when you have nothing to do, allowing other threads to run).

Are threads moved from one core to another during their lifetime? Of course. Imagine you have three threads running on a dualcore system. Show me a fair schedule that doesn't involve regularly moving threads between cores.

My final question, which is basically a reuse of the above, is about the .NET ThreadPool class, which handles things like .BeginInvoke and such. Does this class do any of this stuff? If not, why not, or should it? What stuff? Thread scheduling and choosing cores to run on? No, the threadpool is simply a mechanism to reuse threads for muliple tasks, instead of having to create a new thread for every single task, and then closing it afterwards.

Is there any way to tweak this handling, sort of hint at the operating system that this particular thread

That's what thread/process priority is for. If you have a thread that must get lots of CPU time, even when there are other CPU-intensive threads running, raise the thread's priority. But handle with care. Usually, there aren't many CPU-intensive threads running, which means that even at normal priority, you'll get 99.9% of the CPU time. As I said, Windows schedules higher-prioritized threads very aggressively, so only raise priority if you really mean it.