Happy man!
ZeroMQ is a lovely and powerful tool for highly scaleable, low-overheads, Formal Communication ( behavioural, yes emulating some sort of the peers mutual behaviour "One Asks, the other Replies" et al ) Patterns.
Your pattern is quite simple, behaviourally-unrestricted and ZMQ_PAIR
may serve well for this.
Performance
There ought be some more details on quantitative nature of this attribute.
- a process-to-process latency
[us]
- a memory-footprint of a System-under-Test (SuT) architecture
[MB]
- a peak-amount of data-flow a SuT can handle
[MB/s]
Performance Tips ( if quantitatively supported by observed performance data )
may increase I/O-performance by increasing Context( nIOthreads )
on instantiation
may fine-tune I/O-performance by hard-mapping individual thread#
-> Context.IO-thread#
which is helpfull for both distributed workload and allows one to keep "separate" localhost IOthread
(s) free / ready for higher-priority signalling and others such needs.
shall setup application-specific ToS
-labeling of prioritised types of traffic, so as to allow advanced processing on the network-layer alongside the route-segments between the client
and server
if memory-footprint hurts ( ZeroMQ is not Zero-copy on TCP-protocol handling at operating-system kernel level ) one may try to move to a younger sister of ZeroMQ -- authored by Martin SUSTRIK, a co-father of ZeroMQ -- a POSIX compliant nanomsg with similar motivation and attractive performance figures. Worth to know about, at least.
Could ROUTER
or DEALER
increase an overall performance?
No, could not. Having in mind your stated architecture ( declared to be communication heavy ), other, even more sophisticated Scaleable Formal Communication Patterns behaviours that suit some other needs, do not add any performance benefit, but on the contrary, would cost you additional processing overheads without delivering any justifying improvement.
While your Formal Communication remains as defined, no additional bells and whistles are needed.
One point may be noted on ZMQ_PAIR
archetype, some sources quote this to be rather an experimental archetype. If your gut sense feeling does not make you, besides SuT-testing observations, happy to live with this, do not mind a slight re-engineering step, that will keep you with all the freedom of un-pre-scribed Formal Communication Pattern behaviour, while having "non"-experimental pipes under the hood -- just replace the solo ZMQ_PAIR
with a pair of ZMQ_PUSH + ZMQ_PULL
and use messages with just a one-way ticket. Having the stated full-control of the SuT
-design and implementation, this would be all within your competence.
How fast could I go?
There are some benchmark test records published for both the ZeroMQ or nanomsg performance / latency envelopes for un-loaded network transports across the traffic-free route-segments ( sure ).
If your SuT
-design strives to go even faster -- say under some 800 ns end-to-end, there are other means to achieve this, but your design will have to follow other distributed computing strategy than a message-based data exchange and your project budget will have to adjust for additional expenditure for necessary ultra-low-latency hardware infrastructure.
It may surprise, but definitely well doable and pretty attractive for systems, where hundreds of nanoseconds are a must-have target within a Colocation Data Centre.