I've searched the site a bit for help understanding this, but haven't found anything super clear, so I thought I'd post my use case and see if anybody could shed some light.
I have a question about the scalaing of jvm threads vs os threads when used in akka for io operations. From the akka site:
Akka supports dispatchers for both event-driven lightweight threads, allowing creation of millions threads on a single workstation, and thread-based Actors, where each dispatcher is bound to a dedicated OS thread.
The event-based Actors currently consume ~600 bytes per Actor which means that you can create more than 6.5 million Actors on 4 G RAM.
In this context, can you all help me understand how that matters on a workstation with only 1 processor (for simplicity). So, for my example use case, I want to take a list of say 1000 'Users' and then go query a database (or several) for various information about each user. So if I were to dispatch each of these 'get' tasks to an actor, and that actor is going to do IO, wouldn't that actor block based on the os thread limit for the workstation?
How does the akka actor model give me lift in a scenario like this? I know that I am probably missing something as I am not wildly knowledgeble on the interworkings of vm threads vs os threads, so if one of the smart folks here could spell it out for me, that would be great.
If I use Futures, don't I need to use await() or get() to block and wait for the reply?
In my use case, regardless of actors, would it end up just 'feeling' like I'm making 1000 sequential database requests?
If code snips are useful in helping me understand this, Java would be prefered as I am still coming up to speed on scala syntax - but a nice clear textual explanation of how these millions of threads can interoperate on a single processor machine while doing database IO would be fine too.
Thanks very much.