This is an OpenMP question. 1. #pragma omp parallel 2. { 3. 4. for (i = 1 ; i < M; i += 2 ) 5. { 6. D[i] = x * A[i] + x * B[i]; 7. } 8. 9. #pragma omp for 10. for (i = 0; i < N; i++) 11. { 12. C[i] = k * D[i]; 13. } 14. } // end omp parallel Assume M = 2N. What do we have to write in line 3 above to get as much performance as possible from the above code? There must not be a race condition.
This is an OpenMP question. 1. #pragma omp parallel 2. { 3. 4. for (i = 1 ; i < M; i += 2 ) 5. { 6. D[i] = x * A[i] + x * B[i]; 7. } 8. 9. #pragma omp for 10. for (i = 0; i < N; i++) 11. { 12. C[i] = k * D[i]; 13. } 14. } // end omp parallel Assume M = 2N. What do we have to write in line 3 above to get as much performance as possible from the above code? There must not be a race condition.
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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This is an OpenMP question.
1. #pragma omp parallel
2. {
3.
4. for (i = 1 ; i < M; i += 2 )
5. {
6. D[i] = x * A[i] + x * B[i];
7. }
8.
9. #pragma omp for
10. for (i = 0; i < N; i++)
11. {
12. C[i] = k * D[i];
13. }
14. } // end omp parallel
Assume M = 2N. What do we have to write in line 3 above to get as much
performance as possible from the above code? There must not be a race condition.
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