Difference between revisions of "OpenMP in Small Bites/Tasking and Data Scoping"
OpenMP in Small Bites/Tasking and Data Scoping
Jump to navigation
Jump to search
m (Add DISPLAYTITLE) |
|||
Line 1: | Line 1: | ||
[[Category:Tutorials]]<nowiki /> | [[Category:Tutorials]]<nowiki /> | ||
+ | {{DISPLAYTITLE:OpenMP Tasking and Data Scoping}}<nowiki /> | ||
{{Syllabus OpenMP in Small Bites}}<nowiki /> | {{Syllabus OpenMP in Small Bites}}<nowiki /> | ||
__TOC__ | __TOC__ |
Revision as of 15:52, 4 December 2020
Tutorial | |
---|---|
Title: | OpenMP in Small Bites |
Provider: | HPC.NRW
|
Contact: | tutorials@hpc.nrw |
Type: | Multi-part video |
Topic Area: | Programming Paradigms |
License: | CC-BY-SA |
Syllabus
| |
1. Overview | |
2. Worksharing | |
3. Data Scoping | |
4. False Sharing | |
5. Tasking | |
6. Tasking and Data Scoping | |
7. Tasking and Synchronization | |
8. Loops and Tasks | |
9. Tasking Example: Sudoku Solver | |
10. Task Scheduling | |
11. Non-Uniform Memory Access |
This video deepens the knowledge of OpenMP Tasking and Data Scoping by using an example which includes typical scenarios. Furthermore, aspects of the lifetime of a variable are discussed.
Video
Quiz
1. Consider the following code snippet
int x = 42;
#pragma omp parallel private(x)
{
#pragma omp task
{
x = 3;
}
}
printf("x=%d\n", x);
x
in the task region and what is printed at the end?
2. Consider the following code snippet
int x = 42;
int y = 0;
#pragma omp parallel num_threads(4)
{
#pragma omp task
{
#pragma omp critical
{
y += x;
}
}
}
printf("y=%d\n", y);
x
in the task region and what is printed out at the end?
3. Consider the following code snippet
int x = 42;
int y = 0;
#pragma omp parallel num_threads(4)
{
#pragma omp single
{
#pragma omp task
{
#pragma omp critical
{
y += x;
}
}
}
}
printf("y=%d\n", y);
x
in the task region and what is printed out at the end?