32%
04.04.2023
-mod-slurm-ohpc x86_64 2.34-9.1.ohpc.2.6 OpenHPC-updates 13 k
slurm-devel-ohpc x86_64 22.05.2-14.1.ohpc.2.6 OpenHPC-updates 83 k
slurm-example-configs-ohpc x86
32%
21.08.2012
will allocate 4 cores
15 ### using 3 processors on 1 node.
16 #PBS -l nodes=1:ppn=3
17
18 ### Tell PBS the anticipated run-time for your job, where walltime=HH:MM:SS
19 #PBS -l walltime=0:10:00
20
21 ### Load
30%
05.12.2014
12288 Oct 22 00:00 2014-10-21
drwxr-xr-x. 2 root root 12288 Oct 23 00:00 2014-10-22
drwxr-xr-x. 2 root root 12288 Oct 24 00:00 2014-10-23
drwxr-xr-x. 2 root root 12288 Oct 25 00:00 2014-10-24
~~~~~
drwxr-xr-x
29%
09.08.2015
(null)
Line 25
25
Not line 25
25!
Lines 10 through 20
10,20
Last line
$
Not pattern
'/PATTERN/!'
Character at beginning of line
29%
22.05.2012
installed and latest version
Package automake-1.11.1-1.2.el6.noarch already installed and latest version
Package gcc-c++-4.4.6-3.el6.x86_64 already installed and latest version
Package binutils-2.20
29%
21.08.2012
glib2 i686 2.22.5-6.el6 sl 1.1 M
libX11 i686 1.3-2.el6 sl 585 k
lib
28%
23.03.2022
laytonjb laytonjb 19946519 Nov 20 2020 Lmod-8.4.15.tar.gz
31988342 drwxrwxr-x 2 laytonjb laytonjb 4096 Oct 27 14:22 mpibzip2-0.6
31988329 -rw-rw-r-- 1 laytonjb laytonjb 92160 Oct 27 14:18 mpibzip
28%
25.09.2023
compete with x86 chips from Intel and AMD, or even the best many-core ARM offerings, but it shows great promise and is therefore worth tinkering with.
Figure
28%
07.04.2022
1073741824 67108864 4096.0 POSIX 0
Finished : Tue Jan 25 20:04:13 2022
For a virtual machine deployment on a 1GigE network, I get roughly 2.2GiBps reads, which again, if you think
28%
24.02.2022
0 1 0 0 1 1073741824 67108864 4096.0 POSIX 0
Finished : Tue Jan 25 20:04:13 2022
For a virtual machine deployment on a 1GigE network, I get roughly 2.2GiBps reads, which again, if you think about it, is not bad at all
