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I am a newbie using Java to do some data processing on csv files. For that I use the multithreading capabilities of Java (pools of threads) to batch-import the csv files into Java and do some operations on each of their lines. On my quad-core, multithreading speeds up the process a lot.

I am curious to know how/whether multiprocessing would speed up the operations even more? If so, is there a tutorial available somewhere? (the Java Basic Tutorial mentions a class, but I am not familiar enough with the syntax to understand the class by myself:

from http://download.oracle.com/javase/tutorial/essential/concurrency/procthread.html:

Most implementations of the Java virtual machine run as a single process. A Java application can create additional processes using a ProcessBuilder object. Multiprocess applications are beyond the scope of this lesson [where are they explained then?].

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Are you CPU bound or I/O bound? Hard drives are significantly slower than processors. Plus, threads are usually lighter weight to switch between and share data between than processes. If your program is constantly waiting for the disk, it's not going to matter a whole lot either way. –  Jonathon Faust Nov 3 '11 at 21:21
I have a queue of dozens of csv files to import in my java application. I use a pool of threads (seven threads, precisely) to import them quicker than one after the other - at the moment I can import 7 csv files "at once" - one per thread. Could I speed up this even more with multiprocessing? An how is multiprocessing useful for parallelism on a single computer in general? –  seinecle Nov 3 '11 at 21:29
Usually I find that you can improve the performance of the single thread much more than the just 4x (the best you can hope for from 4 cores if its CPU bound) I would make sure you have thoroughly profiled and optimised the code your have first. –  Peter Lawrey Nov 3 '11 at 22:38
I'd be curious to know these tricks - but I'll open a new discussion for that ;-) –  seinecle Nov 3 '11 at 22:50

5 Answers 5

up vote 2 down vote accepted

I am curious to know how/whether multiprocessing would speed up the operations even more?

No, in fact it would likely make it worse. If you were to switch from multithreading to multiprocessing, then you would effectively launch the JVM multiple times. Starting up a JVM is no simple effort. In fact, the way the JVM on your desktop machine starts is different from the way an enterprise company starts their JVM, just to reduce wait time for applets to launch for the typical end-user.

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thx Tim... indeed I found other threads of discussions pointing to this. For the interested reader unearthing this discussion later:stackoverflow.com/questions/2006035/… and javabeat.net/tips/8-using-the-new-process-builder-class.html –  seinecle Nov 3 '11 at 22:20
As soon as I start thinking about multiprocessing, my brain switches over to C/C++ mode where startup cost isn't that high. but we are speaking about Java, and it takes a month and a day, plus half your available ram, (might be slightly exaggerated) to startup a new JVM, which each additional process will require. Good point, Tim. –  ObscureRobot Nov 3 '11 at 22:25
well, I discovered that this thing could be a solution to reduce startup time: martiansoftware.com/nailgun –  seinecle Nov 3 '11 at 22:54
Glad you got the information on how to create a subprocess, I should have included that as well, but thought it would be irrelevant. Just an FYI, ProcessBuilder is preferred over Runtime.exec, but it is rarely the case that anybody take advantage of the extra functionality offered by ProcessBuilder. –  Tim Bender Nov 3 '11 at 23:59

Each developer should have some understanding about Amdahl's law to understand how the multi processing would speed up based on the given conditions.

Amdahl's law is a model for the relationship between the expected speedup of parallelized implementations of an algorithm relative to the serial algorithm, under the assumption that the problem size remains the same when parallelized.

This is a good read : Amdahl's law

Amdahl's law

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A bit orthogonal to the question, since you can minimize the serial component of your algorithm using threads or processes, but worth consideration. –  ObscureRobot Nov 3 '11 at 21:40
Thanks but honestly... this is so far away from my question. I am asking specifically for recommendations about how to implement multiprocessing in Java. Not about general laws on this topic, really! –  seinecle Nov 3 '11 at 21:42
You can refer this as well. mpc.uci.edu/wget/www.tc.cornell.edu/Services/Edu/Topics/… –  java_mouse Nov 3 '11 at 21:44
the implementation part is mentioned in download.oracle.com/javase/7/docs/api/java/lang/… the application of reading 7 csv files is pretty rudimentary and multithreaded programs are surely more than sufficient. When we are dealing with an enterprise level application.. even there we prefer multithreaded application bcos they are light weight. For understanding multi processing in java I had found a paper earlier –  Raveesh Sharma Nov 3 '11 at 21:54
google.com/… –  Raveesh Sharma Nov 3 '11 at 21:54

The gain is determined by how long it takes to map/reduce the data.

If, for example, the files are loaded on multiple machines to begin with (think of it like sharding the file system), there's no lag getting the data. If the data is coming from a single location, you're limited by that mechanism.

Then the data has to be combined/aggregated-not knowing more, impossible to guess. If all processing depends on having all data, it's a higher hit than if the ultimate results can be calculated independently.

