I'm using isolcpus to assign a subset of the total CPU cores only for kernel tasks. This means that I can use the reminder for other tasks. I noticed when I run the tests/benchmarking tool from go, all the kernel processors are used (using htop). However, when I use taskset -c 3-10 go test -bench ., only one CPU core shows that is running the command. I was expecting the workload to be distributed to cores 3-10. Is it possible to achieve this?

Update: Thanks to @JimB for suggestion: I'm running the following golang code on the cpus cores reserved for kernel cores using taskset and works fine. But when scheduling outside those cores only one cpu core is used instead of the entire range specified in taskset.

package main

import (

func TestSchedSetaffinity(t *testing.T) {

    var newMask unix.CPUSet

    err := unix.SchedSetaffinity(0, &newMask)
    if err != nil {
            fmt.Printf("SchedSetaffinity: %v", err)

    for i := 0; i < 50; i++ {
            fmt.Println("Hello world")
            time.Sleep(2 * time.Second)
  • 3
    IIRC affinity masks should be preserved across forks, so I would assume the child process has the same settings as the go test process, but perhaps the runtime's thread management is somehow bypassing this. You could also try directly calling SchedSetaffinity with a pid of 0.
    – JimB
    Jan 25, 2022 at 15:22
  • @JimB Brilliant! This seems to work. Thank you!
    – Andrei
    Jan 25, 2022 at 20:13
  • I'm going back on this, but this seemed to work on a machine without isolcpus. When I tried to run on a machine with isolcpus it seems that only one CPU core is being exercised. Same behavior with cpusets. I'm wondering what is being started when not using taskset vs using taskset. Had a look at the number of threads started by the processor and it seems that it is changing every time I query for this info. Sometimes is 10, other times are 8. By looking at htop is seems that all the kernel cpus are exercises without taskset.
    – Andrei
    Jan 27, 2022 at 17:46
  • I'm not 100% sure what the question is here, but if you have a Go program with several goroutines, setting CPU affinity for a goroutine requires LockOSThread, else the runtime can (and will) put some other goroutine on that OS thread. It would also be useful to know what runtime.GOMAXPROCS(0) returns. That is the number of OS threads the runtime will try to use. Jan 28, 2022 at 20:15
  • It's a different command, but I use numactl on a BIG.little arm64 box for benchmarking on the big cores, and that yields the expected results -- the Go process uses exactly the specified cores, all of them, and no others. Jan 28, 2022 at 20:19

1 Answer 1


isolcpus does not work well with taskset and go. To take advantage of all allocated cpu cores you need to use chrt.

For example:

taskset -c 3-10 chrt 1 ./my_go_workload_binary

The assumption is that the cpu cores 3-10 in the isolcpus set.

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