Based on this question I assumed that creating new process should be almost as fast as creating new thread in Linux. However, little test showed very different result. Here's my code:
from multiprocessing import Process, Pool from threading import Thread times = 1000 def inc(a): b = 1 return a + b def processes(): for i in xrange(times): p = Process(target=inc, args=(i, )) p.start() p.join() def threads(): for i in xrange(times): t = Thread(target=inc, args=(i, )) t.start() t.join()
>>> timeit processes() 1 loops, best of 3: 3.8 s per loop >>> timeit threads() 10 loops, best of 3: 98.6 ms per loop
So, processes are almost 40 times slower to create! Why does it happen? Is it specific to Python or these libraries? Or did I just misinterpreted the answer above?
UPD 1. To make it more clear. I understand that this piece of code doesn't actually introduce any concurrency. The goal here is to test the time needed to create a process and a thread. To use real concurrency with Python one can use something like this:
def pools(): pool = Pool(10) pool.map(inc, xrange(times))
which really runs much faster than threaded version.
UPD 2. I have added version with
for i in xrange(times): child_pid = os.fork() if child_pid: os.waitpid(child_pid, 0) else: exit(-1)
$ time python test_fork.py real 0m3.919s user 0m0.040s sys 0m0.208s $ time python test_multiprocessing.py real 0m1.088s user 0m0.128s sys 0m0.292s $ time python test_threadings.py real 0m0.134s user 0m0.112s sys 0m0.048s