Provocative blog posting, "Avoid NIO, get better throughput." Paul Tyma's(2008) blog claims ~5000 threads without any trouble; I've heard folks claim more:
- With NPTL on, Sun and Blackwidow JVM 1.4.2 scaled easily to 5000+
threads. Blocking model was
consistently 25-35% faster than using
NIO selectors. Lot of techniques
suggested by EmberIO folks were
employed - using multiple selectors,
doing multiple (2) reads if the first
read returned EAGAIN equivalent in
Java. Yet we couldn't beat the plain
thread per connection model with Linux
I think the key here is to measure the overhead and performance, and make the move to non-blocking I/O only when you know you need to and can demonstrate an improvement. The additional effort to write and maintain non-blocking code should be factored in to your decision. My take is, if your application can be cleanly expressed using synchronous/blocking I/O, DO THAT. If your application is amenable to non-blocking I/O and you won't just be re-inventing blocking I/O badly in application-space, CONSIDER moving to nio based on measured performance needs. I'm amazed when I poke around the google results for this how few of the resources actually cite any (recent) numbers!
Also, see Paul Tyma's presentation slides: The old way is new again. Based on his work at Google, concrete numbers suggest that synchronous threaded I/O is quite scalable on Linux, and consider "NIO is faster" a myth that was true for awhile, but no longer. Some good additional commentary here on Comet Daily. He cites the following (anecdotal, still no solid link to benchmarks, etc...) result on NPTL:
In tests, NPTL succeeded in starting
100,000 threads on a IA-32 in two
seconds. In comparison, this test
under a kernel without NPTL would have
taken around 15 minutes
If you really are running into scalability problems, you may want to tune the thread stack size using
XX:ThreadStackSize. Since you mention Tomcat see here.
Finally, if you're bound and determined to use non-blocking I/O, make every effort to build on an existing framework by people who know what they're doing. I've wasted far too much of my own time trying to get an intricate non-blocking I/O solution right (for the wrong reasons).
See also related on SO.