19%
20.06.2012
:root
bin:x:1:root,bin,daemon
daemon:x:2:root,bin,daemon
sys:x:3:root,bin,adm
adm:x:4:root,adm,daemon
tty:x:5:
disk:x:6:root
lp:x:7:daemon,lp
mem:x:8:
kmem:x:9:
wheel:x:10:root
mail:x:12:mail
uucp:x:14
19%
11.04.2016
-fastcgi are running, as expected.
Listing 1
Process List
root 589 0.0 0.3 142492 3092 ? Ss 20:35 0:00 nginx: master process
/usr/sbin/nginx -g daemon on; master_process on;
www
19%
03.12.2015
.0/24 !10.0.3.0/24
root@ubuntu:~# ps -eaf | grep dnsmas
lxc-dns+ 1047 1 0 18:24 ? 00:00:00 dnsmasq -u lxc-dnsmasq --strict-order --bind-interfaces --pid-file=/run/lxc/dnsmasq.pid --conf
19%
05.11.2018
nodes, and make sure to do this as a user and not as root.
3. To make life easier, use shared storage between the controller and the compute nodes.
4. Make sure the UIDs and GIDs are consistent
19%
13.12.2018
In previous articles, I examined some fundamental tools for HPC systems, including pdsh [1] (parallel shells), Lmod environment modules [2], and shared storage with NFS and SSHFS [3]. One remaining
18%
21.08.2012
=/vnfs
The VNFS grew a little bit in size from the ganglia additions to 72.3MB, which is still pretty small.
Now I can boot the compute node. Once it comes up (check this by ssh
ing to the node as a user
18%
04.04.2023
.5.13-2.el8 appstream 29 k
numactl-libs x86_64 2.0.12-13.el8 baseos 35 k
ohpc-filesystem noarch 2.6-2.3.ohpc.2
18%
17.01.2023
_64 0.5.13-2.el8 appstream 29 k
numactl-libs x86_64 2.0.12-13.el8 baseos 35 k
ohpc-filesystem noarch 2.6-2.3.ohpc.2
18%
16.10.2012
bytes:215392635 (215.3 MB) TX bytes:1759757 (1.7 MB)
lo Link encap:Local Loopback
inet addr:127.0.0.1 Mask:255.0.0.0
inet6 addr: ::1/128 Scope:Host
UP LOOPBACK
18%
27.09.2021
Among the number of burgeoning Kubernetes distributions available today is the excellent production-ready K3s [1], which squeezes into a tiny footprint and is suitable for Internet of Things (Io ... A zero-ops installation of Kubernetes with MicroK8s operates on almost no compute capacity and roughly 700MB of RAM.
