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I have a 1 core machine and I would like to improve my code performance using async and await. The code has two major parts. the first an IO operation. (reading from azure service bus queue for multiple sessionId), the second, processing the data - CPU heavy. I have wrapped the DequeueAsync method in an async method which returns a Task:

private async Task<SomeReturnValue> AcceptFromQueueAsync(){
  try{ 
       SomeReturnValue result = await DequeueAsync.configureAwait(false);
       return SomeReturnValue;  
  }
  catch{
   //logging and stuff
  }

The CPU heavy method is sync: DoSyncWork() Since the second part is CPU heavy I don't want to use parallelism (actually can't... ) The CPU part can only start when the IO part finishes. Given the above is the following implementation the way to go with 1 cpu machine?

private void AcceptAndProcessWrapper(){
    //Count is some cosnt defined outside the method
    _acceptTasks = new List<Task<SomeReturnValue>>();
     for (var i = 0; i < Count; i++)
     {
                    _acceptTasks.Add(AcceptFromQueueAsync());
      }
      //The use of list is for convince in processing  
      Task.WaitAll(_acceptTasks.ToArray());
      //The CPU part 
       Task.Run(DoSyncWork).Wait();
 }

I know that I could have not use the Task.Run() for the sync part but I want to allow feature implementation on multiple cores (By starting several Tasks using Task.Run() and holding them in an array) Will the above implementation. (The multiple calls to async method that returns a task) improve the performance? Or should I start a new Task for each async call e.g Task.Run(AcceptFromQueueAsync)?

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1  
Sounds to me like you may want to look into TPL Dataflow. –  Stephen Cleary Nov 12 '13 at 18:53

4 Answers 4

up vote 2 down vote accepted

The code that you have will indeed do the asynchronous dequeuing in parallel. It will start all of the asynchronous tasks at once and then wait until they are all done to continue.

Adding an extra call to Task.Run won't help. Starting an asynchronous task in another thread is just adding extra overhead for no added value. Task.Run should be used to run CPU bound work in another thread, not asynchronous work in another thread.

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Speaking of performance with Task(s) (if you use it in future with DoSyncWork) you should keep also in mind that Task.Run uses ThreadPool by default, but the threads from Thread pool are rather expected to do some fast and small work. If the tasks are really some "heavy" ones, you should consider running them in newly created threads, which might be also forced with the following:

new Task(() => { }, TaskCreationOptions.LongRunning);

EDIT:

After some talk in commeting below, I would want to clear the stuff up a bit more.

Currently, Task.Run(DoSyncWork).Wait(); really does not have any sense (even more, it might take additional time to run the task on another thread (even from ThreadPool ones), but if you want to use several cores in future, you obviously should move that task to another thread to run (and if it's really CPU-heavy, then consider running the task as "LongRunning") (if it's of course needed for your app (not sure what's the type of app you have)). In that case, there is still no need to call .Wait() there instantly.

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The work isn't long running. Starting an asynchronous task takes almost no time at all, even if it's a long time before it finishes. There is no need to manually construct a task such as this, nor is there a need for it be "long running". –  Servy Nov 12 '13 at 18:21
1  
Well, that's pretty strange that a person with such big rating says such words. ThreadPool (besides of its advantages) has also disadvantages and that's pretty widely known that if ThreadPool runs out of threads and creates new Threads it might even take up to 500ms(!) which is incomparable with new Thread creation time. Please, read also the following article: stackoverflow.com/questions/9200573/…. –  Agat Nov 12 '13 at 18:31
    
All of that is irrelevant to the situation here. The operation is not long running. It will take only a handful of microseconds to run, because it is just starting the task and not waiting for it to complete. Putting that work into a thread pool thread is entirely unnecessary in the first place, and if you choose to do it, for whatever reason, it most certainly isn't going to take long; it's going to be blazingly fast. –  Servy Nov 12 '13 at 18:33
    
Everything is relevant to development. And if you advice something to people, you should consider that they are going to use it in future, but not only in this very place. I don't see why I can not point the user about performance nuances, which he can use futher. If he interested in the stuff I told, he always can clarify that with comments. If not -- that might be helpful for others. I prefer to provide people a fishing rod instead of just feeding them with fish. –  Agat Nov 12 '13 at 18:42
1  
@Servy Don't be silly. This is not "random unrelated information". The user is looking for methodology advice, and this qualifies. By your standards, Stephen Cleary's comment should also be downvoted to oblivion. –  nmclean Nov 12 '13 at 20:08

Running the first part asynchronously might make sense, depends, it has Async in the name which suggests it doesn't block anyway in which case there is no needed, but there is definitely no need to run DoSyncWork asynchronously since its just 1 process and you are waiting for it to finish.

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I use a pattern similar to this to try to keep the IO and CPU going as much as possible

public async void DoWork()
{
    Task cpuBoundTask = null;
    Task ioBoundTask = null;

    while(true)
    {
         ioBoundTask = DoIOBoundStuff();
         var ioResult = await ioBoundTask;

         if(cpuBoundTask != null)
         {
             await cpuBoundTask;
         }
         cpuBoundTask = DoCpuBoundStuff(ioResult);
    }
 }
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