Thanks again everyone for the excellent suggestions.
I looked into IO::Reactor, but after a few hours of fiddling decided I was
getting the kind of performance I wanted from using a slightly more than
modest number of threads and decided(due to dev timelines) to come back to
patching the SNMP libr
:) Most of the ppl on this list are systems programmers, however I am not.
The tool of choice for this app is Ruby and the libraries don't support
async SNMP at the moment.
I've done a good deal of async snmp and the libraries that actually pull it
off generally aren't that good(Net-SNMP and Perl
At 03:31 PM 8/19/2005, Alex Turner wrote:
Don't forget that Ultra 320 is the speed of the bus, not each drive.
No matter how many honking 15k disks you put on a 320MB bus, you can
only get 320MB/sec! and have so many outstanding IO/s on the bus.
Of course. This is exactly why multi-channel SCS
Don't forget that Ultra 320 is the speed of the bus, not each drive.
No matter how many honking 15k disks you put on a 320MB bus, you can
only get 320MB/sec! and have so many outstanding IO/s on the bus.
Not so with SATA! Each drive is on it's own bus, and you are only
limited by the speed of you
While I agree that hundreds of threads seems like overkill, I think the
above advice might be going too far in the other direction. The problem
with single-threaded operation is that any delay affects the whole
system --- eg, if you're blocked waiting for disk I/O, the CPU doesn't
You
At 12:34 PM 8/19/2005, Jeffrey W. Baker wrote:
On Fri, 2005-08-19 at 10:54 -0400, Ron wrote:
> Maxtor Atlas 15K II's.
> Areca's 1GB buffer RAID cards
The former are SCSI disks and the latter is an SATA controller. The
combination would have a transaction rate of approximately 0.
You are evid
On 8/19/05 1:24 AM, "Mark Cotner" <[EMAIL PROTECTED]> wrote:
> I'm currently working on an application that will poll
> thousands of cable modems per minute and I would like
> to use PostgreSQL to maintain state between polls of
> each device. This requires a very heavy amount of
> updates in plac
On Fri, 2005-08-19 at 10:54 -0400, Ron wrote:
> Maxtor Atlas 15K II's.
> Areca's 1GB buffer RAID cards
The former are SCSI disks and the latter is an SATA controller. The
combination would have a transaction rate of approximately 0.
I can vouch for the Areca controllers, however. You can cert
At 09:58 AM 8/19/2005, Andreas Pflug wrote:
The 1-2k xact/sec for MySQL seems suspicious, sounds very much like
write-back cached, not write-through, esp. considering that heavy
concurrent write access isn't said to be MySQLs strength...
Don't be suspicious.
I haven't seen the code under dis
Alex mentions a nice setup, but I'm pretty sure I know how to beat
that IO subsystems HW's performance by at least 1.5x or 2x. Possibly
more. (No, I do NOT work for any vendor I'm about to discuss.)
Start by replacing the WD Raptors with Maxtor Atlas 15K II's.
At 5.5ms average access, 97.4MB/
Andreas Pflug <[EMAIL PROTECTED]> writes:
> Tom Lane wrote:
>> As far as the question "can PG do 1-2k xact/sec", the answer is "yes
>> if you throw enough hardware at it". Spending enough money on the
>> disk subsystem is the key ...
>>
> The 1-2k xact/sec for MySQL seems suspicious, sounds very
Tom Lane wrote:
Bob Ippolito <[EMAIL PROTECTED]> writes:
If you don't want to optimize the whole application, I'd at least
just push the DB operations down to a very small number of
connections (*one* might even be optimal!), waiting on some kind of
thread-safe queue for updates from th
Bob Ippolito <[EMAIL PROTECTED]> writes:
> If you don't want to optimize the whole application, I'd at least
> just push the DB operations down to a very small number of
> connections (*one* might even be optimal!), waiting on some kind of
> thread-safe queue for updates from the rest of the
I have managed tx speeds that high from postgresql going even as high
as 2500/sec for small tables, but it does require a good RAID
controler card (yes I'm even running with fsync on). I'm using 3ware
9500S-8MI with Raptor drives in multiple RAID 10s. The box wasn't too
$$$ at just around $7k. I
On Aug 19, 2005, at 12:14 AM, Mark Cotner wrote:
Excellent feedback. Thank you. Please do keep in mind I'm storing
the
results of SNMP queries. The majority of the time each thread is
in a wait
state, listening on a UDP port for return packet. The number of
threads is
high because in o
Excellent feedback. Thank you. Please do keep in mind I'm storing the
results of SNMP queries. The majority of the time each thread is in a wait
state, listening on a UDP port for return packet. The number of threads is
high because in order to sustain poll speed I need to minimize the impact o
On Aug 18, 2005, at 10:24 PM, Mark Cotner wrote:
I'm currently working on an application that will poll
thousands of cable modems per minute and I would like
to use PostgreSQL to maintain state between polls of
each device. This requires a very heavy amount of
updates in place on a reasonably
Hi all,
I bet you get tired of the same ole questions over and
over.
I'm currently working on an application that will poll
thousands of cable modems per minute and I would like
to use PostgreSQL to maintain state between polls of
each device. This requires a very heavy amount of
updates in pla
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