16%
17.02.2015
:
Tegra X1:
25.6GBps memory bandwidth
HDMI 2.0 and HDCP 2.2
10W power
Peak performance: 1,024GFLOPS with FP16; 512GFLOPS with FP32
ARM Cortex CPUs:
Quad-core 64-bit ARM Cortex-A57 ... 25
16%
17.01.2023
to NTP server (162.159.200.123) at stratum 4
time correct to within 21 ms
polling server every 64 s
Your output will not match this exactly, but you can see that it’s using an outside source to synchronize
16%
11.04.2016
needed to reposition the read head is eliminated. The admin can monitor merging of I/O blocks with iostat -x. This assumes the use of the filesystem cache.
In Listing 2, wrqm/s
stands for write requests
16%
13.12.2022
/6): tftp-server-5.2-24.el8.x86_64.rpm 123 kB/s | 49 kB 00:00
(4/6): dhcp-server-4.3.6-47.el8.x86_64.rpm 3.9 MB/s | 529 kB 00:00
(5/6): bind
16%
09.01.2013
http://opennebula.org/repo/ openSUSE/12.3/stable/x86_64 opennebula
zypper refresh
zypper install opennebula
zypper install opennebula-sunstone
For Debian and Ubuntu, a tarball is available with several
16%
04.04.2023
:
ohpc-slurm-client x86_64 2.6-7.1.ohpc.2.6 OpenHPC-updates 6.9 k
Installing dependencies:
cairo x86_64 1.15.12-6.el8 appstream
16%
17.03.2021
2000 targeting x86 processors. A 700MHz Crusoe CPU ran x86 applications at about the same speed as a 500MHz Pentium III CPU. However, it was less expensive and used less power than the Pentium III
16%
02.02.2012
in the region of 25 short URLs set up, and I can track hits in Apache’s logs and edit the URLs any way I like if any changes are made. Some URLs use words like demo
and others are extremely concise and just use
16%
25.10.2011
-algorithm sha1;
07 encryption-algorithm 3des-cbc;
08 }
09 policy test123 {
10 mode main;
11 proposals Phase1-3des-sha;
12 pre-shared-key ascii-text "$9$dQVgJiHmTF/.PO1Ehrlgoa
16%
06.10.2022
{
10 "UserName": "ferdinand",
11 "SerialNumber": "arn:aws:iam::123456789:mfa/ferdinand",
12 "EnableDate": "2021-04-25 09:00:38+00:00"
13 }
14 ],
15 "Groups
