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Are go-routines pre-emptively multitasked for numerical problems?

I am very intrigued by the lean design of Go, the speed, but most by the fact that channels are first-class objects. I hope the last point may enable a whole new class of deep-analysis algorithms for big data, via the complex interconnection patterns which they should allow.

My problem domain requires real-time compute-bound analysis of streaming incoming data. The data can be partitioned into between 100-1000 "problems" each of which will take between 10 and 1000 seconds to compute (ie their granularity is highly variable). Results must however all be available before the output makes sense, ie, say 500 problems come in, and all 500 must be solved before I can use any of them. The application must be able to scale, potentially to thousands (but unlikely 100s of thousands) problems.

Given that I am less worried about numerical library support (most of this stuff is custom), Go seems ideal as I can map each problem to a goroutine. Before I invest in learning Go rather than say, Julia, Rust, or a functional language (none of which, as far as I can see, have first-class channels so for me are at an immediate disadvantage) I need to know if goroutines are properly pre-emptively multi-tasked. That is, if I run 500 compute-bound goroutines on a powerful multicore computer, can I expect reasonably load balancing across all the "problems" or will I have to cooperatively "yield" all the time, 1995-style. This issue is particularly important given the variable granularity of the problem and the fact that, during compute, I usually will not know how much longer it will take.

If another language would serve me better, I am happy to hear about it, but I have a requirement that threads (or go/coroutines) of execution be lightweight. Python multiprocessing module for example, is far too resource intensive for my scaling ambitions. Just to pre-empt: I do understand the difference between parallelism and concurrency.

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As far as I know, Go does exactly that. If all Go routines are non-blocking, Go switches between them time-slice based. – FUZxxl Jun 8 '14 at 12:38
And is heavy numerical computing "non blocking"? What does block a goroutine? – Thomas Browne Jun 8 '14 at 12:45
@Thomad Browne: Blocking function are those that need to suspend you Go-routine until a result is available, such as sending to / receiving from a channel, calling runtime.Gosched() or doing IO. If your function does none of these. it's not a blocking function. – FUZxxl Jun 8 '14 at 13:47

2 Answers 2

up vote 3 down vote accepted

The Go runtime has a model where multiple Go routines are mapped onto multiple threads in an automatic fashion. No Go routine is bound to a certain thread, the scheduler may (and will) schedule Go routines to the next available thread. The number of threads a Go program uses is taken from the GOMAXPROCS environment variable and can be overriden with runtime.GOMAXPROCS(). This is a simplified description which is sufficient for understanding.

Go routines may yield in the following cases:

  • On any operation that might block, i.e. any operation that cannot return a result on the sport because it is either a (possible) blocking system-call like io.Read() or an operation that might require waiting for other Go routines, like acquiring a mutex or sending to or receiving from a channel
  • On various runtime operations
  • On function call if the scheduler detects that the preempted Go routine took a lot of CPU time (this is new in Go 1.2)
  • On call to runtime.Gosched()
  • On panic()
  • On various other occassions

The following things prevent a Go routine from yielding:

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Two very interesting bullets here: "on function call if [it] took a lot of CPU time". That's my use case for each Go routine. Also "Executing a tight loop that doesn't contain function calls". So basically, it's not truly pre-emptive. I have to make sure I am periodically calling functions in my goroutine. I cannot have a monolithic piece of numerical code running in the goroutine, as this will block the entire thread, effectively limiting me to GOMAXPROCS parallelism. I see the scheduler has already become more sophisticated since 1.0; is there a chance it could become purely pre-emptive? – Thomas Browne Jun 8 '14 at 15:12
I'm thinking btw this will probably not be a problem in the sense that I can probably yield explicitly or via a function call at fixed periodic intervals, or perhaps write the algo using functions, essentially achieving my objective. I just would have liked to be able to have true pre-emption. – Thomas Browne Jun 8 '14 at 15:19
@ThomasBrowne You will never get more than GOMAXPROCS parallelism anyway. Also notice that the Go compiler might inline functions (even across modules), especially if they are non-recursive / only contain computations. – FUZxxl Jun 8 '14 at 15:22
@ThomasBrown I can only speculate about whether Go will become fully preemptive. Most applications don't require that (in fact, only applications that do a lot of computationally expensive tasks do) and it's quite tricky to get right, outright impossible on some platforms. Consider pinning the Go routine that accepts incoming data to an OS thread or better profile before you do such a thing. – FUZxxl Jun 8 '14 at 15:25
yes I understood that I would never get more than GOMAXPROCX parallelism when I "hit the metal", but the algo depends on load balancing - that is, faster serial results are much less useful than parallel results that are all slower to compute. Also, in the interest of scalability proper pre-emptiveness would have been good as I could just add hardware. It seems I now have two levels of parallelism. Not really a problem as I think you are right that most applications, indeed including mine, probably don't need thousands of preemptive threads as we can use other techniques. Still ... ;) – Thomas Browne Jun 8 '14 at 15:32

Not sure I fully understand you, however you can set runtime.GOMAXPROCS to scale to all processes, then use channels (or locks) to synchronize the data, example:

const N = 100

func main() {
    runtime.GOMAXPROCS(runtime.NumCPU()) //scale to all processors
    var stuff [N]bool
    var wg sync.WaitGroup
    ch := make(chan int, runtime.NumCPU())
    done := make(chan struct{}, runtime.NumCPU())
    go func() {
        for i := range ch {
            stuff[i] = true
    for i := range stuff {
        go func(i int) {

            for { //cpu bound loop
                select {
                case <-done:
                    fmt.Println(i, "is done")
                    ch <- i
    go func() {
        for _ = range stuff {
            done <- struct{}{}
    for i, v := range stuff { //false-postive datarace
        if !v {
            panic(fmt.Sprintf("%d != true", i))
    fmt.Println("All done")

EDIT: Information about the scheduler @

Goroutine scheduler

The scheduler's job is to distribute ready-to-run goroutines over worker threads.

The main concepts are:

  • G - goroutine.
  • M - worker thread, or machine.
  • P - processor, a resource that is required to execute Go code. M must have an associated P to execute Go code, however it can be blocked or in a syscall w/o an associated P.

Design doc at

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I think he wants to know whether the Go scheduler is preemptive. – FUZxxl Jun 8 '14 at 14:41
Thanks for the formatting @FUZxxl – OneOfOne Jun 8 '14 at 14:53
This looks really interesting but I do not yet know enough about Go to make complete sense of what is being done in the code. I have successfully compiled and executed it, seems like I get pretty serial-like behaviour. I thought I would have gotten most of the 100 results "bunching" during output? What I would like to do is modify your code so that the workload in each goroutine is approximately equal, then I can see how the returns over time profile behaves for various N... – Thomas Browne Jun 8 '14 at 17:52
In my understanding you are launching 100 go routines, and when they're done they tell me so, but how much work are you giving each one to do? – Thomas Browne Jun 8 '14 at 17:54
All 100 should theoretically be running in the same time, when one finishes it pushes the results to the channel, the reason it looks serial is the fact I only sleep for 1 microsecond before signalling a random goroutine that it's done (notice the done <- struct{}{}), if you add random sleeps it will look different. – OneOfOne Jun 8 '14 at 19:10

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