I'm running a C# Console Application that is multi-threaded. The core process retrieves some data to work on, splits it up into a configurable number of smaller datasets, and then spawns the same number of threads to process each subset of data.
To process an individual record, a thread has to make a call to a web service using the WebRequest class and POST method. The query is sent with GetRequestStream(), and the response is retrieved with GetResponse().
In pseudo-code, the routine looks something like this:
prepare WebRequest data; * get time (start-of-Processing); Stream str = request.GetRequestStream(); Write data to stream; stream.Close(); WebResponse resp = request.GetResponse(); * get time (response-received); process response; finally close response stream;
Timing data suggests that when we split our data into more than 4 threads, our throughput for the process as a whole does not improve, and in some cases even drops. Timing data from the web-service maintains their performance remains constant.
- At 4 threads, our apparent overhead to send the data and retrieve the response stream averages around a second.
- When we run more than 4 threads, the average rises with maximum values encountered of tens of seconds!
Today I was able to run two separate processes, each running 4 threads (but essentially ensuring that each thread was still running on unique data). This time, we nearly doubled our overall throughput and each process had stable timing of about a second.
This leads me to believe we are hitting some kind of limitation on resources in relation to the WebRequest class; but it is a per-process limitation, not a machine limitation. I am aware that we could make our calls asynchronously with BeginGetRequestStream and BeginGetResponse, but I'm sceptical that it will have a positive impact if we are in fact hitting some kind of resource limit?!
What should I look at to enable us to raise the number of splits within the single process without the drop in performance?