source: palm/trunk/UTIL/find_palm_config.f90 @ 1593

 PROGRAM find_palm_config

!------------------------------------------------------------------------------!
! This file is part of PALM.
!
! PALM is free software: you can redistribute it and/or modify it under the terms
! of the GNU General Public License as published by the Free Software Foundation,
! either version 3 of the License, or (at your option) any later version.
!
! PALM is distributed in the hope that it will be useful, but WITHOUT ANY
! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
! A PARTICULAR PURPOSE.  See the GNU General Public License for more details.
!
! You should have received a copy of the GNU General Public License along with
! PALM. If not, see <http://www.gnu.org/licenses/>.
!
! Copyright 1997-2014  Leibniz Universitaet Hannover
!--------------------------------------------------------------------------------!
!
! Current revisions:
! -----------------
!
! Former revisions:
! -----------------
! $Id: find_palm_config.f90 1310 2014-03-14 08:01:56Z raasch $
!
! 1046 2012-11-09 14:38:45Z maronga
! code put under GPL (PALM 3.9)
! 
!
! Description:
! -------------
! Find possible configurations for given processor and grid point numbers
!------------------------------------------------------------------------------!

    IMPLICIT NONE

    CHARACTER (LEN=1) ::  char = ''
    INTEGER ::  count = 0, i, ii(1), j, k, maximum_grid_level, mg_levels_x, &
                mg_levels_y, mg_levels_z, n, numprocs, numprocs_max,        &
                numprocs_min, nx, nxanz, nx_max, nx_min, ny, nyanz, ny_max, &
                ny_min, nz, nz_max, nz_min, pdims(2)
    INTEGER ::  numnx(10000), numpr(10000)
    LOGICAL ::  cubic_domain = .FALSE., found, found_once = .FALSE., &
                one_d_decomp = .FALSE., quadratic_domain_xy = .FALSE.
    REAL    ::  grid_ratio, grid_ratio_new, maximum_grid_ratio, tolerance, &
                tolerance_nx, tolerance_ny, tolerance_nz
    REAL    ::  gridratio(10000)

    TYPE configuration
       REAL               ::  grid_ratio
       INTEGER            ::  numprocs, pdims_1, pdims_2, nx, ny, nz, nxanz, &
                              nyanz, grid_levels, nx_mg, ny_mg, nz_mg
    END TYPE configuration

    TYPE(configuration), DIMENSION(10000) ::  config

!
!-- Ask number of processors available
    PRINT*, '*** number of PEs available + allowed tolerance:'
    READ (*,*)  numprocs, tolerance
    IF ( tolerance < 0.0 )  THEN
       numprocs_max = numprocs
       numprocs_min = numprocs * ( 1.0 + tolerance )
    ELSE
       numprocs_max = numprocs * ( 1.0 + tolerance )
       numprocs_min = numprocs * ( 1.0 - tolerance )
    ENDIF

!
!-- Ask for 1D-decomposition
    PRINT*, ' '
    PRINT*, ' '
    PRINT*, '*** shall a 1d-decomposition along x be used (y/n)?'
    READ (*,*)  char
    IF ( char == 'y' )  one_d_decomp = .TRUE.

!
!-- Ask for quadratic domain
    PRINT*, ' '
    PRINT*, ' '
    PRINT*, '*** shall a quadratic domain along x and y be used (y/n)?'
    READ (*,*)  char
    IF ( char == 'y' )  THEN
       quadratic_domain_xy = .TRUE.
       PRINT*, ' '
       PRINT*, ' '
       PRINT*, '*** shall also grid points along z be equal to x and y (y/n)?'
       READ (*,*)  char
       IF ( char == 'y' )  cubic_domain = .TRUE.
    ENDIF

!
!-- Read number of gridpoints in each direction
    PRINT*, ' '
    PRINT*, ' '
    PRINT*, '*** please type nx + allowed tolerance:'
    READ (*,*)  nx, tolerance_nx
    IF ( tolerance_nx < 0.0 )  THEN
       nx_max = nx
       nx_min = nx * ( 1.0 + tolerance_nx )
    ELSE
       nx_max = nx * ( 1.0 + tolerance_nx )
       nx_min = nx * ( 1.0 - tolerance_nx )
    ENDIF
    IF ( quadratic_domain_xy )  THEN
       ny           = nx
       tolerance_ny = tolerance_nx
    ELSE
       PRINT*, '*** please type ny + allowed tolerance:'
       READ (*,*)  ny, tolerance_ny
    ENDIF
    IF ( tolerance_ny < 0.0 )  THEN
       ny_max = ny
       ny_min = ny * ( 1.0 + tolerance_ny )
    ELSE
       ny_max = ny * ( 1.0 + tolerance_ny )
       ny_min = ny * ( 1.0 - tolerance_ny )
    ENDIF
    IF ( cubic_domain )  THEN
       nz           = nx
       tolerance_nz = tolerance_nx
    ELSE
       PRINT*, '*** please type nz + allowed tolerance:'
       READ (*,*)  nz, tolerance_nz
    ENDIF
    IF ( tolerance_nz < 0.0 )  THEN
       nz_max = nz
       nz_min = nz * ( 1.0 + tolerance_nz )
    ELSE
       nz_max = nz * ( 1.0 + tolerance_nz )
       nz_min = nz * ( 1.0 - tolerance_nz )
    ENDIF

