21%
02.04.2013
to 15 web applications every day. Just think about the many social networks, webmail, banking applications, e-commerce, and information portals visited every day.
Securing Google Services
21%
05.04.2013
’s experience, I’ll assume it takes two hours to start up these instances. I’ll also assume it takes 15 minutes to run the application if all jobs start at the same time (0.25 hours). The total time is 2.25 hours
21%
02.07.2014
WCOLL points:
[laytonjb@home4 ~]$ pdsh -w ^/tmp/hosts uptime
192.168.1.4: 15:51:39 up 8:35, 12 users, load average: 0.64, 0.38, 0.20
192.168.1.250: 15:47:53 up 2 min, 0 users, load average: 0
21%
04.11.2011
because developers don’t need to wait while the program builds. If you need to compute number-crunching-style statistics on a cluster, the free S-Plus clone, R [15], is a useful choice.
Finite Element
21%
22.06.2012
0-18:46:40
15
78400
0-21:46:40
16
90000
1-01:00:00
17
102400
1-04:26:40
18
115600
1-08:06:40
19
129600
21%
17.05.2017
(HID_T) :: DSET_ID ! Dataset identifier
15 INTEGER(HID_T) :: FILESPACE ! Dataspace identifier in file
16 INTEGER(HSIZE_T), DIMENSION(2) :: DIMSF = (/5,8/) ! Dataset dimensions
17 INTEGER
21%
06.05.2024
performance but with low power usage, so I can get four nodes on a normal 15 or 20A circuit.
These low-power systems can come in all shapes and sizes, but most of them are born from the single-board computer
21%
05.12.2014
{
14 "ip": "192.168.0.201",
15 "netmask": "255.255.255.0",
16 "gateway": "192.168.0.201",
17 "primary": true,
18 "allow_ip_spoofing": true,
19 "allow
21%
17.02.2015
, the corresponding Deis application will supply Java code. In every application, a special file called procfile describes the application and language to Deis.
A whole range of completed applications [15] on Deis
21%
10.04.2015
can query available and used memory using OIDs 1.3.6.1.2.1.25.2.3.1.5.101
and 1.3.6.1.2.1.25.2.3.1.6.101
; you can see the average CPU load of the last 15 minutes with the OID 1.3
