Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am currently working on a program that is receiving a very high amount of data from a external source. We started to develop this program in Python but we don't know how to make Python effectively use Multicore CPU's.

I have looked into the different options that Python offers to enable parallel processing. With both Parallel Python and the standard library I keep running into Pickling errors. The only message I get from both modules are "Can't Pickle " with such kind of error messages I can't work. It already took me to long to find the problem and resolve it. I supported a bug submit for better Pickle errors so in the future other developers have more luck. But for me it is time to move on.

The program makes a connection to a webservice, this webservice provides a constant stream of messages. These messages can go up to one million messages a minute and this number will be higher in the future. After a message is received the message needs to be processed and saved in the appropriate database. The processing is done by another program which is scalable over multiple servers. The only thing that this software has to do is receive the message and temporarily save it.

Or should I be looking at using Java to do this?

The main question is, what are the best languages to handle a big stream of incoming network messages. And how to achieve proper multicore/parallel processing on a single server?


The last few weeks I tested a newly written version of my software, the winning setup for me now is.

Perl with Anyevent to handle the messages received. Python with ZeroMQ to receive the data parse this over multiple servers.

The CPU load is now reduced to 5% CPU with a steady stream of 3000 messages a minute.

share|improve this question

closed as not constructive by Wooble, JBernardo, cdeszaq, jondavidjohn, kapa Aug 30 '11 at 16:30

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance. If this question can be reworded to fit the rules in the help center, please edit the question.

1  
but it seems that Python is not supporting Multicore CPU's - what makes you think that? –  MattH Aug 30 '11 at 16:01
1  
try golang.org ... it's new-ish, but they claim it's already in production use around Google. Goroutines are a nice tool for creating multiple threads. I believe the release version defaults to only one core, but it's trivial to set your max cores to something > 1 –  greggory.hz Aug 30 '11 at 16:02
    
@MattH He doesn't know the multiprocessing lib –  JBernardo Aug 30 '11 at 16:02
    
I would imagine most languages have multi-core support these days. Java has had it built into the language for more than 15 years. –  Peter Lawrey Aug 30 '11 at 16:02
1  
go multiprocess and use zeromq for interprocess communication. it's the winning recipe. –  Tom Willis Aug 30 '11 at 16:35

4 Answers 4

That's way too ambiguous a question, pretty much most programming languages nowadays support multiple CPU cores in some fashion, whether you're on Linux or another platform.

In response to the "Python is not supporting Multicore CPU's" claim, presumably you're referring to the Global Interpreter Lock (or GIL) that prevents more than one single Python thread from executing at any given time. There are numerous workarounds for this, but it seems the most common is to simply use the Multiprocessing library. This allows your Python program to take full advantage of multiple cores, but has the relatively large drawback that you're using (heavyweight) processes instead of (lightweight) threads (for example interprocess communication is more expensive than interthread communication, as sending stuff through queues and/or pipes requires serialization/deserializaiton of the object(s) being sent).

As for "which language is best", that is completely dependent upon your requirements, which are noticeably absent from your question, thus making it rather difficult to make a particular recommendation.

share|improve this answer

I am currently working on a program that is receiving a very high amount of data from a external source. We started to develop this program in Python but it seems that Python is not supporting Multicore CPU's

I think you must be misunderstanding something here.

  • Receiving data is usually I/O-bound, and in this case using multiple cores in parallel does not help. CPython has a global interpreter lock, which prevents multiple threads from executing Python code at the same time. For things like receiving data, this is seldom a limitation, since almost all of your time is spent waiting for data to arrive, which is just as fast on 1 CPU as 8.

    In fact, for I/O-bound programs, it's very often better not to use multithreading at all. Commonly, better performance can be attained in concurrent communication by use of asynchronous I/O, all in one thread of one process. An example of a way this is achieved in Python is through using Twisted. Of course, at some point the CPU-intensive portion will be begin to matter, but the thread lock I mentioned prevents is parallelization of code written in Python using threads, but this isn't our only or best parallelization option...

  • Python can be used for parallel programs. All CPython prevents is threads executing Python code in parallel, which is seldom a limitation, especially since this is almost always a suboptimal model to begin with. People can and do use Python for massively parallel programs all the time, not only for multiple cores on one CPU, but for jobs so big they're on thousands of CPUs in different computers at high-performance computing sites. They do this by writing programs utilizing multiple processes for parallelization.

    There are any number of solutions for utilizing multiple processes for parallel computing in Python. A traditional one used in high-performance computing is MPI; my preferred Python MPI bindings are mpi4py. Another great option for a different class of problems is to use a message queue; there are Python bindings for all major message queues. A convenient, easy, simple, low-quality, popular option is the stdlib multiprocessing module. There are many more options that I am not going to name here, as these are the most notable ones.

share|improve this answer

If you're not afraid of tackling something new, I can suggest Scala. With the addition of parallel collections, parallel processing becomes so much easier. Imagine code such as this:

myCollection.foreach(element => doSomethingWithElement(element))

Using the method par, it can be parallelized like this:

myCollection.par.foreach(element => doSomethingWithElement(element))

And everything will happen in parallel. This is only a demo, but, trust me, this can save so much time :)

share|improve this answer

Yes. The list is almost endless:

C, C++, Java, Lisp, Haskell, Erlang, Ruby, C#, Ada, Assembly, Fortran, Go, Groovy, D, ...

As well as probably hundreds more that I have not mentioned. Many of the languages that I mentioned do not natively support multi-threading, you have to find a particular implementation or library that will, but they are perfectly capable.

share|improve this answer

Not the answer you're looking for? Browse other questions tagged or ask your own question.