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I've just read a paper about the Leader/Follower Pattern and if I understood correctly, I keep my workers in a queue and the first worker takes an incoming request and detaches from the queue.

With a normal work-queue (rabbitmq and beanstalkd, for example) its the other way round: i keep my jobs in a queue and once a worker finishes processing it just takes the first job from the queue.

Is there somehing I'm missing?

So, what are the advantages I should use a Leader/Follower approach instead of a work queue? Or the other way round, in what situations is a work queue suited better?

Bye, Nico

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2 Answers 2

up vote 4 down vote accepted

Leader/Follower is about effeciently dealing with multiple workers. When you have no work (jobs), what are your worker or workers doing? A common, simple approach is to have a single consumer thread dispath jobs to workers, either by spawning a thread or using a thread pool. The pattern discussed provides an alternative approach that avoid having to syncronize bewteen the dispatcher and the worker by having the (leader) thread that gets the job execute the work task itself. It promotes a waiting worker to the leader position to keep the system responsive.

Be aware that this article is discussing lower-level mechanisms for waiting for work that do not (easily) support multiple threads waiting on the same "queue" of work. Higher-level constructs like message queues that do support multiple worker threads all performing a blocking read on the same source (AKA competeing consumers) may not get the same benefit described. With a higher level of abstraction comes more programming ease, but typically at the cost of the kind of performance that can be gained from a more low-level approach.


Here's a made up sample (psuedocode only). Please note that I did not write the article or benchamrk it so I cannot truely speak to how much more performant one is VS the other. But this hopefully shows the difference in style.

// in QueueHandler processing loop

   // read, blockming until one arrives
   Request req = requestQueue.BlockingRead();

   // we have a unit of work now but the QueueHandler should not process it
   //  because if it is long running then no new requests can be handled.
   //  so we spawn / dispatch to a thread
   // or new Thread(DoWork(), req).Start;

   // at this point we know that the request will get picked up in 
   // an unknown but hopefully very shot amount of time by a 
   // waiting (sleeping/blocking) or new thread and it will get passed the 
   // work.  But doing so required the use of thread syncronization 
   // primatives that can cause all processors to flush their caches 
   // and other expensive stuff.

} // now loop back up to read the next request


// in Leader


   // I'm the leader, blocking read until a request arrives
   Request req = queue.BlockingRead();

   // We have a unit of work and we are going to process it ourselves.  
   // But first we notify a follower.

   // work on the request in this thread!

   // now that I'm done, wait to the the leader

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so the difference is, that this low-level approach doesnt block and is therefore faster to execute? –  Nicolas Nov 14 '11 at 17:57
It has less contention, less passing of work between threads. Coordinating thread communication/syncronization often requires the use of locks etc that have a very negative impact on code running on many processors. –  tcarvin Nov 14 '11 at 18:41
but could you point out the concrete difference between this and work-queues? i still cannot really see why work queues require more locking. –  Nicolas Nov 14 '11 at 18:56
There are work queues of some sort either way, the pattern is about managing the workers. I'll edit my post with some psuedo-code. –  tcarvin Nov 14 '11 at 19:22
cool edit, thanks alot –  Nicolas Nov 14 '11 at 19:38

First of all with work queues you need locks on the work queues. Second, and that's the main issue, with work queues you have to wake up a worker thread and that thread won't process the work until the system task scheduler actually runs the task. Which get's worse when you process the work item with a different processor core than the one filling the queue. So you can achieve much lower latencies with a leader follower pattern.

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