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How can we do Parallel Programming in Java? Is there any special framework for that? How can we make the stuff work?

I will tell you guys what I need, think that I am developed a web crawler, its crawl lot of website from the internet, one system crawling will not make things to work proper, so we need 1000 of system to work,if this is the case can I apply parallel computing?Can you guys gave me a proper example?

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Depends on what you mean by "parallel programming". – Stephen C Jul 28 '10 at 6:43
@Stephen : Working 2 or system for a process,so that the process will get completed fast – Alex Mathew Jul 28 '10 at 6:48
SIMD = single instruction multiple data = operations on vectors, which is for example performed on graphic cards. When you say parallel programing, it's a very vague term. See flynn's taxonomy at wikipedia. And by the way, threading support code should be in ANY book about Java basics. – calavera.info Jul 28 '10 at 7:27
Remember to respect robots.txt – Thorbjørn Ravn Andersen Jul 28 '10 at 8:16
Sorry, I don't understand you. I think that you want know how to use threads, but I'm not sure. And as I've written, thread basics are described in almost every Java manual... – calavera.info Jul 28 '10 at 11:36

16 Answers 16

up vote 7 down vote accepted

You can have a look at Hadoop and Hadoop Wiki.This is an apache framework inspired by google's map-reduce.It enables you to do distributed computing using multiple systems.Many companies like Yahoo,Twitter use it(Sites Powered By Hadoop).Check this book for more information on how to use it Hadoop Book.

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i need to know more about Hadoop,Can you help me out? – Alex Mathew Jul 29 '10 at 20:21
@alex:The truth is I just came across this framework 2day's before.So I don't have much idea about how to use it.I started reading the book (the one I gave u as link).I think it can give a good start.Any way if you have any problems feel free to ask.If I know I'll help.You can check out this link in SO with hadoop tags.stackoverflow.com/questions/tagged/hadoop .This might help you to understand problems faced by hadoop users in general. – Emil Jul 30 '10 at 4:45
@alex:Also from what I understand what you need is distribute the load of a system to many machines.I don't think by learning about thread or concurrency in java will help you to achieve this.I think hadoop is the only opensource,stable framework which allows you to do this as of now.It might take some time to learn a new framework but it's always better than 'reinventing the wheel'. – Emil Jul 30 '10 at 5:01
@alex:Cloudera is a distribution of hadoop.It helps you to configure your systems without much manual work(cloudera.com). – Emil Jul 30 '10 at 5:11
Is the book you linked to on RapidShare pirated?? – Amir Afghani Aug 12 '10 at 20:25

If you are asking about pure parallel programming i.e. not concurrent programming then you should definitely try MPJExpress http://mpj-express.org/. It is a thread-safe implementation of mpiJava and it supports both distributed and shared memory models. I have tried it and found very reliable.

1 import mpi.*;  
4  * Compile:impl specific.  
5  * Execute:impl specific.  
6  */  
8 public class Send {  
10     public static void main(String[] args) throws Exception { 
12         MPI.Init(args); 
14         int rank = MPI.COMM_WORLD.Rank() ; //The current process.
15         int size = MPI.COMM_WORLD.Size() ; //Total number of processes
16         int peer ; 
18         int buffer [] = new int[10]; 
19         int len = 1 ;
20         int dataToBeSent = 99 ; 
21         int tag = 100 ; 
23         if(rank == 0) { 
25             buffer[0] = dataToBeSent ; 
26             peer = 1 ; 
27             MPI.COMM_WORLD.Send(buffer, 0, len, MPI.INT, peer, tag) ; 
28             System.out.println("process <"+rank+"> sent a msg to "+ 29                                "process <"+peer+">") ; 
31         } else if(rank == 1) { 
33             peer = 0 ; 
34             Status status = MPI.COMM_WORLD.Recv(buffer, 0, buffer.length, 35                                                 MPI.INT, peer, tag); 
36             System.out.println("process <"+rank+"> recv'ed a msg\n"+ 37                                "\tdata   <"+buffer[0]    +"> \n"+ 38                                "\tsource <"+status.source+"> \n"+ 39                                "\ttag    <"+status.tag   +"> \n"+ 40                                "\tcount  <"+status.count +">") ; 
42         } 
44         MPI.Finalize(); 
46     }  
48 }

One of the most common functionalities provided by messaging libraries like MPJ Express is the support of point-to-point communication between executing processes. In this context, two processes belonging to the same communicator (for instance the MPI.COMM_WORLD communicator) may communicate with each other by sending and receiving messages. A variant of the Send() method is used to send the message from the sender process. On the other hand, the sent message is received by the receiver process by using a variant of the Recv() method. Both sender and receiver specify a tag that is used to find a matching incoming messages at the receiver side.

After initializing the MPJ Express library using the MPI.Init(args) method on line 12, the program obtains its rank and the size of the MPI.COMM_WORLD communicator. Both processes initialize an integer array of length 10 called buffer on line 18. The sender process—rank 0—stores a value of 10 in the first element of the msg array. A variant of the Send() method is used to send an element of the msg array to the receiver process.

The sender process calls the Send() method on line 27. The first three arguments are related to the data being sent. The sending bu!er—the bu!er array—is the first argument followed by 0 (o!set) and 1 (count). The data being sent is of MPI.INT type and the destination is 1 (peer variable); the datatype and destination are specified as fourth and fifth argument to the Send() method. The last and the sixth argument is the tag variable. A tag is used to identify messages at the receiver side. A message tag is typically an identifier of a particular message in a specific communicator. On the other hand the receiver process (rank 1) receives the message using the blocking receive method.

