sico_init_m.F90 57.1 KB
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!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!
!  Module :  s i c o _ i n i t _ m
!
!> @file
!!
!! Initialisations for SICOPOLIS.
!!
!! @section Copyright
!!
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!! Copyright 2009-2022 Ralf Greve
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!!
!! @section License
!!
!! This file is part of SICOPOLIS.
!!
!! SICOPOLIS 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.
!!
!! SICOPOLIS 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 SICOPOLIS.  If not, see <http://www.gnu.org/licenses/>.
!<
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

!-------------------------------------------------------------------------------
!> Initialisations for SICOPOLIS.
!<------------------------------------------------------------------------------
module sico_init_m

  use sico_types_m
  use sico_variables_m
  use sico_vars_m
  use error_m

  implicit none

  public

contains

!-------------------------------------------------------------------------------
!> Main routine of sico_init_m: Initialisations for SICOPOLIS.
!<------------------------------------------------------------------------------
subroutine sico_init(delta_ts, glac_index, &
               mean_accum, &
               dtime, dtime_temp, dtime_wss, dtime_out, dtime_ser, &
               time, time_init, time_end, time_output, &
               dxi, deta, dzeta_c, dzeta_t, dzeta_r, &
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               z_mar, &
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               ndat2d, ndat3d, n_output)
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  use compare_float_m
  use ice_material_properties_m, only : ice_mat_eqs_pars
  use enth_temp_omega_m, only : calc_c_int_table, calc_c_int_inv_table, &
                                enth_fct_temp_omega

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  use read_m, only : read_2d_input, read_kei, read_phys_para
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  use boundary_m
  use init_temp_water_age_m
  use calc_enhance_m
  use flag_update_gf_gl_cf_m
  use calc_vxy_m
  use calc_vz_m
  use calc_dxyz_m
  use calc_temp_melt_bas_m

  use output_m

implicit none

integer(i4b),       intent(out) :: ndat2d, ndat3d
integer(i4b),       intent(out) :: n_output
real(dp),           intent(out) :: delta_ts, glac_index
real(dp),           intent(out) :: mean_accum
real(dp),           intent(out) :: dtime, dtime_temp, dtime_wss, &
                                   dtime_out, dtime_ser
real(dp),           intent(out) :: time, time_init, time_end, time_output(100)
real(dp),           intent(out) :: dxi, deta, dzeta_c, dzeta_t, dzeta_r
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real(dp),           intent(out) :: z_mar
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integer(i4b)       :: i, j, kc, kt, kr, m, n, ir, jr, n1, n2
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integer(i4b)       :: ios
integer(i4b)       :: ierr
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integer(i4b), dimension(0:JMAX,0:IMAX) :: mask_ref
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real(dp)           :: dtime0, dtime_temp0, dtime_wss0, dtime_out0, dtime_ser0
real(dp)           :: time_init0, time_end0
#if (OUTPUT==2 || OUTPUT==3)
real(dp)           :: time_output0(N_OUTPUT)
#endif
real(dp)           :: d_dummy
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character(len=256) :: anfdatname
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character(len=256) :: filename_with_path
character(len=256) :: shell_command
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character(len= 64) :: ch_var_name
character(len=  3) :: ch_month(12)
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character          :: ch_dummy
logical            :: flag_init_output, flag_3d_output

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real(dp), dimension(0:JMAX,0:IMAX) :: field2d_aux

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integer(i4b) :: n_slide_regions
#if (!defined(N_SLIDE_REGIONS) || N_SLIDE_REGIONS<=1)
integer(i4b) :: p_weert_aux(1)
integer(i4b) :: q_weert_aux(1)
real(dp) :: c_slide_aux(1)
real(dp) :: gamma_slide_aux(1)
#else
integer(i4b) :: p_weert_aux(N_SLIDE_REGIONS)
integer(i4b) :: q_weert_aux(N_SLIDE_REGIONS)
real(dp) :: c_slide_aux(N_SLIDE_REGIONS)
real(dp) :: gamma_slide_aux(N_SLIDE_REGIONS)
#endif

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character(len=64), parameter :: fmt1 = '(a)', &
                                fmt2 = '(a,i0)', &
                                fmt3 = '(a,es12.4)'
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write(unit=6, fmt='(a)') ' '
write(unit=6, fmt='(a)') ' -------- sico_init --------'
write(unit=6, fmt='(a)') ' '

!-------- Name of the computational domain --------

#if (defined(ANT))
ch_domain_long  = 'Antarctica'
ch_domain_short = 'ant'

