24 March 2023   9:39:29.226 PM
 
mxm_openmp():
  FORTRAN90/OpenMP version
  Compute matrix product C = A * B using OpenMP.
 
  The number of processors available =       16
  The number of threads available    =        1
  The matrix order N                 =     2000
  Elapsed seconds =    89.1263    
  C(100,100)  =    1.00000    
 
mxm_openmp():
  Normal end of execution.
 
24 March 2023   9:40:58.358 PM
24 March 2023   9:40:58.360 PM
 
mxm_openmp():
  FORTRAN90/OpenMP version
  Compute matrix product C = A * B using OpenMP.
 
  The number of processors available =       16
  The number of threads available    =        2
  The matrix order N                 =     2000
  Elapsed seconds =    44.2787    
  C(100,100)  =    1.00000    
 
mxm_openmp():
  Normal end of execution.
 
24 March 2023   9:41:42.645 PM
24 March 2023   9:41:42.647 PM
 
mxm_openmp():
  FORTRAN90/OpenMP version
  Compute matrix product C = A * B using OpenMP.
 
  The number of processors available =       16
  The number of threads available    =        4
  The matrix order N                 =     2000
  Elapsed seconds =    22.5486    
  C(100,100)  =    1.00000    
 
mxm_openmp():
  Normal end of execution.
 
24 March 2023   9:42:05.200 PM
24 March 2023   9:42:05.202 PM
 
mxm_openmp():
  FORTRAN90/OpenMP version
  Compute matrix product C = A * B using OpenMP.
 
  The number of processors available =       16
  The number of threads available    =        8
  The matrix order N                 =     2000
  Elapsed seconds =    13.7296    
  C(100,100)  =    1.00000    
 
mxm_openmp():
  Normal end of execution.
 
24 March 2023   9:42:18.937 PM