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Butt : Can u please say how can i implement it? – Alex Mathew Jul 28 '10 at 7:48
sure.I assume you have downloaded the multicore version of mpj-express.I have added a code snippet in my answer now. I have the documents for the API. you can pm me if you want those. – Adil Mehmood Jul 29 '10 at 9:23
Butt : How can i PM you?? can you please gave me ur email address? – Alex Mathew Jul 29 '10 at 20:20
Whats your comment about JPPF and hadoop? – Alex Mathew Jul 29 '10 at 20:48
Yes I found out there is no functionality of PM. Which is rather bad.mail me at adil.mehmood@seecs.edu.pk – Adil Mehmood Jul 30 '10 at 9:12

Java supports threads, thus you can have multi threaded Java application. I strongly recommend the Concurrent Programming in Java: Design Principles and Patterns book for that:


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thks for the info – Alex Mathew Jul 28 '10 at 6:50

You want to look at the Java Parallel Processing Framework (JPPF)

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This is the parallel programming resource I've been pointed to in the past:


I have no idea whether its any good or not, just that someone recommended it a while ago.

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I have heard about one at conference a few years ago - ParJava. But I'm not sure about the current status of the project.

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I see you are new to StackOverflow and thought you may not know that people usually upvote for useful answers. – grigy Jul 28 '10 at 6:53

In java parallel processing is done using threads which are part of the runtime library

The Concurrency Tutorial should answer a lot of questions on this topic if you're new to java and parallel programming.

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As far as I know, on most operating systems the Threading mechanism of Java should be based on real kernel threads. This is good from the parallel programming prospective. Other languages like Python simply do some time multiplexing of the processor (namely, if you run a heavvy multithreaded application on a multiprocessor machine you'll see only one processor running).

You can easily find something just googling it: by example this is the first result for "java threading": http://download-llnw.oracle.com/javase/tutorial/essential/concurrency/

Basically it boils down to extend the Thread class, overload the "run" method with the code belonging to the other thread and call the "start" method on an instance of the class you extended.

Also if you need to make something thread safe, have a look to the synchronized methods.

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@Decav : thks for the info ;) – Alex Mathew Jul 28 '10 at 6:51

Read the section ón threads in the java tutorial. http://download-llnw.oracle.com/javase/tutorial/essential/concurrency/procthread.html

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@AnderSen : Ok think that i had developed a app which have threads,how can it be operated from two systems? – Alex Mathew Jul 28 '10 at 8:19
A central master knowing what needs to be done, and a horde of slaves which gets work from the master and reports back? – Thorbjørn Ravn Andersen Jul 28 '10 at 9:00

java.util.concurrency package and the Brian Goetz book "Java concurrency in practice"

There is also a lot of resources here about parallel patterns by Ralph Johnson (one of the GoF design pattern author) : http://parlab.eecs.berkeley.edu/wiki/patterns/patterns

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Is the Ateji PX parallel-for loop what you're looking for ? This will crawl all sites in parallel (notice the double bar next to the for keyword) :

for||(Site site : sites) {

If you need to compose the results of crawling, then you'll probably want to use a parallel comprehension, such as :

Set result = set for||{ crawl(site) | Site site : sites }

Further reading here : http://www.ateji.com/px/whitepapers/Ateji%20PX%20for%20Java%20v1.0.pdf

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You might want to check out Hadoop. It's designed to have jobs running over an arbitrary amount of boxes and takes care of all the bookkeeping for you. It's inspired by Google's MapReduce and their related tools and so it even comes from web indexing.

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Have you looked at this:


The Fork / Join Framework?

I am also trying to learn a bit about this.

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you can use JCSP (http://www.cs.kent.ac.uk/projects/ofa/jcsp/) the library implements CSP (Communicating Sequential Processes) principles in Java, parallelisation is abstracted from thread level and you deal instead with processes.

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Java SE 5 and 6 introduced a set of packages in java.util.concurrent.* which provide powerful concurrency building blocks. check this for more information. http://www.oracle.com/technetwork/articles/java/fork-join-422606.html

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You might try Parallel Java 2 Library.

On the website Prof. Alan Kaminsky wrote:

Fast forward to 2013, when I started developing PJ2. Parallel computing had expanded far beyond what it was a decade earlier. Multicore parallel computers were equipped with many more CPU cores and much larger main memory, such that computations that used to require a whole cluster now could be done on a single multicore node. New kinds of parallel computing hardware had become commonplace, notably graphics processing unit (GPU) accelerators. Cloud computing services, such as Amazon's EC2, allowed anyone to run parallel programs on a virtual supercomputer with thousands of cores. New application areas for parallel computing had opened up, notably big data analytics. New parallel programming APIs had arisen, such as OpenCL and NVIDIA Corporation's CUDA for GPU parallel programming, and map-reduce frameworks like Apache's Hadoop for big data computing. To explore and take advantage of all these trends, I decided that a completely new Parallel Java 2 Library was needed.

In early 2013 when PJ2 wasn't yet available (although an earlier version was), I tried Java Parallel Processing Framework (JPPF). JPPF was okay but at first glance PJ2 looks interesting.

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