30%
10.06.2015
(xrandr) "provides automatic discovery of modes (resolutions, refresh rates, …) [and] the ability to configure output dynamically (resize, rotate, move, …)" [3]. The xrandr configuration tool lets me
30%
27.09.2021
Request timeout for icmp_seq 0
Request timeout for icmp_seq 1
Request timeout for icmp_seq 2
64 bytes from 52.90.56.122: icmp_seq=3 ttl=48
time=40.492 ms
[ output truncated ]
Welcome to Ubuntu 20.04.1 LTS
30%
17.06.2017
-1) = 0.25 * (a(1:n-2,2:n) + a(3:n,2:n) + a(2:n,1:n-2) + a(2:n,3:n))
Using forall, the same can be written as:
forall (i=2:n-1, j=2:n-1) a(i,j) = 0.25*(a(i-1,j) + a(i+1,j) + a(i,j-1) + a(i,j+1
30%
20.06.2022
_DB_PASSWORD=SOME_DB_PASSWORD
15 command: ["start-dev"]
16
17 postgres:
18 container_name: postgres
19 image: postgres:14
20 environment:
21 - POSTGRES_PASSWORD=SOME_DB_PASSWORD
22
30%
28.11.2022
/s, 133M issued at 133M/s, 81.6M total
0B repaired, 163.06% done, no estimated completion time
scan: resilvered (draid1:3d:5c:1s-0) 20.2M in 00:00:00 with 0 errors on Mon Oct 24 17:11:22 2022
30%
18.02.2018
code is written and compiled in one of three classic HPC languages: Fortran [2], C++ [3], or C [4].
Why these languages? Because they have enabled generation of very efficient code for a long time
30%
02.06.2020
= sol.copy()
10
11 for j in range(0,ny-1):
12 sol[0,j] = 10.0
13 sol[nx-1,j] = 1.0
14 # end for
15
16 for i in range(0,nx-1):
17 sol[i,0] = 0.0
18 sol[i,ny-1] = 0.0
19 # end for
20
21 # Iterate
22
30%
02.06.2020
6836191232 sde
8 48 6836191232 sdd
8 80 6836191232 sdf
Make sure to load the ZFS modules,
$ sudo modprobe zfs
and verify that they are loaded:
$ lsmod|grep zfs
zfs 3039232 3
30%
01.08.2019
, and alerts are then sent by MQTT and stored in a SQLite database. The front end is a lightweight Flask app [3].
Figure 2: The honeyBot project flowchart
30%
01.06.2024
compute server (Figure 3) [11]. Dependancies for this code on Ubuntu 22.04 are easily sourced:
Figure 3: Shockwave is put to use running numerical
