29%
14.06.2017
-rw-r--r-- 1 laytonjb laytonjb 261K 2014-06-09 20:31 FS_scan.csv.gz
The original file is 3.2MB, but after using gzip
with the -9
option (i.e., maximum compression), the resulting file is 268KB. The .gz
29%
14.08.2017
:31 FS_scan.csv
$ gzip -9 FS_scan.csv
$ ls -lsah FS_scan.csv.gz
268K -rw-r--r-- 1 laytonjb laytonjb 261K 2014-06-09 20:31 FS_scan.csv.gz
The original file is 3.2MB, but after using gzip with the -9
29%
03.07.2013
. The speed-up increases from 1.00 with 1 process to 4.71 with 64 processes. However, also notice that the wall clock time for the serial portion of the application does not change. It stays at 200 seconds
29%
30.01.2024
Dell Precision Workstation T7910
Power
1,300W
CPU
2x Intel Xeon Gold E5-2699 V4, 22 cores, 2.4GHz, 55MB of cache, LGA 2011-3
GPU, NPU
n/a*
Memory
29%
05.12.2014
.21
–
EUR5.95
EUR1.00 (with French VAT)
EUR2.78 (half price as of year two)
–
$2.92
License(s)
AGPL, commercial
GPL, LGPL, AGPL
Commercial
GPLv3
29%
17.02.2015
NEW packages will be installed:
libdate-manip-perl libyaml-syck-perl logwatch
As a result, about 12.5MB of new software is installed.
Logwatch gets configuration details several ways:
from script
29%
03.02.2022
class BlazeDemoV1 extends Simulation {
08
09 var qualifiedhost = "http://blazedemo.com"
10 var proxyport = 0
11 var proxyhost = "not set"
12
13 // headers for HTTP call
14 val headers = Map(
15
29%
09.08.2015
resources = Resources(cpu = 0.1, ram = 20*MB, disk = 20*MB),
09 processes = [hello_world_process])
10
11 hello_world_job = Job(
12 cluster = 'test',
13 role = os.getenv('USER'),
14 task = hello
29%
24.09.2015
. The speed-up increases from 1.00 with one process to 4.71 using 64 processes. Of course, the wall clock time for the serial portion of the application does not change; it stays at 200 seconds regardless
29%
08.10.2015
. The speed-up increases from 1.00 with one process to 4.71 using 64 processes. Of course, the wall clock time for the serial portion of the application does not change; it stays at 200 seconds regardless