!
!-- Read maximum gridpoint-ratio for which results shall be printed
    PRINT*, ' '
    PRINT*, '*** please type maximum subdomain gridpoint-ratio'
    PRINT*, '    ( ABS( nx_sub / ny_sub - 1.0 ) ) for which results shall be'
    PRINT*, '    printed'
    READ (*,*)  maximum_grid_ratio

!
!-- Loop over allowed numbers of processors
g:  DO  n = numprocs_max, numprocs_min, -1

!
!--    Set initial configuration
       numprocs   = n
       pdims(1)   = numprocs + 1
       pdims(2)   = 1

!
!--    Looking for practicable virtual processor grids
p:     DO  WHILE ( pdims(1) > 1 )

          pdims(1) = pdims(1) - 1

!
!--       Create the virtual PE-grid topology
          IF ( MOD( numprocs , pdims(1) ) /= 0 )  THEN
             CYCLE p
          ELSE
             IF ( one_d_decomp  .AND.  pdims(1) < numprocs )  CYCLE g
          ENDIF
          pdims(2) = numprocs / pdims(1)

      xn: DO  nx = nx_min, nx_max
!
!--          Proof, if grid points in x-direction can be distributed without
!--          rest to the processors in x- and y-direction
             IF ( MOD(nx+1, pdims(1)) /= 0 .OR. &
                  MOD(nx+1, pdims(2)) /= 0 )  CYCLE xn
             nxanz  = ( nx + 1 ) / pdims(1)

         yn: DO  ny = ny_min, ny_max
!
!--             Eventually exit in case of non quadratic domains
                IF ( quadratic_domain_xy  .AND.  ny /= nx )  CYCLE yn
!
!--             Proof, if grid points in y-direction can be distributed without
!--             rest to the processors in x- and y-direction
                IF ( MOD( ny+1 , pdims(2) ) /= 0 .OR. &
                     MOD( ny+1, pdims(1) ) /= 0 )  CYCLE yn
                nyanz  = ( ny + 1 ) / pdims(2)

                grid_ratio = ABS( REAL( nxanz ) / REAL( nyanz ) - 1.0 )

            zn: DO  nz = nz_min, nz_max
!
!--                Eventually exit in case of non cubic domains
                   IF ( cubic_domain  .AND.  nz /= nx )  CYCLE zn
!
!--                Proof, if grid points in z-direction can be distributed
!--                without rest to the processors in x-direction
                   IF ( MOD( nz, pdims(1) ) /= 0  .AND.  .NOT. one_d_decomp ) &
                   THEN
                      CYCLE zn
                   ENDIF

!
!--                Store configuration found
                   IF ( grid_ratio < maximum_grid_ratio )  THEN
                      found = .TRUE.
                      count = count + 1
                      config(count)%grid_ratio = grid_ratio
                      config(count)%numprocs   = numprocs
                      config(count)%pdims_1    = pdims(1)
                      config(count)%pdims_2    = pdims(2)
                      config(count)%nx         = nx
                      config(count)%ny         = ny
                      config(count)%nz         = nz
                      config(count)%nxanz      = nxanz
                      config(count)%nyanz      = nyanz
                      IF ( count == 10000 )  THEN
                         PRINT*, '+++ more than 10000 configurations'
                         EXIT g
                      ENDIF
                   ENDIF

                   IF ( one_d_decomp )  CYCLE yn

                ENDDO zn

             ENDDO yn

          ENDDO xn

       ENDDO p

    ENDDO g

    IF ( .NOT. found )  THEN
       PRINT*, ' '
       PRINT*, '+++ No valid processor grid found for the given number of'
       PRINT*, '    processors and gridpoints'
       STOP
    ENDIF

