inria@behemoth:~$ uname -a
Linux behemoth 2.6.5-7.283-sn2 #1 SMP Wed Nov 29 16:55:53 UTC 2006 ia64
ia64 ia64 GNU/Linux
I am not sure the output of plpa-info --topo gives good news...
inria@behemoth:~$ plpa-info --topo
Kernel affinity support: yes
Kernel topology support: no
Number of processor sockets: unknown
Kernel topology not supported -- cannot show topology information
Camille
Jeff Squyres a écrit :
Camile --
Can you also send the output of "uname -a"?
Also, just to be absoultely sure, let's check that PLPA is doing the
Right thing here (we don't think this is problem, but it's worth
checking). Grab the latest beta:
http://www.open-mpi.org/software/plpa/v1.2/
It's a very small package and easy to install under your $HOME (or
whatever).
Can you send the output of "plpa-info --topo"?
On Aug 22, 2008, at 7:00 AM, Camille Coti wrote:
Actually, I have tried with several versions, since you were working
on the affinity thing. I have tried with revision 19103 a couple a
weeks ago, the problem was already there.
Part of /proc/cpuinfo is below:
processor : 0
vendor : GenuineIntel
arch : IA-64
family : Itanium 2
model : 0
revision : 7
archrev : 0
features : branchlong
cpu number : 0
cpu regs : 4
cpu MHz : 900.000000
itc MHz : 900.000000
BogoMIPS : 1325.40
siblings : 1
The machine is a 60-way Altix machine, so you have 60 times this
information in /proc/cpuinfo (yes, 60, not 64).
Camille
Ralph Castain a écrit :
I believe I have found the problem, and it may indeed relate to the
change in paffinity. By any chance, do you have unfilled sockets on
that machine? Could you provide the output from something like "cat
/proc/cpuinfo" (or the equiv for your system) so we could see what
physical processors and sockets are present?
If I'm correct as to the problem, here is the issue. OMPI has (until
now) always assumed that the #logical processors (or sockets, or
cores) was the same as the #physical processors (or sockets, or
cores). As a result, several key subsystems were written without
making any distinction as to which (logical vs physical) they were
referring to. This was no problem until we recently encountered
systems with "holes" in their system - a processor turned "off", or a
socket unpopulated, etc.
In this case, the local processor id no longer matches the physical
processor id (ditto for sockets and cores). We adjusted the paffinity
subsystem to deal with it - took much more effort than we would have
liked, and exposed lots of inconsistencies in how the base operating
systems handle such situations.
Unfortunately, having gotten that straightened out, it is possible
that you have uncovered a similar inconsistency in logical vs
physical in another subsystem. I have asked better eyes than mine to
take a look at that now to confirm - if so, it could take us a little
while to fix.
My request for info was aimed at helping us to determine why your
system is seeing this problem, but our tests didn't. We have tested
the revised paffinity on both completely filled and on at least one
system with "holes", but differences in OS levels, processor types,
etc could have caused our tests to pass while your system fails. I'm
particularly suspicious of the old kernel you are running and how our
revised code will handle it.
For now, I would suggest you work with revisions lower than r19391 -
could you please confirm that r19390 or earlier works?
Thanks
Ralph
On Aug 22, 2008, at 7:21 AM, Camille Coti wrote:
OK, thank you!
Camille
Ralph Castain a écrit :
Okay, I'll look into it. I suspect the problem is due to the
redefinition of the paffinity API to clarify physical vs logical
processors - more than likely, the maffinity interface suffers from
the same problem we had to correct over there.
We'll report back later with an estimate of how quickly this can be
fixed.
Thanks
Ralph
On Aug 22, 2008, at 7:03 AM, Camille Coti wrote:
Ralph,
I compiled a clean checkout from the trunk (r19392), the problem
is still the same.
Camille
Ralph Castain a écrit :
Hi Camille
What OMPI version are you using? We just changed the paffinity
module last night, but did nothing to maffinity. However, it is
possible that the maffinity framework makes some calls into
paffinity that need to adjust.
So version number would help a great deal in this case.
Thanks
Ralph
On Aug 22, 2008, at 5:23 AM, Camille Coti wrote:
Hello,
I am trying to run applications on a shared-memory machine. For
the moment I am just trying to run tests on point-to-point
communications (a trivial token ring) and collective operations
(from the SkaMPI tests suite).
It runs smoothly if mpi_paffinity_alone is set to 0. For a
number of processes which is larger than about 10, global
communications just don't seem possible. Point-to-point
communications seem to be OK.
But when I specify --mca mpi_paffinity_alone 1 in my command
line, I get the following error:
mbind: Invalid argument
I looked into the code of maffinity/libnuma, and found out the
error comes from
numa_setlocal_memory(segments[i].mbs_start_addr,
segments[i].mbs_len);
in maffinity_libnuma_module.c.
The machine I am using is a Linux box running a 2.6.5-7 kernel.
Has anyone experienced a similar problem?
Camille
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