19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "sphere_q4_elements.txt".

  Element order ELEMENT_ORDER =    4
  Number of element ELEMENT_NUM  = 64

  Read the data in "sphere_q4_elements.txt".

  Portion of data read from file:

  Row:      0       1       2       3  
  Col

    0:      1       1       3       2  
    1:      1       1       4       3  
    2:      1       1       5       4  
    3:      1       1       6       5  
    4:      1       1       7       6  
    5:      1       1       8       7  
    6:      1       1       9       8  
    7:      1       1       2       9  
    8:      2       3      11      10  
    9:      3       4      12      11  

  Lower bandwidth ML = 15
  Upper bandwidth MU = 15
  Total bandwidth M  = 31

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "sphere_t3_elements.txt".

  Element order ELEMENT_ORDER =    3
  Number of element ELEMENT_NUM  = 112

  Read the data in "sphere_t3_elements.txt".

  Portion of data read from file:

  Row:      0       1       2  
  Col

    0:      3       2       1  
    1:      4       3       1  
    2:      5       4       1  
    3:      6       5       1  
    4:      7       6       1  
    5:      8       7       1  
    6:      9       8       1  
    7:      2       9       1  
    8:      2       3      10  
    9:     11      10       3  

  Lower bandwidth ML = 15
  Upper bandwidth MU = 15
  Total bandwidth M  = 31

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "twenty_order4_elements.txt".

  Element order ELEMENT_ORDER =    4
  Number of element ELEMENT_NUM  = 70

  Read the data in "twenty_order4_elements.txt".

  Portion of data read from file:

  Row:      0       1       2       3  
  Col

    0:     12       4      14       2  
    1:     12      19      14       2  
    2:      8      19      14       2  
    3:      8      12      19      14  
    4:     13      12       4       2  
    5:     13      12      19       2  
    6:     13      15      12       4  
    7:      5       8       9       2  
    8:     11       5       1       9  
    9:     17       7       4      14  

  Lower bandwidth ML = 19
  Upper bandwidth MU = 19
  Total bandwidth M  = 39

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "ell3_elements.txt".

  Element order ELEMENT_ORDER =    3
  Number of element ELEMENT_NUM  = 24

  Read the data in "ell3_elements.txt".

  Portion of data read from file:

  Row:      0       1       2  
  Col

    0:      1       2       6  
    1:      7       6       2  
    2:      2       3       7  
    3:      8       7       3  
    4:      3       4       8  
    5:      9       8       4  
    6:      4       5       9  
    7:     10       9       5  
    8:      6       7      11  
    9:     12      11       7  

  Lower bandwidth ML = 5
  Upper bandwidth MU = 5
  Total bandwidth M  = 11

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "hex_holes3_elements.txt".

  Element order ELEMENT_ORDER =    3
  Number of element ELEMENT_NUM  = 237

  Read the data in "hex_holes3_elements.txt".

  Portion of data read from file:

  Row:      0       1       2  
  Col

    0:     46      45      81  
    1:      1       2     102  
    2:    110      62     111  
    3:     81      45      82  
    4:    120     138      85  
    5:    127      33      34  
    6:     33     127      72  
    7:    129     130      64  
    8:     73      62     127  
    9:     76      15      16  

  Lower bandwidth ML = 131
  Upper bandwidth MU = 131
  Total bandwidth M  = 263

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "hot_pipe3_elements.txt".

  Element order ELEMENT_ORDER =    3
  Number of element ELEMENT_NUM  = 288

  Read the data in "hot_pipe3_elements.txt".

  Portion of data read from file:

  Row:      0       1       2  
  Col

    0:      1       2      15  
    1:     15      14       1  
    2:      2       3      16  
    3:     16      15       2  
    4:      3       4      17  
    5:     17      16       3  
    6:      4       5      18  
    7:     18      17       4  
    8:      5       6      19  
    9:     19      18       5  

  Lower bandwidth ML = 14
  Upper bandwidth MU = 14
  Total bandwidth M  = 29

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "ell6_elements.txt".

  Element order ELEMENT_ORDER =    6
  Number of element ELEMENT_NUM  = 6

  Read the data in "ell6_elements.txt".

  Portion of data read from file:

  Row:      0       1       2       3       4       5  
  Col

    0:      1       3      11       2       7       6  
    1:     13      11       3      12       7       8  
    2:      3       5      13       4       9       8  
    3:     15      13       5      14       9      10  
    4:     11      13      19      12      17      16  
    5:     21      19      13      20      17      18  

  Lower bandwidth ML = 10
  Upper bandwidth MU = 10
  Total bandwidth M  = 21

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM
19 January 2017 08:38:45 AM

MESH_BANDWIDTH
  C version
  Read a mesh file which defines
  a "triangulation" of a region in the plane,
  or a "tetrahedronization" of a region in space,
  or any division of a regino in ND space into elements,
  using a mesh of elements of uniform order.

  Determine the geometric mesh bandwidth.

    M = ML + 1 + MU.

  which is the bandwidth of the vertex connectivity
  matrix.

  Note that a matrix associated with variables defined
  at the  nodes could have a greater bandwidth than M,
  since you might have multiple variables at a vertex,
  or the variable might be a vector quantity,
  or physical effects might link two variables that are
  not associated with vertices that are connected.

  Read the header of "hex_holes6_elements.txt".

  Element order ELEMENT_ORDER =    6
  Number of element ELEMENT_NUM  = 232

  Read the data in "hex_holes6_elements.txt".

  Portion of data read from file:

  Row:      0       1       2       3       4       5  
  Col

    0:    294     373     354     325     352     323  
    1:     60      95      86      73      81      71  
    2:    373     374     428     410     412     411  
    3:     95      96     136     114     116     115  
    4:    239     294     242     268     269     248  
    5:     36      60      42      46      47      37  
    6:     96      62      91      76      74      82  
    7:    374     301     361     332     330     355  
    8:     96      91     135      82     100      99  
    9:     91      62      66      74      61      75  

  Lower bandwidth ML = 83
  Upper bandwidth MU = 83
  Total bandwidth M  = 167

MESH_BANDWIDTH
  Normal end of execution.

19 January 2017 08:38:45 AM