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RotoCoto
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Joined: 17 Jun 2004
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PostPosted: Fri Jun 18, 2004 8:43 pm    Post subject: Java NIO, Linux NPTL and epoll Reply with quote

have been benchmarking Java NIO with various JDKs on Linux. Server is
running on a 2 CPU 1.7 GHz, 1GB RAM, Ultra160 SCSI 36GB disk

With Linux kernel 2.6.5 (Gentoo) I had NPTL turned on and support for
epoll compiled in. The server application was designed to support
multiple disptach models :

1. Reactor with Iterative Disptach with multiple selector threads. Essentially
the accepted connections were load-balanced between varying number of
selector threads. The benchmark then applied a step function to experimentally
determine the optimal # of threads and connection per selector ratio.

2. Also a simple concurrent blocking disptach model was supported. This is
essentially a reader thread per connection model.

Client application opens concurrent persistent connections to the server
and starts blasting messages. Server just reads the messages and does
basic un-marshalling to ensure message is ok.

Results were interesting:

1. 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 NPTL.

2. To work around not so performant/scalable poll() implementation on Linux's we tried using
epoll with Blackwidow JVM on a 2.6.5 kernel. While epoll improved the overall scalability,
performance still remained 25% below the vanilla thread per connection model. With epoll
we needed lot fewer threads to get to the best performance mark that we could get out of NIO.

Here are some numbers:

Code:
(cc = Concurrent Persistent Connections, bs = Is blocking server mode on Flag,
st = Number of server threads, ct = Connections handled per thread,
thruput = thruput of the server )

cc, bs,st,ct, thruput
1700,N,2,850,1379
1700,N,4,425,1214
1700,N,8,212,1240
1700,N,16,106,1140
1700,N,32,53,1260
1700,N,64,26,1115
1700,N,128,13,886
1700,N,256,6,618
1700,N,512,3,184
1700,Y,1700,1,1737



As you can see the last line indicates vanilla blocking server (thread per connection)
produced the best thruput even with 1700 threads active in the JVM.

With epoll, the best run was with 2 threads each handling around 850 connections in
their selector set. But the thruput is below the blocking server thruput by 25%!

Results shows that the cost of NIO selectors coupled with OS polling mechanism (in
this case efficient epoll VS selector/poll) has a significant overhead compared to
the cost of context switching 1700 threads on an NPTL Linux kernel.

Without NPTL of course it's a different story. The blocking server just melts at 400 concurrent
connections! We have run the test upto 10K connections and the blocking server outperformed
NIO driven selector based server by same margin. Moral of the story - NIO arrives at the scene
a little too late - with adequate RAM and better threading models (NPTL), performance gains
of NIO don't show up.

Sun's JVM doesn't support epoll() so we couldn't use epoll with it. Normal poll() based
selector from Sun didn't perform as well. We needed to reduce the number of connections
per thread to a small number (~ 6-10) to get comprabale numbers to epoll based selector.
That meant running lot more selector threads kind of defeats the purpose of multiplexed IO.
The benchmarks also dispell the myth created by Matt Welsh et al (SEDA) that a single
threaded reactor can keep up with the network. On a 100Mbps ethernet that was true: network
got saturated prior to server CPUs but with > 1Gbps network, we needed multiple selectors
to saturate the network. One single selector's performance was abysmal (5-6x slower than
concurrent connections)

For application that want to have fewer number of threads for debuggability etc, NIO may be
the way to go. The 25-35% performance hit may be acceptable to many apps. Fewer threads
also means easier debugging, it's a pain to attach a profiler or a debugger to a server hosting
1000+ threads :-) . Bottom line with better MT support in kernels (Linux already with NPTL), one
needs to re-consider the thread per connection model

Bottom line : NPTL is great for Java. epoll also helps quite a bit.

Rahul Bhargava
CTO, Rascal Systems
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