Which of these two different models would be more efficient (consider thrashing, utilization of processor cache, overall desgn, everything, etc)?
1 IOCP and spinning up X threads (where X is the number of processors the computer has). This would mean that my "server" would only have 1 IOCP (queue) for all requests and X Threads to serve/handle them. I have read many articles discussing the effeciency of this design. With this model I would have 1 listener that would also be associated to the IOCP. Lets assume that I could figure out how to keep the packets/requests synchronized.
X IOCP (where X is the number of processors the computer has) and each IOCP has 1 thread. This would mean that each Processor has its own queue and 1 thread to serve/handle them. With this model I would have a separate Listener (not using IOCP) that would handle incomming connections and would assign the SOCKET to the proper IOCP (one of the X that were created). Lets assume that I could figure out the Load Balancing.
Using an overly simplified analogy for the two designs (a bank):
One line with several cashiers to hand the transactions. Each person is in the same line and each cashier takes the next available person in line.
Each cashier has their own line and the people are "placed" into one of those lines
Between these two designs, which one is more efficient. In each model the Overlapped I/O structures would be using VirtualAlloc with MEM_COMMIT (as opposed to "new") so the swap-file should not be an issue (no paging). Based on how it has been described to me, using VirtualAlloc with MEM_COMMIT, the memory is reserved and is not paged out. This would allow the SOCKETS to write the incomming data right to my buffers without going through intermediate layers. So I don't think thrashing should be a factor but I might be wrong.
Someone was telling me that #2 would be more efficient but I have not heard of this model. Thanks in advance for your comments!