Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm reading about AsyncControllers in ASP.NET MVC.

It seems that the sole reason why they exist is so that the IIS threads can be saved while the long running work is delegated to regular CLR threads, that seem to be cheaper.

I have a couple of questions here:

  • Why are these IIS threads so expensive to justify this whole architecture built to support asynchronous controllers?
  • How do I know/configure how many IIS threads are running in my IIS application pool?
share|improve this question

3 Answers 3

up vote 15 down vote accepted

ASP.NET processes requests by using threads from the .NET thread pool. The thread pool maintains a pool of threads that have already incurred the thread initialization costs. Therefore, these threads are easy to reuse. The .NET thread pool is also self-tuning. It monitors CPU and other resource utilization, and it adds new threads or trims the thread pool size as needed. You should generally avoid creating threads manually to perform work. Instead, use threads from the thread pool. At the same time, it is important to ensure that your application does not perform lengthy blocking operations that could quickly lead to thread pool starvation and rejected HTTP requests.

Disk I/O, web service calls, are all blocking. There are best optimized by using async calls. When you make an async call, asp.net frees your thread and the request will be assigned to another thread when the callback function is invoked.

To configure the number of threads you can set:

<system.web>
    <applicationPool maxConcurrentRequestsPerCPU="50" maxConcurrentThreadsPerCPU="0" requestQueueLimit="5000"/>
</system.web>

Refer: ASP.NET Thread Usage on IIS 7.5, IIS 7.0, and IIS 6.0

These are the setting that Microsoft best practices recommend:

  • Set maxconnection to 12 * # of CPUs. This setting controls the maximum number of outgoing HTTP connections that you can initiate from a client. In this case, ASP.NET is the client. Set maxconnection to 12 * # of CPUs.
  • Set maxIoThreads to 100. This setting controls the maximum number of I/O threads in the .NET thread pool. This number is automatically multiplied by the number of available CPUs. Set maxloThreads to 100.
  • Set maxWorkerThreads to 100. This setting controls the maximum number of worker threads in the thread pool. This number is then automatically multiplied by the number of available CPUs. Set maxWorkerThreads to 100.
  • Set minFreeThreads to 88 * # of CPUs. This setting is used by the worker process to queue all the incoming requests if the number of available threads in the thread pool falls below the value for this setting. This setting effectively limits the number of requests that can run concurrently to maxWorkerThreads minFreeThreads. Set minFreeThreads to 88 * # of CPUs. This limits the number of concurrent requests to 12 (assuming maxWorkerThreads is 100).
  • Set minLocalRequestFreeThreads to 76 * # of CPUs. This setting is used by the worker process to queue requests from localhost (where a Web application sends requests to a local Web service) if the number of available threads in the thread pool falls below this number. This setting is similar to minFreeThreads but it only applies to localhost requests from the local computer. Set minLocalRequestFreeThreads to 76 * # of CPUs.

Note: The recommendations that are provided in this section are not rules. They are a starting point.

You would have to benchmark your application to find what works best for your application.

share|improve this answer
    
Take care with the settings value from the Microsoft best practices, he article was written in 2004 (!). Nonetheless, nice answer! –  Benjamin Baumann Jan 9 at 10:59
1  
Tweaking the above numbers really works –  jbro91837 Jul 9 at 5:39

IIS threads are taken from the default thread pool, which is limited by default based on number of processor cores. If this thread pool queue becomes backed up, IIS will stop responding to requests. By using async code, the thread pool thread can be returned to the pool while the async operation takes place, allowing IIS to service more requests overall.

On the other hand, spawning a new thread on your own does not utilize a thread pool thread. Spawning an unchecked number of independent threads can also be a problem, so it's not a cure all fix to the IIS thread pool issue. Async IO is generally preferred either way.

As for changing the number of threads in the thread pool, check here. However, you should probably really avoid doing so.

share|improve this answer

Actually what is written in article you have linked is not true. Async pattern isn't there to free "super costly IIS Worker Threads" and use in background some other "cheap threads".

Async pattern is there simply to free threads. You can benefit from it in scenarios where you do not need your threads (and best even not your local machine).

I can name two example scenarios (both I/O):

First:

  1. BeginRequest
  2. Begin async file read
  3. during file read you don't need your thread - so other requests can use it.
  4. File read ends - you get thread from app pool.
  5. Request finishes.

And almost identical second:

  1. BeginRequest
  2. Begin async call to WCF service.
  3. we can leave our machine and don't need our thread - so other requests can use it.
  4. We get response from remote service - we get some thread from app pool to continue.
  5. Request finishes.

It's usually safe to read msdn. You can get information about async pattern here.

share|improve this answer
1  
Hi, author of the referenced article here. There are two ways an aysnchronous operation can be performed in any system: * I/O completion ports (which is how Node.JS works) * Offloading long-running tasks onto other threads (parallelism) What was unclear at the time I wrote that article (a year and a half ago) was how AsyncControllers actually work under the hood. All of the literature I found pointed to option #2 - that all an AsnycController did was hand off its long running request to a CLR thread (a cheap, "green" thread) and wait for a call back before joining an IIS worker thread. –  Aaronontheweb Sep 6 '12 at 19:47
    
Without being able to see the source to AspNetSynchronizationContext, it's difficult to see exactly which method gets used. The updated MSDN docs make it sound like I/O completion ports, which make sense given the emphasis on async Microsoft has had in the 18 months since I wrote that article. If you're interested, here's the source to how action methods are invoked on an AsyncController in MVC4: aspnetwebstack.codeplex.com/SourceControl/changeset/view/… –  Aaronontheweb Sep 6 '12 at 20:04

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.