13%
31.10.2025
of options, including dual four-core Xeon, dual six-core Xeon, or quad 12-core AMD processors ranging in speed from 2.2 to 2.9GHz with 24 to 128GB of RAM per server and up to 1TB of scratch local storage per
13%
30.11.2025
to a remote host, allow this with the command
$ xhost +
and then export your display to the remote host on which you want to view the applications.
$ export DISPLAY=hostname:0.0
On the system
13%
30.11.2025
.33
164.69
0.75
rand_mat_stat
3.37
39.34
11.64
54.54
22.07
8.12
rand_mat_mul
1.00
1.18
0.70
1.65
8
13%
27.05.2025
server, you can search the web server logfile, access_log, for the HTTP GET request for the zoo RPM file from the client:
# grep zoo /var/log/httpd/access_log
10.8.12.141 - - [11/Oct/2024:00:14:14 -0500
13%
25.09.2023
instructions below
18 env:
19 - name: REDIS_HOST
20 value: "redis"
21 ports:
22 - containerPort: 5000
Listing 11
my-k8s-app/redis-deployment.yaml
01
13%
09.10.2017
"SubnetMax": "10.99.0.0",
07 "Backend": {
08 "Type": "udp",
09 "Port": 7890
10 }
11 }
12 [...]
At first glance, this concept looks robust and simple
13%
21.04.2015
-r--r-- 2 root root 6 3. Feb 18:36 .glusterfs/0d/19/0d19fa3e-5413-4f6e-abfa-1f344b687ba7
#
# ls -alid dir1 .glusterfs/fe/9d/fe9d750b-c0e3-42ba-b2cb-22ff8de3edf0 .glusterfs
/00/00
13%
30.11.2025
Resource
01 primitive p_filesystem ocf:heartbeat:Filesystem params
02 device="/dev/drbd/by-res/disk0/0" directory="/opt" fstype="gfs2"
03 op monitor interval="120s" meta target-role="Started"
04 clone cl
13%
14.09.2021
$(find /sys/devices/system/cpu -regex ".*cpu[0-9]+/topology/thread_siblings_list") | sort -n | uniq
0,32
1,33
2,34
3,35
4,36
5,37
6,38
7,39
8,40
9,41
10,42
11,43
12,44
13,45
14,46
15,47
16,48
17,49
18,50
19,51
20,52
21,53
22,54
23,55
24,56
25
13%
27.09.2024
virtual instance for development and test purposes on which to carry out the work. Again, Ubuntu 22.04 is a good choice. The steps are quickly completed: Use curl to download the k0s binary, which you
