51%
05.12.2019
).
Figure 1: Flattening a 2D array in C or C++.
Listing 3
inspect.c
#include
**
int a[4][5] = { // array of 4 arrays of 5 ints each, a 4x5 matrix
{ 1, 2, 3
51%
17.06.2017
of the array), has to be specified. The following are simple examples of a declaration
INTEGER, TARGET :: a(3), b(6), c(9)INTEGER, DIMENSION(:),POINTER :: pt2
and multidimensional arrays:
INTEGER, POINTER
50%
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
50%
29.10.2013
Created Auto Scaling group
policy named:
arn:aws:autoscaling:eu-west-1:894012917938:scalingPolicy:
927c9769-d96e-46ba-b08f-099650ae7a3d:autoScalingGroupName/awseb-
e-mnpsy5bpzk
50%
20.10.2016
), has to be specified. Here is a simple example of the declaration:
INTEGER, TARGET :: a(3), b(6), c(9)
INTEGER, DIMENSION(:), POINTER :: pt2
Another quick example of multidimension arrays
50%
02.06.2020
cddaa6-0886-44b3-9590-16717d5cd3c2",
20 "service_instance_guid": null,
21 "port": null,
22 "domain_url": "/v2/shared_domains/fb6bd89f-2ed9-49d4-9ad1-97951a573135",
23
50%
25.03.2021
.io/hostname: "node2"
dataRaidGroups:
- blockDevices:
- blockDeviceName: "blockdevice-3f4e3fea1ee6b86ca85d2cde0f132007"
- blockDeviceName: "blockdevice-db84a74a39c0a1902fced6663652118e
50%
25.09.2023
guest
82a84,88
>
> tee /etc/.htpasswd <<'EOF'
> guest:$apr1$gz4n7s6o$P.O/V1k9rZuV9nN/5lh3l0
> admin:$apr1$esczj7wu$ffu/6j8vETMAMJaVTKn7a1
> EOF
Monit is configured to load service
50%
22.12.2017
_ext, build commands --fcompiler options
running build_src
build_src
building extension "hw" sources
f2py options: []
f2py:> /tmp/tmpKa8a4p/src.linux-x86_64-2.7/hwmodule.c
creating /tmp/tmpKa8a4p/src.linux-x86
50%
01.06.2024
Running kube-proxy 1 5bf2de2a3af3c kube-proxy-b65c9
The mitigations for the above technique could be used to ensure that no containers mount docker
