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Student of Applied Computer Science

github: https://github.com/Jabro


Mar
3
awarded  Popular Question
Feb
16
accepted Performance problems using OpenMP in nested loops
Feb
16
comment Performance problems using OpenMP in nested loops
In addition to making it more complicated, it also makes it wrong. The for loop is somehow executed parallely (at least the outer inner one). Wrapping it in a single/master clause leads to compile problems as openMP doesn't allow to nest parallel blocks in single/master blocks.
Feb
16
answered Performance problems using OpenMP in nested loops
Feb
16
comment Performance problems using OpenMP in nested loops
the amount of elements in one bucket vary between 1 and 130. Paralleling when only a couple of elements are in the bucket shurely makes no sense. To test I once duplicated the parallelized for and only parallelized when there where more than x (5,10,20..) elments in the bucket, but that didn't increase performance
Feb
14
comment Performance problems using OpenMP in nested loops
unfortunately I cannot provide test code/data I'm testing on an Octacore and a 48-core system
Feb
14
comment Performance problems using OpenMP in nested loops
that was what I was looking for. Although I think, that the environment variables I mentioned in the post take care of this. Your second link seems wrong somehow albeit the title appearing at hovering is correct it links to something about c# float to int conversion
Feb
13
revised Performance problems using OpenMP in nested loops
added 9 characters in body
Feb
12
comment Performance problems using OpenMP in nested loops
Actually there it is a parallel for. That was just a copy/paste error. Regarding the parallel block before the for loops: wouldn't the complete code then be called with multiple threads as: #pragma omp parallel cout << "asd" << endl; Is printed omp_get_num_threads times
Feb
12
comment Performance problems using OpenMP in nested loops
this is a lock free algo. The dependency graph is build in order to avoid concurrent writes to the same location. The time required to build the depeendency graph and color it is irrelevant as the query time (call to the method pictured above) is the only thing that is relevant. One thing I noticed is that the bucket size varies strongly between 1 and >130.
Feb
12
comment Performance problems using OpenMP in nested loops
The outer loop must be processed sequentially as the algorithm builds on top of the results of the previous rounds. The 2nd loop also can't be parallelized. The color buckets are the colors of a greedily colored dependency graph and therefore have to be processed sequentially. Typical size of color_bucket is small <=50. Typical size of bucket is about 100, but processing takes a comparably long time. Copying was not intended, but & brings no performance gain (probably ooptimized by compiler)
Feb
12
revised Performance problems using OpenMP in nested loops
edited title
Feb
12
revised Performance problems using OpenMP in nested loops
edited title
Feb
12
asked Performance problems using OpenMP in nested loops
Dec
11
awarded  Popular Question
Nov
15
accepted Generate image file not equivalent to R Studio Output
Nov
15
asked Generate image file not equivalent to R Studio Output
Oct
29
accepted Clone InputStream
Oct
29
awarded  Teacher
Sep
24
awarded  Autobiographer