I found that in Python 3.4 there are few different libraries for multiprocessing/threading: multiprocessing vs threading vs asyncio.

But I don't know which one to use or is the "recommended one". Do they do the same thing, or are different? If so, which one is used for what? I want to write a program that uses multicores in my computer. But I don't know which library I should learn.


They are intended for (slightly) different purposes and/or requirements. CPython (a typical, mainline Python implementation) still has the global interpreter lock so a multi-threaded application (a standard way to implement parallel processing nowadays) is suboptimal. That's why multiprocessing may be preferred over threading. But not every problem may be effectively split into [almost independent] pieces, so there may be a need in heavy interprocess communications. That's why multiprocessing may not be preferred over threading in general.

asyncio (this technique is available not only in Python, other languages and/or frameworks also have it, e.g. Boost.ASIO) is a method to effectively handle a lot of I/O operations from many simultaneous sources w/o need of parallel code execution. So it's just a solution (a good one indeed!) for a particular task, not for parallel processing in general.

  • 8
    Noting that while all three may not achieve parallelism, they are all capable of doing concurrent (non-blocking) tasks. – sargas Aug 11 '15 at 18:03


Making the Right Choice:

We have walked through the most popular forms of concurrency. But the question remains - when should choose which one? It really depends on the use cases. From my experience (and reading), I tend to follow this pseudo code:

if io_bound:
    if io_very_slow:
        print("Use Asyncio")
        print("Use Threads")
    print("Multi Processing")
  • CPU Bound => Multi Processing
  • I/O Bound, Fast I/O, Limited Number of Connections => Multi Threading
  • I/O Bound, Slow I/O, Many connections => Asyncio



  • If you have a long call method (i.e. a method that contained with a sleep time or lazy I/O), the best choice is asyncio, Twisted or Tornado approach (coroutine methods), that works with a single thread as concurrency.
  • asyncio works on Python3.4 and later.
  • Tornado and Twisted are ready since Python2.7
  • uvloop is ultra fast asyncio event loop (uvloop makes asyncio 2-4x faster).

[UPDATE (2019)]:

  • Japranto (GitHub) is a very fast pipelining HTTP server based on uvloop.
  • So if I have a list of urls to request, it's better to use Asyncio? – mingchau Jul 29 '19 at 13:00
  • 1
    @mingchau, Yes, but keep in mind, you could use from asyncio when you use from awaitable functions, request library is not an awaitable method, instead of that you can use such as the aiohttp library or async-request and etc. – Benyamin Jafari Jul 29 '19 at 14:18
  • please extend on slowIO and fastIO to go multithread or asyncio>? – qrtLs Sep 4 '19 at 17:26
  • 1
    Please can you advise what exactly is io_very_slow – variable Nov 6 '19 at 7:04
  • 3
    @variable I/O bound means your program spends most of its time talking to a slow device, like a network connection, a hard drive, a printer, or an event loop with a sleep time. So in blocking mode, you could choose between threading or asyncio, and if your bounding section is very slow, cooperative multitasking (asyncio) is a better choice (i.e. avoiding to resource starvation, dead-locks, and race conditions) – Benyamin Jafari Nov 7 '19 at 19:19

In multiprocessing you leverage multiple CPUs to distribute your calculations. Since each of the CPUs runs in parallel, you're effectively able to run multiple tasks simultaneously. You would want to use multiprocessing for CPU-bound tasks. An example would be trying to calculate a sum of all elements of a huge list. If your machine has 8 cores, you can "cut" the list into 8 smaller lists and calculate the sum of each of those lists separately on separate core and then just add up those numbers. You'll get a ~8x speedup by doing that.

In (multi)threading you don't need multiple CPUs. Imagine a program that sends lots of HTTP requests to the web. If you used a single-threaded program, it would stop the execution (block) at each request, wait for a response, and then continue once received a response. The problem here is that your CPU isn't really doing work while waiting for some external server to do the job; it could have actually done some useful work in the meantime! The fix is to use threads - you can create many of them, each responsible for requesting some content from the web. The nice thing about threads is that, even if they run on one CPU, the CPU from time to time "freezes" the execution of one thread and jumps to executing the other one (it's called context switching and it happens constantly at non-deterministic intervals). So if your task is I/O bound - use threading.

asyncio is essentially threading where not the CPU but you, as a programmer (or actually your application), decide where and when does the context switch happen. In Python you use an await keyword to suspend the execution of your coroutine (defined using async keyword).

  • If I have multiple threads and then I start getting the responses faster - and after the responses my work is more CPU bound - would my process use the multiple cores? That is, would it freeze threads instead of also using the multiple cores? – aspiring1 Oct 29 '20 at 4:38
  • Not sure if I understood the question. Is it about whether you should use multiple cores when responses become faster? If that's the case - it depends how fast the responses are and how much time you really spend waiting for them vs. using CPU. If you're spending majority of time doing CPU-intensive tasks then it'd be beneficial to distribute over multiple cores (if possible). And if the question if whether the system would spontaneously switch to parallel processing after "realizing" its job is CPU-bound - I don't think so - usually you need to tell it explicitly to do so. – Tomasz Bartkowiak Oct 29 '20 at 9:18
  • I was thinking of a chatbot application, in which the chatbot messages by users is sent to the server and the responses are sent back by the server using a POST request? Do you think is this more of a CPU intensive task, since the response sent & received can be json, but I was doubtful - what would happen if the user takes time to type his response, is this an example of slow I/O? (user sending response late) – aspiring1 Oct 29 '20 at 10:49
  • @TomaszBartkowiak Hi, I have a question: So I have a realtime facial-recongnition model that takes in input from a webcam and shows whether a user is present or not. There is an obvious lag because all the frames are not processed in real-time as the processesing rate is slower. Can you tell me if multi-threading can help me here if I create like 10 threads to process 10 frames rather than processing those 10 frames on one thread? And just to clarify, by processing I mean, there is a trained model on keras that takes in an image frame as an input and outputs if a person is detected or not. – Talal Zahid Jul 4 at 12:14
  • @TalalZahid your task seems to be CPU bound - it's only the machine (CPU) that performs inference (detection), as opposed to waiting for IO or someone else to do some part of the work (i.e. calling external API). So it would not make sense to do multithreading. If processing a given frame takes a considerable amount of time (does it?) and each frame is independent then you might consider distributing detection across separate machines/core. – Tomasz Bartkowiak Jul 5 at 15:47

This is the basic idea:

Is it IO-BOUND ? ---------> USE asyncio

IS IT CPU-HEAVY ? -----> USE multiprocessing

ELSE ? ----------------------> USE threading

So basically stick to threading unless you have IO/CPU problems.


Already a lot of good answers. Can't elaborate more on the when to use each one. This is more an interesting combination of two. Multiprocessing + asyncio: https://pypi.org/project/aiomultiprocess/.

The use case for which it was designed was highio, but still utilizing as many of the cores available. Facebook used this library to write some kind of python based File server. Asyncio allowing for IO bound traffic, but multiprocessing allowing multiple event loops and threads on multiple cores.

Ex code from the repo:

import asyncio
from aiohttp import request
from aiomultiprocess import Pool

async def get(url):
    async with request("GET", url) as response:
        return await response.text("utf-8")

async def main():
    urls = ["https://jreese.sh", ...]
    async with Pool() as pool:
        async for result in pool.map(get, urls):
            ...  # process result
if __name__ == '__main__':
    # Python 3.7
    # Python 3.6
    # loop = asyncio.get_event_loop()
    # loop.run_until_complete(main())

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