I'm about to implement a simple server from scratch, intending to maximum throughput (ie, accept as many requests as possible from clients, and allow scaling to as many clients as possible) on a single port on a given network connection theoretically capable of at most X bytes/sec in and Y bytes/sec out, yet keep the code as simple as possible.
How does one determine the best tradeoff between complexity of code and sufficient throughput?
For example, this page lists IOCP (AcceptEx and WSAAccept variants), then "overlap", then WSAPoll, then "simple", then "accept", as the high-to-low performing SDK examples of server performance.
It kind of implies that iocpserverex (with AcceptEx) is better than iocpserver (with WSAAccept), but doesn't really offer any proof or benchmarks. Has anyone compared the two approaches?
Forum discussions like this one state AcceptEx "should" be better, but again, with no proof.
For me, the cost of network speed has remained relatively stable for years, while faster CPUs are always getting cheaper. There must be a point of diminishing returns where it's not really worth further complicating the server code if it's already reached the ability to service the capacity of a given network connection.
What I'd really like to see is the IOCP-overlap-WSAPoll-simple-accept list (or similar comparisons, but for UDP servers) along with actual performance numbers, to give an idea of how much improvement comes with the addition of possibly more complex code. What's a good source of those kinds of benchmarks? Before actual coding, what's the best way to know a given approach will probably deliver sufficient throughput?