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I have a piece of code which is similar to the following:

final int THREADS = 11;  
BlockingQueue<Future<Long>> futureQueue = new ArrayBlockingQueue<Future<Long>>(THREADS);  
for (int i = 0; i < end; i++, count++) {  
    futureQueue.put(executor.submit(MyRunnable));  
}   
//Use queued results

How could I refactor this to make it more concurrent? Are there any subtleties I am overseeing here?

UPDATE:
Each Runnable is supposed to send a large amount of HTTP request to a server for stress testing.Am I on right track?

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Have you looked at using a load-testing tool, like jMeter? Reinventing the wheel, NIH and all that. – pap Aug 9 '12 at 8:12
    
Have you've seen this? github.com/excilys/gatling – Viktor Klang Aug 9 '12 at 15:43
up vote 3 down vote accepted

I would use

static final int THREADS = Runnable.getRuntime().availableProcesses();  

ExecutorService service = Executors.newFixedThreadPool(THREADS);

List<Future<Long>> futureQueue = new ArrayList<Future<Long>>(end);  
for (int i = 0; i < end; i++)
    futureQueue.add(executor.submit(new MyRunnable()));  

You are using a bounded queue and if end > THREADS it will just stop.

Each Runnable is supposed to send a large amount of HTTP request to a server for stress testing.Am I on right track?

In that case I would use the following as your code is IO rather than CPU bound.

ExecutorService service = Executors.newCachedThreadPool();

While you might benefit from using NIO if you had more than 1000 threads, this would only make your load tester more efficient, but it would make the code much more complicated. (If you think this is hard, writing efficient and correct Selector code is much harder)

Run the tester on more than one machine would make much more difference.

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end is a lot greater than THREADS. Perhaps I should have mentioned this but this (each Runnable) is supposed to send a large amount of HTTP request to a server for stress testing.Am I on right track? – Jim Aug 9 '12 at 7:29
    
What do you mean if end > THREADS it will just stop.? – Jim Aug 9 '12 at 7:29
    
@Jim: Please add this information to your question. – Aaron Digulla Aug 9 '12 at 7:30
    
@Jim I mean you have specifically chosen a collection with a limited capacity, and you have chosen the put method which blocks whenever the BlockingQueue is full. So if you have more tasks than you make the capacity, the queue will fill and it will block. – Peter Lawrey Aug 9 '12 at 7:34
    
@PeterLawrey:So if I change to add will it be ok? – Jim Aug 9 '12 at 7:57

Using threads doesn't work well in your case. Thread pools work well when you have a CPU intensive job. In your case, you have an IO intensive job - it's not bound by the number of CPUs that you have but by the number of network packets you can send.

In this case, the classes in NIO are your friend. Create hundreds of connections and use NIO selectors to see which one is ready to receive more data.

Using this approach, you don't need threads at all; one CPU core is more than enough to fill even a GBit Ethernet connection (~100MB/s).

[EDIT] Of course, you could create hundreds of threads to try to fill the IO channel. But this has some drawbacks:

  1. Threads are managed by the OS (or a small helper library). They need memory and each time a thread is switched, the CPU will have to save its state and flush its caches.
  2. If a thread does only a small amount of work, thread switching can be more expensive than doing the work.
  3. When you use threads, you get all the usual thread synchronization issues.
  4. There is no simple way to make sure you have the right amount of threads. If there are too few threads, the IO channel won't be used optimally. If there are too many threads, the channel won't be used optimally because the threads will fight for access for it. In both cases, you can't change this after starting your tests. The system doesn't adapt to the needs.

For tasks like this, a framework like Akka is much better suited because it avoids all these issues and it's more simple to use than threads.

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+1 for NIO reference and not more threads – Eugene Aug 9 '12 at 7:40
1  
"Using threads only helps when you have a CPU intensive job" - that's not quiet true. IO bound application profiles would be helped too. Rather than block waiting for IO, another thread can kick off stuff... tempusfugitlibrary.org/recipes/2012/07/12/… – Toby Aug 9 '12 at 7:47
    
@Toby: +1 but in this case, even a single CPU core is going to be bored by the job. – Aaron Digulla Aug 9 '12 at 7:57
    
Given the OP doesn't appear to know the difference between a bounded BlockingQueue and a List, I am not sure trying to use NIO Selectors is a good idea. ;) – Peter Lawrey Aug 9 '12 at 8:19
    
Using threads only helps when you have a CPU intensive job.This does not seem correct to me.For CPU bound threads, creating more threads makes things worse as threads compete over CPU.For I/O bound tasks creating more threads improves things as the CPU is never idle by threads blocked for I/O – Jim Aug 9 '12 at 10:07

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