I know there are some existing questions and they provide a very good general perspective on things. I'm hoping to get some details on the C#/VB.Net side for the actual implementation (not philosophy) of some of these perspectives.
My Particular Case
I have a WCF Service which, amongst other things, receives files. For most of the service's life this particular area is actually just sat doing nothing - when work does come it arrives in high bursts of greatly varying quantities.
For each file received (which at a max can be thousands per second) the service needs to work on the files for between 1-10 seconds (each) depending on a number of other services, local resources, and network IO wait times.
To aid the service with these burst workloads I implemented a Queue system. Those thousands of files recieved per second are placed onto the Queue. A controller calculates the number of threads to use based on the size of the queue, up until it reaches a "Peak Max Threads" setting which prevents it from creating additional threads. These threads are placed in a thread pool, and reused to cycle through the queue. The controller will; at intervals; recalculate the number of threads required. If the queue size reduces, a relevant number of threads are released.
The age old problem
How many threads should I peak at? Clearly, adding a new thread everytime a file was received would be silly for lack of a better word - the performance, at best, would deteriorate. Capping the threads when CPU utilization is only 10% across each core, also doesn't seem to be the best use of resources.
So, is there an appropriate way to determine how many threads to cap at? I would rather the service could determine this for itself by sampling available resources, but is there a performance hit from doing so? I know the common answer is to monitor workloads, adjust the counts through trial and error until I find a number I like, but due to the nature of this service (long periods of idle followed by high/burst workloads) it could take a long time to get that kind of information.
What then if we move the server's image to a different host which is faster/slower/different to the first? I have to re-sample the process all over again?
Ideally what I'm after, is for the co-ordinator to intelligently increase the size of the threadpool until CPU utilisation is at x% (would 80% be reasonable? 90%? 99%?). Clearly, I want to do this without adding more threads than is necessary to hit x% otherwise all I'll end up with is threads not just waiting on IO resources, but awaiting each other too.
Thanks in advance!
Related questions (if you want some generic ideas):
A Complication for you
Where would be the fun if I didn't make the problem more difficult?
As it currently stands, the service does hit 100% cpu during these bursts, regularly. The issue is the CPU utilisation spikes. It goes from idle (0-10%) to 100%, and back down again. I'm not sure I can help that - ideally I wouldn't take it all the way to 100%. The problem exists because the files mentioned are in fact images, and part of the services' process is to pass the image through to the System.Windows.Media blackbox which does some complex image processing for me.
There are then lulls in between the spikes because of the IO waits and other processing that goes on. If the spikes hitting 100% can't be helped (and I'm all for knowing how to prevent that, or if I should) how should I aim for the CPU utilisation graph to look? Sat constantly at 100%? Bouncing between 50-100? If I do go through the effort of sampling to decide what does seem to work best, is it guaranteed that switching the virtual servers' host will also work best with the same graph?
This added complexity I won't take into consideration for those of you willing to answer. Feel free to ignore this section. However, any answer that also accounts for this complication, or even answers that just provide tips on how to handle it, I'll at the very least upvote!
Heck of a long question - sorry about that - and thanks for reading so much!!