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I'm trying to "replicate" the behaviour of CUDA's __synchtreads() function in Ruby. Specifically, I have a set of N threads that need to execute some code, then all wait on each other at mid-point in execution before continuing with the rest of their business. For example:

x = 0

a = do
  x = 1

b = do 
  # x should have been changed
  raise if x == 0

[a,b].each { |t| t.join }

What tools do I need to use to accomplish this? I tried using a global hash, and then sleeping until all the threads have set a flag indicating they're done with the first part of the code. I couldn't get it to work properly; it resulted in hangs and deadlock. I think I need to use a combination of Mutex and ConditionVariable but I am unsure as to why/how.

Edit: 50 views and no answer! Looks like a candidate for a bounty...

share|improve this question
@sawa I actually found the bug in my code show above, and got it to work but I'm open to cleaner suggestions. Is sleep() considered bad practice? – user2398029 Dec 7 '12 at 17:35
sleep is not a good practice. It is not something you should absolutely avoid, but try to avoid when possible. I have the feeling that you can somehow utilize Thread#join or use Fiber. – sawa Dec 7 '12 at 17:38
Thanks, I'll add fiber as a tag. – user2398029 Dec 7 '12 at 17:58
up vote 6 down vote accepted

Let's implement a synchronization barrier. It has to know the number of threads it will handle, n, up front. During first n - 1 calls to sync the barrier will cause a calling thread to wait. The call number n will wake all threads up.

class Barrier
  def initialize(count)
    @mutex =
    @cond =
    @count = count

  def sync
    @mutex.synchronize do
      @count -= 1
      if @count > 0
        @cond.wait @mutex

Whole body of sync is a critical section, i.e. it cannot be executed by two threads concurrently. Hence the call to Mutex#synchronize.

When the decreased value of @count is positive the thread is frozen. Passing the mutex as an argument to the call to ConditionVariable#wait is critical to prevent deadlocks. It causes the mutex to be unlocked before freezing the thread.

A simple experiment starts 1k threads and makes them add elements to an array. Firstly they add zeros, then they synchronize and add ones. The expected result is a sorted array with 2k elements, of which 1k are zeros and 1k are ones.

mtx =
arr = []
num = 1000
barrier = num do
  Thread.start do
    mtx.synchronize { arr << 0 }
    mtx.synchronize { arr << 1 }
end .map &:join;
# Prints true. See it break by deleting `barrier.sync`.
puts [
  arr.sort == arr,
  arr.count == 2 * num,
  arr.count(&:zero?) == num,
  arr.uniq == [0, 1],

As a matter of fact, there's a gem named barrier which does exactly what I described above.

On a final note, don't use sleep for waiting in such circumstances. It's called busy waiting and is considered a bad practice.

share|improve this answer
Nice answer, very helpful! One question: is it necessary to synchronize when adding to the array (array << 0)? Would it be possible to circumvent this by using a thread-safe array implementation, which uses its own locks? Or is that necessary for this solution to work? – user2398029 Dec 8 '12 at 21:00
The mtx Mutex is here to assure that there won't be any race conditions between threads writing to the array. A thread-safe array you're describing should work fine too. – Jan Dec 8 '12 at 21:23

There might be merits of having the threads wait for each other. But I think that it is cleaner to have the threads actually finish at "midpoint", because your question obviously impliest that the threads need each others' results at the "midpoint". Clean design solution would be to let them finish, deliver the result of their work, and start a brand new set of threads based on these.

share|improve this answer
I agree 100%, but since this is for a CUDA emulator, it kind of defeats the purpose :) I could split the kernels based on static code analysis, but I would rather not go there. – user2398029 Dec 8 '12 at 4:18
In that case, heed not a word of what I said earlier :-) – Boris Stitnicky Dec 8 '12 at 4:49

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