#elif (defined(ASF))
ch_domain_long  = 'Austfonna'
ch_domain_short = 'asf'

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#elif (defined(EISMINT))
ch_domain_long  = 'EISMINT'
ch_domain_short = 'eismint'
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#elif (defined(GRL))
ch_domain_long  = 'Greenland'
ch_domain_short = 'grl'

#elif (defined(NHEM))
ch_domain_long  = 'Northern hemisphere'
ch_domain_short = 'nhem'

#elif (defined(SCAND))
ch_domain_long  = 'Scandinavia and Eurasia'
ch_domain_short = 'scand'

#elif (defined(TIBET))
ch_domain_long  = 'Tibet'
ch_domain_short = 'tibet'

#elif (defined(NMARS))
ch_domain_long  = 'North polar cap of Mars'
ch_domain_short = 'nmars'

#elif (defined(SMARS))
ch_domain_long  = 'South polar cap of Mars'
ch_domain_short = 'smars'

#elif (defined(XYZ))
ch_domain_long  = 'XYZ'
ch_domain_short = 'xyz'
#if (defined(HEINO))
ch_domain_long  = trim(ch_domain_long)//'/ISMIP HEINO'
#endif

#else

errormsg = ' >>> sico_init: No valid domain specified!'
call error(errormsg)

#endif

!-------- Some initial values --------

n_output = 0

dtime       = 0.0_dp
dtime_temp  = 0.0_dp
dtime_wss   = 0.0_dp
dtime_out   = 0.0_dp
dtime_ser   = 0.0_dp

time        = 0.0_dp
time_init   = 0.0_dp
time_end    = 0.0_dp
time_output = 0.0_dp

!-------- Initialisation of the Library of Iterative Solvers Lis,
!                                                     if required --------

#if (CALCTHK==3 || CALCTHK==6 || MARGIN==3 || DYNAMICS==2)
  call lis_initialize(ierr)
#endif

!-------- Read physical parameters --------

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#if (defined(YEAR_SEC))
year2sec = YEAR_SEC
#else
year2sec = 3.1556925445e+07_dp
              ! IUPAC-IUGS year for epoch 2000.0
              ! (Holden et al., 2011, PAC, doi:10.1351/PAC-REC-09-01-22)
#endif

sec2year = 1.0_dp/year2sec

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call read_phys_para()

call ice_mat_eqs_pars(RF, R_T, KAPPA, C, -190, 10)

!  ------ Some auxiliary quantities required for the enthalpy method

call calc_c_int_table(C, -190, 10, L)
call calc_c_int_inv_table()

!-------- Compatibility check of the SICOPOLIS version with the header file

if ( trim(VERSION) /= trim(SICO_VERSION) ) then
   errormsg = ' >>> sico_init: ' &
                 //'SICOPOLIS version not compatible with header file!'
   call error(errormsg)
end if

!-------- Check whether the dynamics and thermodynamics modes are defined

#if (!defined(DYNAMICS))
errormsg = ' >>> sico_init: DYNAMICS not defined in the header file!'
call error(errormsg)
#endif

#if (!defined(CALCMOD))
errormsg = ' >>> sico_init: CALCMOD not defined in the header file!'
call error(errormsg)
#endif

#if (defined(ENTHMOD))
errormsg = ' >>> sico_init: ENTHMOD must not be defined any more.' &
         //         end_of_line &
         //'        Please update your header file!'
call error(errormsg)
#endif

!-------- Compatibility check of the horizontal resolution with the
!         number of grid points --------

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#if (!defined(CHECK_RES_IMAX_JMAX) || CHECK_RES_IMAX_JMAX==1)

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#if (GRID==0 || GRID==1)

if (approx_equal(DX, 40.0_dp, eps_sp_dp)) then

   if ((IMAX /= 150).or.(JMAX /= 70)) then
      errormsg = ' >>> sico_init: IMAX and/or JMAX wrong!'
      call error(errormsg)
   end if

else if (approx_equal(DX, 20.0_dp, eps_sp_dp)) then

   if ((IMAX /= 300).or.(JMAX /= 140)) then
      errormsg = ' >>> sico_init: IMAX and/or JMAX wrong!'
      call error(errormsg)
   end if

else if (approx_equal(DX, 10.0_dp, eps_sp_dp)) then

   if ((IMAX /= 600).or.(JMAX /= 280)) then
      errormsg = ' >>> sico_init: IMAX and/or JMAX wrong!'
      call error(errormsg)
   end if

else

   errormsg = ' >>> sico_init: DX wrong!'
   call error(errormsg)

end if

#elif (GRID==2)

   errormsg = ' >>> sico_init: ' &
                 //'GRID==2 not allowed for the Scandinavia application!'
   call error(errormsg)

