17%
25.03.2020
_DATA=$1
06
07 # This is the Event Data
08 echo $EVENT_DATA
09
10 # Example of command usage
11 EVENT_JSON=$(echo $EVENT_DATA | jq .)
12
13 # Example of AWS command that's output will show up
17%
05.09.2011
STAT
03 0 open-nebula-wn 0 100 99 100 1068948 921356 on
04 1 open-nebula-wn2 0 100 12 100 1173072 1027776 on
OpenNebula Configuration File
You
17%
29.09.2020
.168.2.17",
04 "visible": true,
05 "color": "green",
06 "user": "root"
07 },
08 "web server": {
09 "address": "192.168.2.4",
10 "visible": true,
11 "color": "rgb(100, 200, 0)",
12
17%
29.09.2020
between failure and SMART values. The disks were a combination of consumer-grade drives (SATA and PATA) with speeds from 5,400 to 7,200rpm and capacities ranging from 80 to 400GB. Several drive
17%
18.07.2013
backend3.example.com server;
05 backend4.example.com server down;
06 backend5.example.com backup server;
07 }
08
09 upstream fallback {
10 fallback1.example.com server: 8081;
11 }
12
13
14 server {
15 %
16
17%
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
17%
30.11.2020
"conditions": [
05 {
06 "type": "RuntimeReady",
07 "status": true,
08 "reason": "",
09 "message": ""
10 },
11 {
12 "type": "NetworkReady",
13
17%
14.08.2020
and SMART values. The disks were a combination of consumer-grade drives (SATA and PATA) with speeds from 5,400 to 7,200rpm and capacities ranging from 80 to 400GB. Several drive manufacturers were represented
17%
17.02.2015
int idparticle;
05 double pos[D];
06 double vel[D];
07 double force0[D];
08 double force[D];
09 double mass;
10 char bf[BFSIZE];
11 void *nxtParticle;
12 };
13 PARTICLE
17%
17.02.2015
B+ has the following basic characteristics:
Broadcom BCM2835 system on a chip (SoC)
Single-core ARM1176JZF-S processor (32-bit processor) at 700MHz
Broadcom VideoCore IV GPU
512MB
