Then my periodic job and PutRecordBatchAsync are processed concurrently?
Using Task API you can ensure that they are executed concurrently (using Thread pool), but you need to understand the difference between in memory concurrent operations Vs IO based concurrency.
While In memory concurrency does benefit using Tasks, IO call once executed doesn't need thread at all, as it relies on hardware concurrency, if it ever use the thread, all that it would do it wait for the IO call to return, thus wasting the precious system resources and reducing system scalability
You case is that IO based concurrency, as you call a remote / network based API, how does async-await helps here ?
Well true Async operation will free up the thread context, on windows it would use IO completion port (queuing mechanism) to execute the Async call, while the calling thread is used to dispatch other similar calls, it would just need thread context on return of the IO call for serving the response and for that too, if its not a UI call, then use
ConfigureAwait(false), so that any thread context can be used to deliver the response.
What if you don't use await with async ?
In general for In memory processing you would create certain number of Tasks and process them using
Parallel.ForEach for a collection, for Async processing, ideally recommendation is not to have a
Task.Run anywhere, its preferred to have to
Async from the entry point, like its possible in case of MVC, controllers can be async. Multiple calls are grouped together using
Task.WhenAll representative Task and then awaited upon. even if you use
Task.Run as in your code, then use
async lambda to execute an asynchronous call
Its mandatory to use
await for asynchronous calls, else they
async keyword is useless in that context and yes
await will wait for the IO call to return before continuation is executed, though no thread is blocked in the process