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I want to know the applicability of the Akka Actor model.

I know it is useful in the case a huge number of Actor instances are created and destroyed. e.g. a call server, where every incoming call creates an actor instance and communicates with few other actors and get killed after the call is over.

Is it also useful in the following scenario :

A server has a few processing elements (10~50) implemented over Actors. The lifetime of these processing elements is infinite. some of them do not maintain state and a few maintain state. The processing elements process the message and pass the message to other actors in a fixed manner. The system receives a huge number of messages from outside and gets passed through processing elements and goes out of the system.

My gut feeling is that we cannot get any advantage by using Akka Actor model and even implementing this server in Scala. Because the use case for which Akka is designed, is not applicable here. If the scale-up meant that processing elements be increased dynamically then it would be applicable.

For fixed topologies, I think if i implement it in Java, it is going to be more beneficial in terms of raw performance. The 'immutability' feature of Scala leads to more copies and so reduces performance. So i believe i better stick to Java.

Is my understanding correct? I a nut shell i want to know why i should leave Java and use Scala/Akka for the application scenario above. and my target is to process 1 million messages per second.

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I think this is an excellent use-case for Akka. Processing units, some stateful, all exchanging messages. Why wouldn't you use it ? There is no reason Akka wouldn't work well for fixed actor topologies. – Marius Danila May 7 '13 at 14:34
Same as above. The fact that the actors has unbounded lifetime has nothing to do with the applicability of Akka here. In fact, most pipeline style processing tasks -- which your case looks like -- are an excellent match. – Endre Varga May 7 '13 at 14:53
Thanks for your comments. I missed it in my question, but what i want to say is that for fixed topologies what is the advantage of Akka actor model over same thing implemented in Java. Finally Scala uses Java data structures fr queue etc. So i think Java will give me more raw performance. If that is the case, then why should anyone consider Scala for raw performance? – weima May 7 '13 at 19:36
I'm not sure you're right about Actor instances being created and destroyed. Each akka actor instance is created once and is alive until you explicitly kill it with a specific message or until it fails with some error and its supervisor strategy doesn't spawn it back. – pagoda_5b May 8 '13 at 8:34
thanks for clarification. my main question is Scala vs Java for the above scenario. If Scala, why? – weima May 8 '13 at 8:57

1 Answer 1

If this question is still actual...

  1. Scala vs. Java

    • Scala gives productivity to developers.
    • Immutability decreases debugging to almost zero level.
    • GC perfectly copes with waste immutables.
  2. Akka Actors vs. other means

    • Akka has dispatcher that distributes all tasks across fixed thread pool. This allows to evenly consume available resources. This approach is much better than the fixed worker threads — the processing resources are provided to the tasks not DataFlow nodes.
  3. DataFlow implementation

    • There is a SynapseGrid library that is built on top of Akka Actors and allows easy construction of DataFlow systems distributed over fixed immortal Actors. It can even draw the DataFlow diagram (in .dot format) of the whole system. (The library is more convenient to be used with Scala.)
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