14%
09.10.2017
Michael Freedman some 20 years ago to continue his work on topology. Microsoft's quantum computing work is based on the work Freedman has done over years. Eventually Microsoft has started to see some
14%
04.08.2020
return -timespec_diff(sooner, later);
19 else
20 return
21 (later->tv_sec - sooner->tv_sec)
22 /* tv_nsec is known to be a signed type. */
23 + (later->tv_nsec - sooner
14%
14.03.2013
: 6
08 microcode : 0x60c
09 cpu MHz : 800.000
10 cache size : 6144 KB
11 physical id : 0
12 siblings : 2
13 core id : 0
14 cpu cores : 2
15 apicid
14%
16.05.2013
sell for US$ 500,000 and up, increased 29.3% to US$ 5.6 billion from 2011, according to IDC's recent "Worldwide High-Performance Technical Server QView" report.
According to the report, supercomputers
14%
17.09.2013
–17 (seven orders of magnitude difference). The lower number is just about one error per gigabit of memory per hour. The upper number indicates roughly one error every 1,000 years per gigabit of memory
14%
12.05.2021
: ST14000NM0001
Revision: K001
Compliance: SPC-5
User Capacity: 7,000,259,821,568 bytes [7.00 TB]
Logical block size: 4096 bytes
LU is fully provisioned
Rotation
14%
02.03.2012
, and because of its diminutive code base, exceptionally secure. How secure? You might well ask Well, how does a US$ 1,000 reward sound if you discover a security hole? You have to admit that such an offer
14%
02.07.2014
to do on a single node can be done on a large number of nodes using a parallel shell tool.
If you try to use a parallel shell on a 50,000-node cluster, however, the time skew could be large enough
14%
17.06.2017
type for variable "a"
18 type(my_struct) :: a
19 ! ...
20 write(*,*) "i is ",a%i
21
22 ! Structures (variables) of the the derived type my_struct
23 type(my_struct) :: data
24 type
14%
07.01.2024
/snap/gtk-common-themes/1534
loop7 7:7 0 63.5M 1 loop /snap/core20/1974
loop8 7:8 0 91.7M 1 loop /snap/gtk-common-themes/1535
loop9 7:9 0 53.3M 1 loop /snap/snapd/19457
loop10 7:10 0 46M 1 loop
