48%
09.01.2019
3: Gang Execution
Fortran
C
!$acc parallel
do i=1,n
! do something
enddo
!$acc end parallel
#pragma acc parallel
{
for (int i=0; i < n
48%
10.07.2017
with the original Raspberry Pi Model A, ranging from two to more than 250 nodes. That early 32-bit system had a single core running at 700MHz with 256MB of memory. You can build a cluster of five RPi3 nodes with 20
48%
30.11.2020
cri-o-${CRIO_VERSION}
The following NEW packages will be installed
cri-o-1.17
0 to upgrade, 1 to newly install, 0 to remove and 0 not to upgrade.
Need to get 17.3 MB of archives.
After this operation
48%
07.03.2019
acc parallel loop
{
for (j=0; j < m; j++) {
...
}
}
...
}
}
Table 3: Single-Directive Nested Loop
Fortran
C
!$acc parallel loop
do i=1,n
...
do
48%
11.09.2018
.
Figure 6: Good old ``get pods'' but with width: ``kubectl get pod nginx-dep-54b9c79874-b9dzh -o wide'' showing an internal pod IP Address in the 172.17.0.0 range.
Use the -n
option to specify
48%
26.03.2025
://$APISERVER --deploy-mode cluster --name spark-wordcount --class org.apache.spark.examples.JavaWordCount local:///opt/spark/examples/jars/spark-examples_2.12-3.5.2.jar s3a://data/war-and-peace.txt
watch kubectl get po
48%
05.08.2024
, as in Python [3] or Node [4].
Recent books have been published about writing shell commands in Rust [5], Python [6], Node.js [7], and even Go [8], and it is into this last language's interesting performance
48%
05.02.2019
, to warm up both the image cache and the Linux cache.
Listing 3
Benchmark
#!/bin/bash
N=100
time for i in {1..$N}; do
CID=$(docker run --name server-$i -d nginx)
docker exec server-$i /bin
48%
10.10.2012
tmp DISPATCH_WINDOW # Keywords
test1 0 () () () () () ()
n0001 3 () () () () () ()
default
47%
15.08.2012
=readall(`date`)
"Tue Jul 31 15:51:58 EDT 2012\n"
julia> print(d)
Tue Jul 31 15:51:58 EDT 2012
In addition to efficient shell integration, Julia also has a very nice C and Fortran interface. Typically, every new
