11%
15.08.2016
via 192.168.1.1 dev eth1
13 $ ip netns exec ns1 ping -c2 8.8.8.8
14 PING 8.8.8.8 (8.8.8.8) 56(84) bytes of data.
15 64 bytes from 8.8.8.8: icmp_seq=1 ttl=51 time=22.1 ms
16 64 bytes from 8.8.8.8: icmp
11%
11.04.2016
hiawatha running
www-data 4766 0.1 0.3 118232 4016 ? Ssl 20:13 0:00 /usr/sbin/hiawatha
You can use netstat to check the bindings:
netstat -tulpn
See the output in Listing 2.
Listing 2
11%
08.07.2018
using a parallel shell tool. However, for those that might be asking if they can use parallel shells on their 50,000-node clusters, the answer is that you can, but the time skew in the results
11%
16.08.2018
of nodes using a parallel shell tool. However, for those that might be asking if they can use parallel shells on their 50,000-node clusters, the answer is that you can, but the time skew in the results
10%
26.01.2025
and developed ideas with Keras.
Keras and VGG16
Getting started with Keras is not difficult. Rather than use the MNIST [2] dataset of 60,000 grayscale images as an example, I'll use a VGG16 [3] model
10%
11.04.2016
MB/s wMB/s avgrq-sz ...
sdb 0.00 28.00 1.00 259.00 0.00 119.29 939.69 ...
Parallelism
Multiple computers can access enterprise storage, and multiple threads can access
10%
09.01.2013
nebulae. Stable version 4.0, published in May 2013, was named "Eagle" – after the Eagle Nebula (a star cluster discovered in the mid-18th century that is about 7,000 light years from Earth). Compared
10%
27.09.2021
ssh ubuntu@52.90.56.122; do sleep 1; done
ssh: connect to host 52.90.56.122 port 22: Connection refused
ssh: connect to host 52.90.56.122 port 22: Connection refused
[ output truncated ]
Welcome
10%
01.06.2024
* argv[])
08 {
09 long niter = 1000000000;
10 int myid; //holds process's rank id
11 double x,y; //x,y value for the random coordinate
12 int i;
13
10%
04.08.2020
// (c) 2020 by Federico Lucifredi
04
05 #include
06 #include
07 #include
08 #include
09 #include
10 #include
11 #include
12
13