You have a very small number of very small files: unless what you're doing is computationally expensive, I doubt it'd be worth the effort, but it's difficult to say. Assuming no network/disk bottlenecks you'll get a (very) roughly linear speedup with a delta for aggregating results. The true speedup/delta depends on a bunch of factors we don't know much about at this point.

OTOH, you could set up a small Hadoop setup and just try it and see what happens.

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Check the docs on your JVM to see if it supports multithreading. I'm pretty sure the sun ones do. Java Concurrency In Practice is the place to start for multithreading.

The first part of your question is: is multiprocessing superior to multithreading, from a performance perspective? In a system with robust multithreading support, threads should always be superior to processes, from a performance perspective. There is more isolation between threads (no shared memory, unless explicitly setup via an IPC mechanism), so you might want to go the multiprocess route to keep dangerous threads from stepping on each other.

For data processing, threads should be the best way to go. If threads on your local machine aren't enough, I would skip past a multiprocess solution and go straight to a map-reduce system like Hadoop.

As to why multiprocess apps are mentioned, I think the author wants to be complete. Although a tutorial is not provided, a link to additional documentation is. The big disadvantage of using multiprocessing is that you have to deal with inter process communication. Unlike threads, you can't just share some memory and throw some mutexes around it and call it a day.

From the comments, it appears that there is some confusion about what "multiprocessing" actually is. Threads are constructs that must be created by your code. There are APIs for thread creation and management. Processes, though, can be created by hand on the command line. On a unix box do the following to run four instances (processes) of foo. Note that the final & is required.

$ ./foo & ./foo & ./foo & ./foo &

Now if you have an input file, bar that foo needs to process, use something like split to break it up into four equal segments, and run foo on it:

$ ./foo bar.0 > bar.0.out & ./foo bar.1 > bar.1.out & ./foo bar.2 > bar.2.out & ./foo bar.3 > bar.3.out &

Finally, you will need to combine the bar.?.out files. Running a test like this should give you some feel for whether using heavy-weight processes is a good idea for your application. If you have already built a multi-threaded application, that will probably be just fine. But feel free to run some experiments to see if processes work better. Once you are sure that processes are the way to go, reorganize your code to use ProcessBuilder to spin up the processes yourself.

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Thanks but this does not answer my question. I already use multithreading (it works well!), and would like to find a source or detailed explanation as to how/why/when multiprocessing would improve performance. Btw, I checked Java Concurrency in Practice: it does not evoke multiprocessing, just multithreading. –  seinecle Nov 3 '11 at 21:26
@seinecle My guess is: unless you're running into memory/cpu limitations of a single process, and doing some seriously heavy stuff, probably rarely or never. Inter-process communication is gonna gobble up some of the performance gain, and spawning new processes is often somewhat expensive, so it'd only make sense for long-running tasks. One advantage, I guess, is stability. If one process crashes, the rest stays untouched. Google Chrome uses a separate process per tab to make sure sites ruining its day don't take down the whole browser. –  G_H Nov 3 '11 at 21:33
In a system with robust threading (pretty much any modern Unix or Windows), multithreading is preferred to multiprocessing. The reason is that there is less overhead associated with threads, so you can more quickly spin them up and kill them. You also get shared memory, which is a nice bonus. On older systems, multiprocessing was the way to go. That is why Apache 1.x is multi-process and Apache 2.x is multithreaded, and everyone uses Apache 2 now. –  ObscureRobot Nov 3 '11 at 21:33
The only reason to use processes over threads I can think of are security and scalability. For reading several csv files neither is important, but then threading may even slow the file reading down.. –  Voo Nov 3 '11 at 21:38
I tend to be very skeptical with all the comments here. Multhithreading with 7 threads basically speeds up 7 times (minus a tiny bit of ovehead...) my i/o operation (simply: import 60 csv files, each about 5Mb or more). I know that multiprocessing would imply more overhead but it would bring speed gains as well! –  seinecle Nov 3 '11 at 21:51

For many use cases, multithreading has less overhead than multiprocessing when comparing spawning a thread vs spawning a process as well as comparing communication between threads vs inter-process communication.

However, there are scenarios where multithreading can degrade performance to the point where a single thread outperforms multiple threads, such as cases severely affected by false sharing. With multiprocessing, since each process has its own memory space there is no chance for false sharing to occur and the multiprocessing solution can outperform the multithreading solution.

Overall, some analysis should be conducted when choosing a concurrent programming solution since the best performing solution can vary on a case-to-case basis. Multithreading cannot be assumed to outperform multiprocessing since there are counterintuitive situations where multithreading performs worse than a single thread. When performance is a major consideration, run benchmarks to compare single thread single process vs multithreading vs multiprocessing solutions to ensure you are truly gaining the performance benefits that are expected.

On a quick note, there are other considerations besides performance when choosing a solution.

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