13 October 2011 11:28:19 AM

MXM_OPENMP:
  C++/OpenMP version
  Compute matrix product C = A * B.

  The number of processors available = 8
  The number of threads available    = 1
  The matrix order N                 = 500
  Elapsed seconds = 1.20506
  C(100,100)  = 1

MXM_OPENMP:
  Normal end of execution.

13 October 2011 11:28:20 AM
13 October 2011 11:28:20 AM

MXM_OPENMP:
  C++/OpenMP version
  Compute matrix product C = A * B.

  The number of processors available = 8
  The number of threads available    = 2
  The matrix order N                 = 500
  Elapsed seconds = 0.625404
  C(100,100)  = 1

MXM_OPENMP:
  Normal end of execution.

13 October 2011 11:28:21 AM
13 October 2011 11:28:21 AM

MXM_OPENMP:
  C++/OpenMP version
  Compute matrix product C = A * B.

  The number of processors available = 8
  The number of threads available    = 4
  The matrix order N                 = 500
  Elapsed seconds = 0.362242
  C(100,100)  = 1

MXM_OPENMP:
  Normal end of execution.

13 October 2011 11:28:21 AM
13 October 2011 11:28:21 AM

MXM_OPENMP:
  C++/OpenMP version
  Compute matrix product C = A * B.

  The number of processors available = 8
  The number of threads available    = 8
  The matrix order N                 = 500
  Elapsed seconds = 0.323604
  C(100,100)  = 1

MXM_OPENMP:
  Normal end of execution.

13 October 2011 11:28:21 AM