Sampling cpu-cycles with perf record is useful for finding optimization candidates if core-utilization is roughly constant. But for code that has multiple phases differing in parallelism counting cpu-cycles will emphasize heavily parallel phases while under-emphasizing sequential or limited-parallelism phases that impact wall-time. In short, naïve perf use may highlight the wrong limb of amdahl's law

So the question is how to get perf record/perf report to find optimization candidates for reducing wall-time which could be anything from the hottest loop in consistently parallel code, over a moderately-parallel bottleneck to a long single-threaded phase.

Known workarounds that leave something to be desired:

  • executeing the workload on a single core so that wall-time ≅ cpu-cycles
  • profiling individual components separately

meta: this is a perf-specific followup to a more general question

  • 2
    Insofar as you have asked five questions and given 1000 answers, today's question is a rare event, isn't it?
    – thb
    Commented Mar 13, 2019 at 0:12
  • If your parallel program has something like OpenMP or MPI parallelism and there is no oversubscribing and threads are bound to the cores (OMP_PROC_BIND, affinity) you can profile only cpu core with the main thread (perf record -C 0 ./omp_program or perf report -C 0) - it will partially remove the wrong limb. Second idea - do a diff between main thread and worker thread (-C 1). Third idea: add signalling using trace events into your parallel library and try to use --switch-on/--switch-off of perf-report. Could you add example?
    – osgx
    Commented Feb 25, 2020 at 10:33

1 Answer 1


KDAB Hotspot is a GUI that can analyze perf record output and also show context switches and core utilization if the profiles have been recorded with -e sched:sched_switch --switch-events --sample-cpu

enter image description here

  • no, and I don't think comments are appropriate for that kind of troubleshooting.
    – the8472
    Commented Oct 15, 2021 at 18:43

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.