#endif

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#else /* CHECK_RES_IMAX_JMAX==0 */

write(6, fmt='(a)') ' >>> sico_init: CHECK_RES_IMAX_JMAX==0'
write(6, fmt='(a)') '      -> compatibility check between horizontal resolution'
write(6, fmt='(a)') '         and number of grid points not performed.'
write(6, fmt='(a)') ' '

#endif /* CHECK_RES_IMAX_JMAX */

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!-------- Compatibility check of the thermodynamics mode
!         (cold vs. polythermal vs. enthalpy method)
!         and the number of grid points in the lower (kt) ice domain --------

#if (CALCMOD==0 || CALCMOD==2 || CALCMOD==3 || CALCMOD==-1)

if (KTMAX > 2) then
   write(6, fmt='(a)') ' >>> sico_init: For options CALCMOD==0, 2, 3 or -1,'
   write(6, fmt='(a)') '                the separate kt domain is redundant.'
   write(6, fmt='(a)') '                Therefore, consider setting KTMAX to 2.'
   write(6, fmt='(a)') ' '
end if

#endif

!-------- Compatibility check of surface-temperature and precipitation
!         determination by interpolation between present and LGM values
!         with a glacial index --------

#if (TSURFACE == 5 && ACCSURFACE != 5)
errormsg = ' >>> sico_init: ' &
              //'Options TSURFACE==5 and ACCSURFACE==5 must be used together!'
call error(errormsg)
#endif

#if (TSURFACE != 5 && ACCSURFACE == 5)
errormsg = ' >>> sico_init: ' &
              //'Options TSURFACE==5 and ACCSURFACE==5 must be used together!'
call error(errormsg)
#endif

!-------- Compatibility check of discretization schemes for the horizontal and
!         vertical advection terms in the temperature and age equations --------

#if (ADV_HOR==1)
errormsg = ' >>> sico_init: ' &
              //'Option ADV_HOR==1 (central differences) not defined!'
call error(errormsg)
#endif

!-------- Check whether for the shallow shelf
!               or shelfy stream approximation
!                  the chosen grid is Cartesian coordinates
!                             without distortion correction (GRID==0) --------

#if ((MARGIN==3 && DYNAMICS==1) || DYNAMICS==2)   /* requires SSA or SStA */
#if (GRID != 0)
write(6, fmt='(a)') ' >>> sico_init: WARNING:'
write(6, fmt='(a)') '                Distortion correction for GRID.ne.0'
write(6, fmt='(a)') '                not yet implemented'
write(6, fmt='(a)') '                for the shallow shelf approximation (SSA)'
write(6, fmt='(a)') '                or the shelfy stream approximation (SStA).'
write(6, fmt='(a)') ' '
#endif
#endif

!-------- Setting of forcing flag --------

#if (TSURFACE <= 4)

forcing_flag = 1   ! forcing by delta_ts

#elif (TSURFACE == 5)

forcing_flag = 2   ! forcing by glac_index

#endif

!-------- Initialization of numerical time steps --------

dtime0      = DTIME0
dtime_temp0 = DTIME_TEMP0
#if (REBOUND==2)
dtime_wss0  = DTIME_WSS0
#endif

!-------- Further initializations --------

dzeta_c = 1.0_dp/real(KCMAX,dp)
dzeta_t = 1.0_dp/real(KTMAX,dp)
dzeta_r = 1.0_dp/real(KRMAX,dp)

ndat2d = 1
ndat3d = 1

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flag_calc_temp = .true.

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!-------- General abbreviations --------

!  ------ kc domain

if (DEFORM >= eps) then

   flag_aa_nonzero = .true.   ! non-equidistant grid

   aa = DEFORM
   ea = exp(aa)

   kc=0
   zeta_c(kc)         = 0.0_dp
   eaz_c(kc)          = 1.0_dp
   eaz_c_quotient(kc) = 0.0_dp

   do kc=1, KCMAX-1
      zeta_c(kc) = kc*dzeta_c
      eaz_c(kc)  = exp(aa*zeta_c(kc))
      eaz_c_quotient(kc) = (eaz_c(kc)-1.0_dp)/(ea-1.0_dp)
   end do

   kc=KCMAX
   zeta_c(kc)         = 1.0_dp
   eaz_c(kc)          = exp(aa)
   eaz_c_quotient(kc) = 1.0_dp

