56%
12.02.2014
" %
> # (human(cmd[1]-shareds[cmd[0]]),
> # human(shareds[cmd[0]]), human(cmd[1]),
> # cmd_with_count(cmd[0], count[cmd[0]])))
423,424c423,425
< sys.stdout.write("%s\n
55%
12.05.2020
TAG IMAGE ID CREATED SIZE
cuda 10.1-base-ubuntu19.04-octave b01ee7a9eb2d 47 seconds ago 873MB
nvidia/cuda 10.1-base-ubuntu18.04 3b55548ae91f 4 months ago 106MB
hello
54%
13.12.2022
-export-libs-9.11.36-3.el8_6.1.x86_64.rpm 579 kB/s | 1.1 MB 00:02
(6/6): warewulf-4.3.0-1.git_235c23c.el8.x86_64.rpm 746 kB/s | 8.3 MB 00
54%
02.08.2021
with a different size (Listing 3). The output from the second command verifies that the RAM drives were created.
Listing 3
Adding RAM Drive of 32MB
$ sudo rapiddisk -a 32
rapiddisk 7.2.0
Copyright
53%
01.06.2024
.
Listing 3
YAML Installer File
PackageIdentifier: OSC.Ficl
PackageVersion: 1.2.0
InstallerLocale: en-US
InstallerType: msi
ProductCode: '{116A96E1-3C5C-4147-AC63-98427DFE866B}'
Installers
53%
07.02.2019
exiting the data region, the data from the accelerator is copied back to the host. Table 3 shows a simple example of using the copy
clause.
Table 3: The copy
Clause
Fortran
C
!$acc data copy(a
53%
11.05.2021
, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192]
A = single( rand(N,N) );
B = single( rand(N,N) );
start = clock();
C = A*B;
elapsedTime = etime(clock(), start);
gFlops = 2*N*N*N / (elapsedTime * 1e+9);
disp(sprintf("N = %4d
53%
16.03.2021
Name : dev-machine:0 (local to host dev-machine)
UUID : e0e5d514:d2294825:45d9f09c:db485a0c
Events : 3
Number Major Minor RaidDevice State
0 252 0
52%
25.09.2023
Quad-core Xuantie C910
64KB+64KB data/instruction caches per core
1MB shared L2 cache
GPU
50GFLOPS BXM-4-64
NPU
4TOPS INT8 at 1GHz
52%
30.01.2020
Conversion
$ sudo lvs -a vg-cache -o devices,segtype,lvattr,name,vgname,origin
Devices Type Attr LV VG Origin
/dev/nvme0n1(0) linear Cwi-aoC--- [fast
