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I am developing an application and I was thinking about solution for it... perhaps... what can be easily idealized may be not so easy to implement so here is the problem

I want to setup a bunch of modules... each module can be for input, output, or transforming data.

The objective is to draw a flow like Input ->Transform1 -> Transform2 -> Transform3 -> Output All the modules can be Single or Multithreaded...

this means that I can create multiple threads of transform2 each one transforming 300 records of data

I don't really know how should I approach this but I thought about having a module controler that would load all the modules into a list, also I creaeted a Record Queue... but I don't know how should I pass the data from a thread to another and control multithread process...

Please provide any suggestions.

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Take a look at SQL Server Integration Services. That does exactly what you want to do. –  ZippyV Mar 4 '11 at 23:26
I don't know how you're going to handle the modules, but communication between the threads is easy to handle with System.Collections.Concurrent.BlockingCollection<T>. See stackoverflow.com/questions/5105382/… and stackoverflow.com/questions/4901105/… and stackoverflow.com/questions/4252634/… for info that might help you. –  Jim Mischel Mar 4 '11 at 23:31
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3 Answers

There is a good book, Parallel Programming with Microsoft .NET that has all of the sample source code available for download. The examples for chapter 7 on Pipelines sounds a lot like what you are describing.

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once again the same problem.... the thing is I would like to create as raw as possible so it can be easily ported to java later on! –  Killercode Mar 5 '11 at 0:29
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There is an elegant way of doing this using CCR.

CCR lets you create a port for each of the transformation you'd want in your program. Then you can throw as many items you want in these ports to process and attach a delegate (processor) at the end of each ports or same delegate can be attached to multiple ports (for supporting multiple requests to arrive to join processing).

Following basic facilities are available

  1. You could wait for n requests (data elements) to arrive in a port to process as batch.
  2. You could wait for m different data elements to start processing ( on m different types o data elements/requests)
  3. Or a nested level of these mechanisms to support any kind of processing/transformation scenario you have.

Biggest advantage of this library was the way you could avoid locks altogether in a staged processing problems (if your problem resembles like a pipeline of multiple transformations). Because the basic idea is dont start a thread(or task) unless all the prerequisites are met.

Then each of these delegates attached to ports could run on multiple threads or single thread based on optimal threading available on the system or number of cores. You could find basic usage sample here.

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It sounds like PLINQ (available in .NET 4.0) has most of the parts that you would like for your solution.

Parallel LINQ @ MSDN

In particular, the place to start trying out prototypes would be the ForAll() extension method. This method can be used to perform a unit of work or task over all the items in an enumerable collection, over parallel threads.

ParallelEnumerable @ MSDN
ParallelEnumerable.ForAll() Method @ MSDN

For the flow that you're describing, you might find it useful to create an enumerator that can provide items one at a time. The C# yield return statement can be used in a method to provide an enumerable list. This can then be made into a ParallelEnumerable via the AsParallel() extension method.

yield (C#) Reference @ MSDN
ParallelEnumerable.AsParallel() @ MSDN

From there, the rest of the work is determining how to partition your transformations along the processing boundaries that you need. You can also use regular enumeration / foreach to iterate work in those places where you feel parallelism is not necessary.

You may find that you wish to tweak the number of threads used in a parallel query. The WithDegreeOfParallelism() extension method can be used to adjust how many threads are created for your work/query.

ParallelEnumerable.WithDegreeOfParallelism() @ MSDN

There may be places in your flow where you need to manipulate sets of data during parallel work. Use concurrent collections from System.Collections.Concurrent to maintain orderly access to those sets of data.

Thread-Safe Collections @ MSDN

Last, if you need even greater separation of duties, you may also wish to consider modeling and building your transformations in WF (Workflow Foundation).

Windows Workflow Foundation Intro @ MSDN


If you are positive that you don't want to use existing .net facilities for your design; you'll probably want to start modeling at a higher level of abstraction. Given that you've mentioned that you may wish to port to Java, I recommend you consider reading about the Producer::Consumer Communication model. From there, you can decide where to break up your transformation and Input/Output boundaries and work on individual parts based on lower-level primitives.

Other Producer / Consumer Questions on Stack Overflow

Also, you may wish to implement a cascade of work queues for your work flow. I don't know of very many existing solutions that are available to both .NET and java consumers; but reading up on other message queue solutions may give you some good ideas. Amazon SQS is a cloud-based one that comes to mind, and MSMQ (and derivative works) has been a solid available service on windows since Windows 2000.

Amazon Simple Queue Service @ AWS
MSMQ (Microsoft Messaging Queue) @ MSDN
Build a Queued WCF Response Service @ MSDN Magazine

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I would like to avoid .Net specific function... I would like to stick to raw threads.... but that's a lot of usefull info thanks :D –  Killercode Mar 5 '11 at 0:27
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