28%
18.07.2013
: 156301488
20 Logical Sector size: 512 bytes
21 Physical Sector size: 512 bytes
22 device size with M = 1024*1024: 76319 MBytes
23
28%
28.11.2022
: 42 Celsius
federico@voronoi:~$
Infos
Sound-proofing a Picocluster: https://twitter.com/0xF2/status/1244422315011645444
Noctua NF-A6x25 PWM, Premium Quiet Fan, 4-Pin (60mm): https
28%
09.04.2019
;
15 border:1px solid #aaa;
16 }
17
18 article {
19 margin: auto;
20 float:left;
21 margin-left: 20%;
22 margin-right: 30%;
23 }
24
25 li {
26 --anot-item-bg: #ff6699;
27 }
The inner
28%
17.05.2017
, 5 ) / ( 8, 5 ) }
DATA {
(0,0): 0, 1, 2, 3, 4,
(1,0): 5, 6, 7, 8, 9,
(2,0): 10, 11, 12, 13, 14,
(3,0): 15, 16, 17, 18, 19,
(4,0): 20, 21, 22, 23, 24,
(5,0): 25, 26, 27, 28, 29,
(6
28%
11.09.2023
factors to little NVMe drives that are only a few millimeters thick and very short. The M.2 SSDs are approximately 22mm wide and 60-80mm long. It became obvious that putting a fair number of SSDs
28%
28.11.2023
to little NVMe drives that are only a few millimeters thick and very short. The M.2 SSDs are approximately 22mm wide and 60-80mm long. It became obvious that putting a fair number of SSDs that are very fast
28%
11.10.2016
, interesting, and worthwhile exercise. I argue that systems administration needs a command-line editor, because it can be used even if X windows isn't working or isn't installed on the servers. Knowing how
28%
21.08.2014
't connect to $remote_host:$remote_port: $@ \n";
17
18
19 while() {
20 my @lavg = Sys::CpuLoad::load();
21 my $ts=time();
22 print $socket "system.loadavg_1min $lavg[0] $ts\n";
23 print $socket "system ... 22
28%
21.01.2021
This first article of a series looks at the forces that have driven desktop supercomputing, beginning with the history of PC and supercomputing processors through the 1990s into the early 2000s.
... 1992
i486DX2
2:1 clock multiplier, 40/20, 50/25, 66/33 speeds; L2 on MB
Mar 1994
i486DX4
3:1 clock multiplier, 75/25, 100/33 speeds; 16KB L1 cache on-die, L2 ...
This first article of a series looks at the forces that have driven desktop supercomputing, beginning with the history of PC and supercomputing processors through the 1990s into the early 2000s.
28%
01.06.2024
is 20x because only 95 percent of the algorithm can execute in parallel (compute the fraction 1/20 from that 5% number). That limitation led to a search for embarrassingly parallel
algorithms
