I have a short code that uses the multiprocessing package and works fine on my local machine.

When I uploaded to AWS Lambda and run there, I got the following error (stacktrace trimmed):

[Errno 38] Function not implemented: OSError
Traceback (most recent call last):
  File "/var/task/recorder.py", line 41, in record
    pool = multiprocessing.Pool(10)
  File "/usr/lib64/python2.7/multiprocessing/__init__.py", line 232, in Pool
    return Pool(processes, initializer, initargs, maxtasksperchild)
  File "/usr/lib64/python2.7/multiprocessing/pool.py", line 138, in __init__
  File "/usr/lib64/python2.7/multiprocessing/pool.py", line 234, in _setup_queues
    self._inqueue = SimpleQueue()
  File "/usr/lib64/python2.7/multiprocessing/queues.py", line 354, in __init__
    self._rlock = Lock()
  File "/usr/lib64/python2.7/multiprocessing/synchronize.py", line 147, in __init__
    SemLock.__init__(self, SEMAPHORE, 1, 1)
  File "/usr/lib64/python2.7/multiprocessing/synchronize.py", line 75, in __init__
    sl = self._semlock = _multiprocessing.SemLock(kind, value, maxvalue)
OSError: [Errno 38] Function not implemented

Can it be that a part of python's core packages in not implemented? I have no idea what am I running on underneath so I can't login there and debug.

Any ideas how can I run multiprocessing on Lambda?


As far as I can tell, multiprocessing won't work on AWS Lambda because the execution environment/container is missing /dev/shm - see https://forums.aws.amazon.com/thread.jspa?threadID=219962 (login may be required).

No word (that I can find) on if/when Amazon will change this. I also looked at other libraries e.g. https://pythonhosted.org/joblib/parallel.html will fallback to /tmp (which we know DOES exist) if it can't find /dev/shm, but that doesn't actually solve the problem.

  • 4
    Can you elaborate on how to solve this problem with joblib? I am testing it out right now, and joblib is failing back to serial operations: [Errno 38] Function not implemented. joblib will operate in serial mode – pjgranahan Mar 17 '17 at 7:19
  • 4
    This thread seems to suggest that joblib can not actually work around this issue. – pjgranahan Mar 17 '17 at 7:47
  • 1
    Yeah sorry, I never dug deep enough into this. Could well be unworkable. – glennji Mar 21 '17 at 2:56
  • 4
    Please update your answer. It looks misleading until a visitor has to read comments. – Mohamed Taher Alrefaie Jul 30 '18 at 16:56

You can run routines in parallel on AWS Lambda using Python's multiprocessing module but you can't use Pools or Queues as noted in other answers. A workable solution is to use Process and Pipe as outlined in this article https://aws.amazon.com/blogs/compute/parallel-processing-in-python-with-aws-lambda/

While the article definitely helped me get to a solution (shared below) there are a few things to be aware of. First, the Process and Pipe based solution is not as fast as the built in map function in Pool, though I did see nearly linear speed-ups as I increased the available memory/CPU resources in my Lambda function. Second there is a fair bit of management that has to be undertaken when developing multiprocessing functions in this way. I suspect this is at least partly why my solution is slower than the built in methods. If anyone has suggestions to speed it up I'd love to hear them! Finally, while the article notes that multiprocessing is useful for offloading asynchronous processes, there are other reasons to use multiprocessing such as lots of intensive math ops which is what I was trying to do. In the end I was happy enough with the performance improvement as it was much better than sequential execution!

The code:

# Python 3.6
from multiprocessing import Pipe, Process

def myWorkFunc(data, connection):
    result = None

    # Do some work and store it in result

    if result:

def myPipedMultiProcessFunc():

    # Get number of available logical cores
    plimit = multiprocessing.cpu_count()

    # Setup management variables
    results = []
    parent_conns = []
    processes = []
    pcount = 0
    pactive = []
    i = 0

    for data in iterable:
        # Create the pipe for parent-child process communication
        parent_conn, child_conn = Pipe()
        # create the process, pass data to be operated on and connection
        process = Process(target=myWorkFunc, args=(data, child_conn,))
        pcount += 1

        if pcount == plimit: # There is not currently room for another process
            # Wait until there are results in the Pipes
            finishedConns = multiprocessing.connection.wait(parent_conns)
            # Collect the results and remove the connection as processing
            # the connection again will lead to errors
            for conn in finishedConns:
                # Decrement pcount so we can add a new process
                pcount -= 1

    # Ensure all remaining active processes have their results collected
    for conn in parent_conns:

    # Process results as needed
  • This code is a little hard to follow. Is myPipedMultiProcessFunc a viable replacement for Pool.map()? – Alex R May 26 at 16:49
  • As written myPipedMultiProcessFunc is much faster than running myWorkFunc in a sequential loop. It has been awhile since I wrote this, but my recollection is that this implementation is about 80% of the speed of Pool.map(). Happy to follow up if there are particular bits of my code that are unclear. – E Morrow May 27 at 21:16

multiprocessing.Pool does not seem to be supported natively (because of the issue with SemLock), but multiprocessing.Process, multiprocessing.Queue, multiprocessing.Pipe etc work properly in AWSLambda.

That should allow you to build a workaround solution by manually creating/forking processes and using a multiprocessing.Pipe for communication between the parent and child processes. Hope that helps

  • 1
    multiprocessing.Queue doesn't work for me and I get the same error as in the question. – Robin Elvin Apr 12 '17 at 15:00
  • Queue doesn't work, and you can't do any locks between the processes without the /dev/shm – Atifm Jun 8 '17 at 14:43

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