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Consider a Microsoft .NET Framework application that takes full advantage of the async/await facilities to produce many simultaneous (or also nested) tasks. There's no significant "flow" control, i.e. the tasks are mostly independent, not waiting each other to complete, thus all competing for execution.

What is the framework component that makes the decision how/when to scheduling or execute a Task and on which thread?

What are possible courses to influence that mechanism from user code?

I found a good sentence that pin-points where my question is aimed at:

Whenever code awaits an awaitable whose awaiter says it’s not yet complete (i.e. the awaiter’s IsCompleted returns false), the method needs to suspend ...

The point in time described here is one step late after my question - something has already processed the user code, constructed the awaitable and the awaiter, likely captured the context and decided which thread will execute (or is executing already) the task. I am asking about that "something".

I do see how user-code influences the route the framework takes, but those are external, "educated" decisions on programmer's part. Suppose we take each of the possible routes we can influence and over-saturate it... we are hitting hard some facility, right? Maybe there's no one-sentence answer... And I am sorry if I am slow to see it in @Stephen's answer below - I appreciate your help and keep digging.

(Some of the relevant topics seem to go deeper under the sync/await abstracts, like thread pool, contexts. Am I to dig in that direction?)

Are custom TaskScheduler the (best)(only) answer?

For the purpose of the question, I disregard any external considerations for throttling, like resource starvation (network, I/O saturation) or business reasons (artificial restrictions). Or hack-user-code throttling by trying to track what is executing, etc.

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TaskShedulers are pretty much useless for throttling async Tasks (unless you only want to throttle the non-asynchronous parts). Could you explain more about what you're trying to do and why do you want to throttle the Tasks? – svick Mar 17 '13 at 13:31
@svick, I view the user code as a pump that is producing Tasks (requests to run them). Something in the framework is making the decision "I will run this task on the same thread, because ...", or "I will spawn a thread, because...". If you see flaws in my thinking - that's what I am trying to iron - I am trying to learn - imagine less and know more. – G. Stoynev Mar 17 '13 at 15:11
Regarding your edit: every async method begins executing synchronously; it only becomes asynchronous when it hits its first await (where !IsCompleted). So to schedule that first part of the method, just use a TaskFactory with a custom TaskScheduler. – Stephen Cleary Mar 17 '13 at 18:19
It sounds like what you're really looking for is some introductory async material. I recommend reading (in order): my intro, the MSDN overview, the TAP document, and the FAQ. – Stephen Cleary Mar 17 '13 at 18:21
@Stephen - thanks about the "RE:your edit" comment - so the "thing" under the hood, that acted on that "first await was the TaskFactory implementation? Are you able to zero on particular method or class of methods? – G. Stoynev Mar 17 '13 at 19:34

1 Answer 1

up vote 2 down vote accepted

simultaneous (also parent-child related) tasks.

When one async method calls another method, those tasks can be thought of as a "parent/child" relationship. Technically, however, there is not a parent/child task relationship.

What is the framework component that control scheduling, threading, execution?

This is described in the MSDN docs (under "Suspending Execution with Await") as well as in my async/await intro. When an async method suspends itself via an await, by default it will capture the current SynchronizationContext (or the current TaskScheduler if there is no current SynchronizationContext) and use that to resume the method. This is the default behavior; any async method may choose not to resume on its captured context by awaiting the result of ConfigureAwait(false). In the vast majority of cases, this will execute the continuation of the method on the thread pool.

The first thing you should consider is to apply ConfigureAwait(false) everywhere you can. If you do this consistently, your continuations are for the most part managed by the thread pool, which makes optimum use of the resources available. Manual throttling shouldn't really be necessary.

That said, there are a few ways to do it.


You can use a TaskScheduler to control the execution of the async continuations (as long as they don't use ConfigureAwait(false)). ConcurrentExclusiveSchedulerPair can be used for throttling or mutual exclusion at this level of scheduling. However, as @svick pointed out, task schedulers only "see" the individual (synchronous) parts of each async method. So this is often not the solution people are looking for.

TPL Dataflow

If you're mainly interested in throttling coarse-grained operations (that can have however many "child" operations as they need), you can do that using an ActionBlock from TPL Dataflow:

var block = new ActionBlock<Func<Task>>(f => f(),
    new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = ...; });

Unlike the TaskScheduler approach, the MaxDegreeOfParallelism of TPL Dataflow does consider the async method as a whole, including all its "child" tasks and continuations.

Once you start using TPL Dataflow, you may find that other portions of your app's logic are more naturally expressed with it as well.


If your throttling needs are more complex, another approach is AsyncSemaphore, available in my AsyncEx library. Each of your async methods that needs to be throttled would then start its execution with await WaitAsync and complete with Release. You have full control over the scope of what's throttled by placing these calls where you choose.

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I edited the question - didn't mean to refer to such parent-child, but rather the nesting of Tasks. Not so relevant anyway. See my comment to svick's comment RE: the nature of my question. I can see many references to throttling by using specialized TaskSchedulers, your TPL Dataflow reference, etc., but those are always backed by programmer's decision. My question seeks for the understanding and knowledge that will help with such decision. Very small example - it's great that I can set degree of parallelism, but what value? I have taken the approach to study this from the grounds up. – G. Stoynev Mar 17 '13 at 15:21
See the first part of my answer for a description of how async works with scheduling primitives and the thread pool. – Stephen Cleary Mar 17 '13 at 15:25

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