I don't think you need a custom thread pool, especially if you're doing a lot parallel I/O which naturally uses IOCP threads. This applies to any other API which only acquires a thread from the pool when its task has completed (e.g,
Usually you do
await task.ConfigureAwait(false) for continuation to happen on the same thread the
task has completed on:
// non-IOCP (worker) continuation thread
// IOCP continuation thread
await stream.ReadAsync(buff, 0, buff.Length).ConfigureAwait(false);
Now, in ASP.NET you don't even need to use
AspNetSynchronizationContext doesn't maintain thread affinity for
await continuations, unlike
DispatcherSynchronizationContext do for a UI app. Your continuations will run on whatever thread the task has completed on, as is.
AspNetSynchronizationContext just "enters" the ASP.NET context on that thread, to make sure your code has access to
HttpContext and other relevant ASP.NET request ambient state information.
You can increase the default number of IOCP and worker threads with
ThreadPool.SetMinThreads to account for
ThreadPool stuttering problems.
If your only reason for custom thread pool is to limit the level of parallelism for your tasks, use TPL Dataflow or simply
SemaphoreSlim.WaitAsync (check "Throttling asynchronous tasks").
That said, you can have a very precise control over the
Task continuation if you implement a custom awaiter. Check this question for a basic example of that.