19%
07.10.2014
Sheepdog Server in Action
# ps -ef|egrep '([c]orosyn|[s]heep)'
root 491 1 0 13:04 ? 00:00:30 corosync
root 581 1 0 1:13 PM ? 00:00:03 sheep -p 7000 /var
19%
18.06.2014
.59
64–128
12,083
3.11
90.70
128–256
8,623
2.22
92.93
256–512
13,437
3.46
96.39
512–1,024
5,456
1
18%
30.11.2025
136,500
115,500
External consultants
0
0
Training Costs
Staff training
162,000
54,000
Administrator training
40,500
13
18%
21.01.2021
processors running at 167MHz. It had options for 128, 256, or 512MB of SRAM main memory and was the first supercomputer to sustain greater than 1GFLOPS (10^9 floating point operations per second
18%
25.03.2020
billion IoT devices will be in action by the end of 2020.
For example, according to one report [1], a water project in China includes a whopping 100,000 IoT sensors to monitor three separate 1,000km
18%
14.11.2013
/bit-hr) to 1017 (seven orders of magnitude difference). The lower number is just about one error per gigabit of memory per hour. The upper number indicates roughly one error every 1,000 years per gigabit of memory
18%
30.11.2025
is capable of executing jobs at a very high speed. I have used the framework in an environment with more than 3,000 systems; running a job on all of the nodes rarely took more than 30 seconds.
YAML
17%
11.04.2016
hiawatha running
www-data 4766 0.1 0.3 118232 4016 ? Ssl 20:13 0:00 /usr/sbin/hiawatha
You can use netstat to check the bindings:
netstat -tulpn
See the output in Listing 2.
Listing 2
17%
17.06.2011
,200, comprising 55 different commands, were issued. The system, a server with 768MB RAM and a Pentium 3 CPU, took a total of 22 seconds to answer them, the longest response took 32 milliseconds, the shortest
17%
30.11.2025
from compromised systems is John the Ripper (John). John is a free tool from Openwall [1]. System administrators should use John to perform internal password audits. It's a small (<1MB) and simple
