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Is there a way to determine on which CPU a given thread runs on? Preferably in C#, but C++ would do.

The .NET Process and ProcessThread classes don't seem to provide this information.

ETA Clarifications:

We are developing a server application that processes http multicast streams and spawns multiple video encoders. This runs on a system with 12 physical cores, resulting in 24 logical CPUs (hyperthreading). Via TaskManager and ProcessExplorer we have verified that our spawned processes spread evenly over the logical CPUs. However, we are seeing a lot of (kernel?) activity on just one CPU that interferes by eating up unusual amounts of CPU time. We are trying to identify which process(es)/thread(s) are running on this particular CPU. Neither TaskManager nor ProcessExplorer seem to provide that information. If they do, please explain how such information can be obtained.

Otherwise, we are contemplating writing our own tool to get this information. And that is what we need help with.

We know how to change a threads affinity (and we know that there is no guarantee that a thread will remain associated with any CPU, although in this particular case the thread(s) eating up CPU remain associated with only one CPU), but in order to do so, we need to first determine WHICH process/thread needs to be relocated. That is the sole objective of this question.

I hope this helps clarifying the issue.

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7  
What problem are you trying to solve with this information? –  Cody Gray Jan 25 '12 at 6:56
    
It is known to the kernal only. So you need to program in kernal mode. Look for Kernal APIs on MSDN. –  Nawaz Jan 25 '12 at 6:56
2  
What would you want it to do if a thread ran on many different CPUs at different times? –  Jon Skeet Jan 25 '12 at 6:56
3  
We are running a complex application on a system with 12 cores. For reasons we need to find out we are seeing spiked CPU usage on only one core. We want to find out which threads (and thereby which processes or services) are running on this particular core. We don't know of a tool that gives that information and contemplating writing one of our own. –  Harald Jan 25 '12 at 7:01
1  
Not avalid quesstion. This is not about which CPU - it is about why the heck this supposeidly multi threaded program does not use more than one cpu. Check thread load in a proper profiler and you may see that you have a processing bottleneck. Visual Studio has ap profiler for this type of analysis. –  TomTom Jan 25 '12 at 7:39

3 Answers 3

If it's the current thread's logical processor number you're looking for you can P/Invoke to GetCurrentProcessorNumber() function.

[DllImport("kernel32.dll")]
int GetCurrentProcessorNumber();

int myProcessorNum = GetCurrentProcessorNumber();

If you're looking for physical processor number you need a bit more work with GetCurrentProcessorNumberEx() structures.

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Thanks, but that won't work in my case. We need to know the CPU for ANY thread. –  Harald Jan 25 '12 at 7:53
    
@Harald ProcExp might be helpful in that case. –  ssg Jan 25 '12 at 11:10
    
We used Process Explorer to see what's going on. It confirms that our encoding processes spread evenly over the available logical CPUs. I am not aware, however, that PE can help in identifying which processes run on a particular CPU. Can it? –  Harald Jan 25 '12 at 11:15

From MSDN, using the ProcessThread.ProcessorAffinity property you can set the thread affinity, but you cannot get it. By default threads have no affinity (can operate on any processor).

using System;
using System.Diagnostics;

namespace ProcessThreadIdealProcessor
{
    class Program
    {
        static void Main(string[] args)
        {
            // Make sure there is an instance of notepad running.
            Process[] notepads = Process.GetProcessesByName("notepad");
            if (notepads.Length == 0)
                Process.Start("notepad");
            ProcessThreadCollection threads;
            //Process[] notepads;
            // Retrieve the Notepad processes.
            notepads = Process.GetProcessesByName("Notepad");
            // Get the ProcessThread collection for the first instance
            threads = notepads[0].Threads;
            // Set the properties on the first ProcessThread in the collection
            threads[0].IdealProcessor = 0;
            threads[0].ProcessorAffinity = (IntPtr)1;
        }
    }
}

Similarly Thread.SetProcessorAffinity does the same thing.

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1  
In addition, threads ARE moved around, so even if you would get an answer it would not necessarily be valid the moment you try to check something. –  TomTom Jan 25 '12 at 7:38
    
Yeah, the ProcessorAffinity properties on Process and ProcessThread were my first hope, but as you pointed out, I can't GET it... –  Harald Jan 25 '12 at 7:54
    
@TomTom: yes, they can be moved, but in our case a snapshot would already provide valuable information. –  Harald Jan 25 '12 at 7:56
    
@Harald implicitly if you set the processor affinity you know what it is. Is it a third party component you are using which you need to know the affinity for? –  Dr. ABT Jan 25 '12 at 9:15
1  
@Harald have you tried using third party profiling applications like JetBrains dotTrace (highly recommended) or ANTS Profiler? jetbrains.com/profiler –  Dr. ABT Jan 25 '12 at 10:04

This is not possible to do in a continuous reliable way. OS task scheduler optimises threads and splits load between available CPU cores. In general case a thread can be executed on any CPU. Moreover with context switches it can also change it's CPU.

If you need to pin-point specific a thread or a process you can only assign its affinity, so you can have reasonable hope that the process/thread will be executed on a particular logical CPU.

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Although technically correct, you answer is missing very important point. Knowing your current CPU can dramatically reduce contention by bucketing the shared resource. Yes, in rare cases you will be interrupted and moved to other core. This means that synch is still needed. But the perf results are incomparable. –  Kirill Kobelev Jun 13 '13 at 0:41
    
@KirillKobelev can you please give me some refs for this. I can see it working on a low level, but not sure how you can manage this from an application. Are you talking about NUMA? –  oleksii Jun 13 '13 at 8:56
    
Think about performance of int cnt[num_cores]; InterlockedIncrement(cnt[GetCurrCore()]); vs simple version with just one counter. –  Kirill Kobelev Jun 14 '13 at 16:31

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