!
!-- Calculate number of possible grid levels and gridpoints of the coarsest grid
!-- used by the multigrid method
    DO  n = 1, count
       mg_levels_x = 1
       mg_levels_y = 1
       mg_levels_z = 1

       i =  config(n)%nxanz
       DO WHILE ( MOD( i, 2 ) == 0  .AND.  i /= 2 )
          i = i / 2
          mg_levels_x = mg_levels_x + 1
       ENDDO

       j =  config(n)%nyanz
       DO WHILE ( MOD( j, 2 ) == 0  .AND.  j /= 2 )
          j = j / 2
          mg_levels_y = mg_levels_y + 1
       ENDDO

       k =  config(n)%nz
       DO WHILE ( MOD( k, 2 ) == 0  .AND.  k /= 2 )
          k = k / 2
          mg_levels_z = mg_levels_z + 1
       ENDDO

       maximum_grid_level = MIN( mg_levels_x, mg_levels_y, mg_levels_z )
       config(n)%grid_levels = maximum_grid_level
       config(n)%nx_mg = config(n)%nxanz / 2**(maximum_grid_level-1) 
       config(n)%ny_mg = config(n)%nyanz / 2**(maximum_grid_level-1)
       config(n)%nz_mg = config(n)%nz    / 2**(maximum_grid_level-1)
    ENDDO

!
!-- Print the configurations computed above
    PRINT*, ' '
    PRINT*, ' '
    PRINT*, '*** print out results in ascending grid-ratio order (y/n)?'
    READ (*,*)  char
    IF ( char == 'y' )  THEN
       gridratio = 10000.0
       gridratio(1:count) = config(1:count)%grid_ratio
       WRITE ( *, * )  ' '
       WRITE ( *, * )  'Possible configurations found:'
       WRITE ( *, * )  'sorted in ascending grid-ratio order'
       WRITE ( *, 100 )
       DO
          ii = MINLOC( gridratio )
          i = ii(1)
          IF ( gridratio(i) /= 10000.0 )  THEN
             WRITE ( *, 101 ) &
                config(i)%grid_ratio, config(i)%numprocs, config(i)%pdims_1, &
                config(i)%pdims_2, config(i)%nx, config(i)%ny, config(i)%nz, &
                config(i)%nxanz, config(i)%nyanz, config(i)%grid_levels,     &
                config(i)%nx_mg, config(i)%ny_mg, config(i)%nz_mg
             gridratio(i) = 10000.0
          ELSE
             EXIT 
          ENDIF
       ENDDO
    ENDIF

    PRINT*, ' '
    PRINT*, ' '
    PRINT*, '*** print out results in descending PE order (y/n)?'
    READ (*,*)  char
    IF ( char == 'y' )  THEN
       numpr = 0
       numpr(1:count) = config(1:count)%numprocs
       WRITE ( *, * )  ' '
       WRITE ( *, * )  'Possible configurations found:'
       WRITE ( *, * )  'sorted after number of PEs'
       WRITE ( *, 100 )
       DO
          ii = MAXLOC( numpr )
          i = ii(1)
          IF ( numpr(i) /= 0 )  THEN
             WRITE ( *, 101 ) &
                config(i)%grid_ratio, config(i)%numprocs, config(i)%pdims_1, &
                config(i)%pdims_2, config(i)%nx, config(i)%ny, config(i)%nz, &
                config(i)%nxanz, config(i)%nyanz, config(i)%grid_levels,     &
                config(i)%nx_mg, config(i)%ny_mg, config(i)%nz_mg
             numpr(i) = 0
          ELSE
             EXIT 
          ENDIF
       ENDDO
    ENDIF

    PRINT*, ' '
    PRINT*, ' '
    PRINT*, '*** print out results in descending grid size order (y/n)?'
    READ (*,*)  char
    IF ( char == 'y' )  THEN
       numnx = 0
       DO  i = 1, count
          numnx(i) = config(i)%nx * config(i)%ny * config(i)%nz
       ENDDO
       WRITE ( *, * )  ' '
       WRITE ( *, * )  'Possible configurations found:'
       WRITE ( *, * )  'sorted after grid size'
       WRITE ( *, 100 )
       DO
          ii = MAXLOC( numnx )
          i = ii(1)
          IF ( numnx(i) /= 0 )  THEN
             WRITE ( *, 101 ) &
                config(i)%grid_ratio, config(i)%numprocs, config(i)%pdims_1, &
                config(i)%pdims_2, config(i)%nx, config(i)%ny, config(i)%nz, &
                config(i)%nxanz, config(i)%nyanz, config(i)%grid_levels,     &
                config(i)%nx_mg, config(i)%ny_mg, config(i)%nz_mg
             numnx(i) = 0
          ELSE
             EXIT 
          ENDIF
       ENDDO
    ENDIF

100 FORMAT('ratio  PEs   PE-grid      nx   ny   nz   subdomain  grid_levels  ', &
           'coarsest subd.')
101 FORMAT(F4.2,2X,I4,' (',I4,',',I4,')',2X,I4,1X,I4,1X,I4,'  (',I4,',',I4,')', &
           5X,I2,7X,'(',I3,',',I3,',',I3,')')

 END PROGRAM find_palm_config