13%
11.04.2016
KiB blocks: 79.2 IO/s, 1.2 MiB/s ( 10.4 Mbit/s)
32 KiB blocks: 81.8 IO/s, 2.6 MiB/s ( 21.4 Mbit/s)
64 KiB blocks: 78.0 IO/s, 4.9 MiB/s ( 40.9 Mbit/s)
128 KiB blocks: 76.0 IO/s, 9
13%
20.06.2022
yellow
07 continue
08 }
09 Write-Host ""
10
11 [...]
12
13 Write-Host "Removing all MailboxExportRequests." -fore green
14 Get-MailboxExportRequest | Remove-MailboxExportRequest -Confirm
13%
08.07.2018
read the hosts from a file other than the WCOLL
environment variable:
$ 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
13%
17.02.2015
], to robotics [10], to underwater ROVs [11], and yes, even clusters [12]. The appeal of the Rasp Pi is that it is cheap, uses almost no power, is easy to program, and is really small.
Wonderful World of SBCs
13%
11.10.2016
-server"}))
06
07 ; Enable all interfaces for TCP, UDP and websockets:
08 (let [host "0.0.0.0"]
09 (tcp-server {:host host})
10 (udp-server {:host host})
11 (ws-server {:host host}))
12
13 ; Clean up events
13%
11.04.2016
.0.0.0:* LISTEN 4766/hiawatha
tcp 0 0 127.0.0.1:10000 0.0.0.0:* LISTEN 944/perl
tcp 0 0 0.0.0.0:22 0.0.0.0:* LISTEN 676/sshd
13%
16.08.2018
pdsh read the hosts from a file other than the WCOLL environment variable:
$ 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
13%
16.08.2018
Media Management
Yes
Yes
Yes
Image Processing Functions
Yes (restricted)
No (retrofit via extensions like Media Kits [12])
Yes (restricted
13%
30.01.2020
of code.
Listing 1
Time to Execute
import time
start_time = time.time()
# Code to check follows
a, b = 1,2
c = a + b
# Code to check ends
end_time = time.time()
time_taken = (end_time- start
13%
09.04.2019
this from the 2/2
values in the second column of Figure 6.
Figure 6: Each pod shows two ready containers. The application's manifest specified only one image
