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On Linux, for a C/C++ program using pthreads, is there a way to see how threads were scheduled for the life of a process? I'd like to see which CPU(s) on which every thread runs. I'd like to see when threads were pre-empted (and why).

We have set up a test environment where two identical machines run identical processes. There is a third machine generating "clock" events to which the two machines listen (sent via multicast). The machines' processes do some stuff at each clock, then send a result to the third machine. The idea is that the third machine eliminates the clock synchronization problem (between the two identical machines). Our expectation is that the results coming back should be at exactly (or almost exactly) the same time. And generally they are. The problem is, we see occasional spikes, where one result is dramatically delayed (by an order of 10x the standard deviation of all results).

We are looking at micro-second level optimization. In this arena, cache misses and thread wake-up times become an issue. It is known that the total number of threads across all processes is greater than the number of CPU cores.

I suspect that these spikes are caused by the occasional "perfect storm" of thread preemption, thread-CPU migration (and therefore cache miss). Within the various processes, there are actually only two or three "important" threads doing time-sensitive work. The rest are ancillary/support threads, of lower priority. In total, the number of important/time-sensitive threads is actually equal to (or less than) the number of cores.

I suspect that the solution to this is to carefully assign important threads to their own core(s), and dump all the support threads onto their own core. But this would require a fair amount of development effort, and I'd like to confirm my suspicions before heading down this road.

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2 Answers 2

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strace - simple tool to trace process behavior, but seems can not check the core id.

lttng - need patch the kernel, but more impressive, you can know exactly what each core is doing like context switch/interrupt handling.

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In Linux you can get the cpu info for the thread using this command

pidstat -t -p <processid> 
    => will print the cpu info in which the process is running

In our application we use the following command to assign the cpu to the process/thread

taskset -c 1,3,11,12,13 <Binary> 

First we find the least loaded cpu and then assign the core binary (which should be least loaded ) to that cpu The remaining processes will be assigned to other CPU's

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You can also accomplish your first example with "taskset -p <pid>". However, with taskset, you assign your process to certain cores, but other processes can still be run on those cores, unless every user of that machine is careful to check CPU assignments as well. If you have few users/few processes this isn't too bad, but if you have many userss/processes, it becomes a management issue. You might also consider CPU shielding ("cset"), where you can actually set up CPU core mutual exclusion (including the kernel). –  Matt Feb 24 '12 at 15:44

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