20%
20.02.2012
time: 11.79 secs
Data transferred: 2.47 MB
Response time: 0.22 secs
Transaction rate: 35.79 trans/sec
Throughput: 0
20%
18.07.2013
downloaded the approximately 3MB ZIP file, create a folder before you unpack, because the archive does not contain one. If you simply unzip, all the files and directories end up in the current directory
20%
17.06.2011
, 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
20%
12.05.2021
Selective self-test log data structure revision number 1
SPAN MIN_LBA MAX_LBA CURRENT_TEST_STATUS
1 0 0 Not_testing
2 0 0 Not_testing
3 0 0 Not_testing
4 0 0 Not_testing
5
20%
02.08.2021
%util
sda 10.91 6.97 768.20 584.64 4.87 18.20 30.85 72.31 13.16 20.40 0.26 70.44 83.89 1.97 3.52
nvme0n1 58.80 12.22 17720.47 48.71 230
20%
20.06.2012
/local
53G 29G 22G 57% /vnfs/usr/local
From the output, it can be seen that only 217MB of memory is used on the compute node for storing the local OS. Given that you can easily and inexpensively buy 8GB
19%
31.10.2025
Service (Amazon S3)
19 - ami plugin for Amazon Simple Storage Service (Amazon S3)
20 - sftp plugin for SSH File Transfer Protocol
21 - ebs plugin for Elastic Block Storage
22 - local plugin
19%
04.11.2011
2222 -j DNAT --to 192.168.1.200:22
COMMIT
### end nat
Now reload the kernel sysctl
parameters and restart the firewall:
# service iptables restart
The next step in the process is to format
19%
14.03.2013
(pr->pr_path), 0);
17 [...]
18 error = copyinstr(j.hostname,
19 &pr->pr_host, sizeof(pr->pr_host), 0);
20 [...]
21 pr->pr_ip = j.ip_number;
22 pr->pr_linux = NULL;
23 pr->pr_securelevel = securelevel
19%
02.02.2021
.42.0.255
dhcp_subnets:
- ip: 10.42.0.0
netmask: 255.255.255.0
domain_name_servers:
- 10.42.0.10
- 10.42.0.11
range_begin: 10.42.0.200
range_end: 10.42.0.254
ntp