else

   flag_aa_nonzero = .false.   ! equidistant grid

   aa = 0.0_dp
   ea = 1.0_dp

   kc=0
   zeta_c(kc)         = 0.0_dp
   eaz_c(kc)          = 1.0_dp
   eaz_c_quotient(kc) = 0.0_dp

   do kc=1, KCMAX-1
      zeta_c(kc) = kc*dzeta_c
      eaz_c(kc)  = 1.0_dp
      eaz_c_quotient(kc) = zeta_c(kc)
   end do

   kc=KCMAX
   zeta_c(kc)         = 1.0_dp
   eaz_c(kc)          = 1.0_dp
   eaz_c_quotient(kc) = 1.0_dp

end if

!  ------ kt domain

kt=0
zeta_t(kt) = 0.0_dp

do kt=1, KTMAX-1
   zeta_t(kt) = kt*dzeta_t
end do

kt=KTMAX
zeta_t(kt) = 1.0_dp

!  ------ kr domain

kr=0
zeta_r(kr) = 0.0_dp

do kr=1, KRMAX-1
   zeta_r(kr) = kr*dzeta_r
end do

kr=KRMAX
zeta_r(kr) = 1.0_dp

!-------- Reshaping of a 2-d array (with indices i, j)
!                                  to a vector (with index n) --------

n=1

do i=0, IMAX
do j=0, JMAX
   n2i(n)    = i
   n2j(n)    = j
   ij2n(j,i) = n
   n=n+1
end do
end do

!-------- Specification of current simulation --------

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n1 = len('sico_specs_')+1
n2 = len(trim(RUN_SPECS_HEADER))-len('.h')
run_name = trim(RUN_SPECS_HEADER)
run_name = run_name(n1:n2)

anfdatname = trim(ANFDATNAME)
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#if (defined(YEAR_ZERO))
year_zero  = YEAR_ZERO
#else
year_zero  = 2000.0_dp   ! default value 2000 CE
#endif

time_init0 = TIME_INIT0
time_end0  = TIME_END0
dtime_ser0 = DTIME_SER0

#if (OUTPUT==1 || OUTPUT==3)
dtime_out0 = DTIME_OUT0
#endif

#if (OUTPUT==2 || OUTPUT==3)

#if (N_OUTPUT<=100)
n_output = N_OUTPUT
#else
errormsg = ' >>> sico_init: N_OUTPUT > 100 not allowed!'
call error(errormsg)
#endif

#if (defined(TIME_OUT0))

time_output0 = TIME_OUT0

#else   /* !defined(TIME_OUT0), legacy mode */

#if (N_OUTPUT>= 1)
time_output0( 1) = TIME_OUT0_01
#endif
#if (N_OUTPUT>= 2)
time_output0( 2) = TIME_OUT0_02
#endif
#if (N_OUTPUT>= 3)
time_output0( 3) = TIME_OUT0_03
#endif
#if (N_OUTPUT>= 4)
time_output0( 4) = TIME_OUT0_04
#endif
#if (N_OUTPUT>= 5)
time_output0( 5) = TIME_OUT0_05
#endif
#if (N_OUTPUT>= 6)
time_output0( 6) = TIME_OUT0_06
#endif
#if (N_OUTPUT>= 7)
time_output0( 7) = TIME_OUT0_07
#endif
#if (N_OUTPUT>= 8)
time_output0( 8) = TIME_OUT0_08
#endif
#if (N_OUTPUT>= 9)
time_output0( 9) = TIME_OUT0_09
#endif
#if (N_OUTPUT>=10)
time_output0(10) = TIME_OUT0_10
#endif
#if (N_OUTPUT>=11)
time_output0(11) = TIME_OUT0_11
#endif
#if (N_OUTPUT>=12)
time_output0(12) = TIME_OUT0_12
#endif
#if (N_OUTPUT>=13)
time_output0(13) = TIME_OUT0_13
#endif
#if (N_OUTPUT>=14)
time_output0(14) = TIME_OUT0_14
#endif
#if (N_OUTPUT>=15)
time_output0(15) = TIME_OUT0_15
#endif
#if (N_OUTPUT>=16)
time_output0(16) = TIME_OUT0_16
#endif
#if (N_OUTPUT>=17)
time_output0(17) = TIME_OUT0_17
#endif
#if (N_OUTPUT>=18)
time_output0(18) = TIME_OUT0_18
#endif
#if (N_OUTPUT>=19)
time_output0(19) = TIME_OUT0_19
#endif
#if (N_OUTPUT>=20)
time_output0(20) = TIME_OUT0_20
#endif

