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I am tasked with optimizing a performance of a linear data processing routine. Here's an overview of what's already in place:

Data comes in on UDP ports, we have multiple listeners listening on different port and writing raw data to SQL Server database (lets call the table a RawData). Then we have multiple instances of a single threaded linear application grabbing raw data from RawData table and processing individual datarows. What processing means is the raw data is compared to previously received data for the given entity, calculations are done to calculate number of different readings, then couple of web services are called for each individual data row and finally a new record is added for each data row in ProcessedData table. Also corresponding entity record is updated in other table.

The way i see the problem, it can be broken down into smaller parts and i could utilize Producer/Consumer pattern for data processing: One thread of producer populates a shared (blocking) queue, multiple Consumers grab data rows from the queue and do parallel processing of them. After Consumers are done they put the processed data to another shared queue, which then will be accessed by yet another consumer thread (single) that will do a SqlBulkCopy to insert new records. Along the process there will be other shared queue that will store entity info for updates and yet another consumer will be grabbing updated information for the entities and performing updates.

Question is, even though it seems straight forward, it looks to me to be a cumbersome approach. I do feel there's a better way of doing what i'm looking for. Any suggestions on implementing the above Producer/Consumer pattern? Or should i look for a different design pattern for my problem?

Thanks in advance

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When you say "shared query", do you mean "shared queue"? –  Jim Mischel Apr 11 '11 at 19:47
yes, my bad. Thanks for noticing it. Corrected –  Dimitri Apr 11 '11 at 19:53

1 Answer 1

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Your proposed solution sounds reasonable, and I don't view it as cumbersome at all. It's simple to understand, simple to implement, effective, and efficient. It also allows you to tune the number of producers and consumers to achieve the best performance. Decomposition into smaller parts with limited communication among the parts is a very good thing.

So what you have is multiple threads (producers) reading data from UDP and storing those items in a shared queue. Call it the RawData queue. Multiple consumers read from that queue, process items, and place the results into another shared queue. Call it the ProcessedData queue. Finally, you have a single thread that reads the ProcessedData queue and stores items in the database.

The .NET BlockingCollection is perfect for this.

This might be of some help: Question on C# threading with RFID

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Thank Jim for reply. Yes, i was split on what type of queue would best fit my needs. I was contemplating using circular queue or double buffer, to minimize lock times. I know at the moment we do not have that much of data to process, but i'm always thinking scalability. I'd hate going back and rewriting the app when traffic goes up. –  Dimitri Apr 11 '11 at 21:08
I have a little problem with BlockingCollection. Even though it implements ConcurrentQueue as its collection base, i've noticed, when i add multiple threads for consumers, they do not guarantee to grab items from queue sequentially. I tried Parallel.Foreach and Parallel.For. They both seem not to honor the order of items. Then i tried Task.StartNew, which seems to honor the sequence. Also, i need to store consumers' output to yet another queue, that needs to be ordered. Can i use same BlockingCollection and run .OrderBy on it? or id be better off using SortedList and handling locking manually? –  Dimitri Apr 12 '11 at 12:53
@Dimitri: You touch on a lot of issues there. It's probably best if you post that as another question. –  Jim Mischel Apr 12 '11 at 14:38

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