Hello,
out of curiosity, since you used the sources from GIT - was memory
debugging on? It is usually enabled in master branch and that could have
some impact in memory usage and performances...
Thanks,
Daniel
On 5/25/11 3:00 PM, Jan Janak wrote:
On Wed, May 25, 2011 at 06:54, Jeremya<jer...@electrosilk.net> wrote:
These figures pale into insignificance compared to the power required
for standard SIP devices - typically 5-8 watts per device multiplied by
the number of devices.
When you factor in Gigabit Ethernet the power ups significantly.
Optimisation at the server level is not significant on any scale.
Optimisation on communications power: i.e. end-devices, DSL& switches
is where the power savings are important.
Sure, the total power consumption of the whole system is dominated by
the power consumption of end-point devices, there's no doubt about
that and the paper says that.
Nevertheless, as an ITSP you are typically paying for the energy
consumed by your servers and in that case knowing what you can expect
and how many servers you need is useful. Modern data-center servers
have significant base-line power consumption and a portion of that
needs to be attributed to the SIP service running on those servers.
-Jan
Daniel-Constantin Mierla wrote:
Hello,
Jan Janak conducted a very interesting research project regarding
energy efficiency of VoIP systems during 2010, a collaboration between
iptel.org and Columbia University.
The team used the source code from sip-router.org GIT repository from
January 2010, which corresponds to Kamailio (former OpenSER) and SER
v3.0. The latest stable series v3.1 shares the same internal
architecture with v3.0.
As part of the research work, Jan could also gather some figures about
capacity and performances of v3.0 with a quite complex configuration
file: etc/sip-router-oob.cfg (involving authentication and NAT
traversal as well).
You can read the paper about energy efficiency at:
- Green VoIP Article: http://asipto.com/u/2j
The draft notes about capacity and performances of v3.0 are available at:
- Performances and Capacity for v3.0 Wiki page: http://asipto.com/u/2k
Some interesting results:
- one instance of SIP server with 500 000 online users (mixed users –
behind and not NAT routers) – consumed energy 210W
- one instance of SIP server with 1 000 000 online users (no NAT
involved) – consumed energy 190W
- on a 32-bit machine with 4GB of memory and with 2.5GB reserved for
SIP server, the server could support 43 000 simultaneous TLS
connections – consumed energy 203W
- one SIP server instance with 80 000 permanent TCP connections, the
SIP server could still handle at least 1000 requests per second and a
connection arrival rate of 1000 new connections per second, done for
20 000 new connections. CPU load generated by the SIP server was from
6% to 8%.
I added a new section to the draft notes to list the enhancements done
for the latest stable release (v3.1.x) that contribute to performance
improvements, like asynchronous TLS, fine tuning of memory for TLS
connections and raw UDP sockets.
Cheers,
Daniel
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--
Daniel-Constantin Mierla
http://www.asipto.com
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