#endif

#endif

!-------- Write log file --------

shell_command = 'if [ ! -d'
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shell_command = trim(shell_command)//' '//OUT_PATH
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shell_command = trim(shell_command)//' '//'] ; then mkdir'
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shell_command = trim(shell_command)//' '//OUT_PATH
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shell_command = trim(shell_command)//' '//'; fi'
call system(trim(shell_command))
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     ! Check whether directory OUT_PATH exists. If not, it is created.
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filename_with_path = trim(OUT_PATH)//'/'//trim(run_name)//'.log'
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open(10, iostat=ios, file=trim(filename_with_path), status='new')

if (ios /= 0) then
   errormsg = ' >>> sico_init: Error when opening the log file!'
   call error(errormsg)
end if

write(10, fmt=trim(fmt1)) 'Computational domain:'
write(10, fmt=trim(fmt1)) trim(ch_domain_long)
write(10, fmt=trim(fmt1)) ' '

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write(10, fmt=trim(fmt2)) 'GRID = ', GRID
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write(10, fmt=trim(fmt1)) ' '

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write(10, fmt=trim(fmt2)) 'imax  = ', IMAX
write(10, fmt=trim(fmt2)) 'jmax  = ', JMAX
write(10, fmt=trim(fmt2)) 'kcmax = ', KCMAX
write(10, fmt=trim(fmt2)) 'ktmax = ', KTMAX
write(10, fmt=trim(fmt2)) 'krmax = ', KRMAX
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write(10, fmt=trim(fmt1)) ' '

write(10, fmt=trim(fmt3)) 'a =', aa
write(10, fmt=trim(fmt1)) ' '

#if (GRID==0 || GRID==1)
write(10, fmt=trim(fmt3)) 'x0      =', X0
write(10, fmt=trim(fmt3)) 'y0      =', Y0
write(10, fmt=trim(fmt3)) 'dx      =', DX
#elif (GRID==2)
errormsg = ' >>> sico_init: GRID==2 not allowed for this application!'
call error(errormsg)
#endif
write(10, fmt=trim(fmt1)) ' '

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#if (defined(CHECK_RES_IMAX_JMAX))
write(10, fmt=trim(fmt2)) 'CHECK_RES_IMAX_JMAX = ', CHECK_RES_IMAX_JMAX
write(10, fmt=trim(fmt1)) ' '
#endif

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write(10, fmt=trim(fmt3)) 'year_zero  =', year_zero
write(10, fmt=trim(fmt3)) 'time_init  =', time_init0
write(10, fmt=trim(fmt3)) 'time_end   =', time_end0
write(10, fmt=trim(fmt3)) 'dtime      =', dtime0
write(10, fmt=trim(fmt3)) 'dtime_temp =', dtime_temp0
#if (REBOUND==2)
write(10, fmt=trim(fmt3)) 'dtime_wss  =', dtime_wss0
#endif
write(10, fmt=trim(fmt1)) ' '

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write(10, fmt=trim(fmt2)) 'ANF_DAT = ', ANF_DAT
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write(10, fmt=trim(fmt1)) 'zs_present file   = '//ZS_PRESENT_FILE
#if (ANF_DAT==1)
#if (defined(ZB_PRESENT_FILE))
write(10, fmt=trim(fmt1)) 'zb_present file   = '//ZB_PRESENT_FILE
#endif
write(10, fmt=trim(fmt1)) 'zl_present file   = '//ZL_PRESENT_FILE
#endif
write(10, fmt=trim(fmt1)) 'zl0 file          = '//ZL0_FILE
write(10, fmt=trim(fmt1)) 'mask_present file = '//MASK_PRESENT_FILE
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#if (defined(MASK_REGION_FILE))
if ( trim(adjustl(MASK_REGION_FILE)) /= 'none' ) then
   write(10, fmt=trim(fmt1)) 'mask_region file = '//MASK_REGION_FILE
   write(10, fmt=trim(fmt1)) ' '
end if
#endif
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#if (ANF_DAT==1 && defined(TEMP_INIT))
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write(10, fmt=trim(fmt2)) 'TEMP_INIT = ', TEMP_INIT
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#endif
#if (ANF_DAT==3 || (ANF_DAT==1 && TEMP_INIT==5))
write(10, fmt=trim(fmt1)) 'Initial-value file = '//ANFDATNAME
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write(10, fmt=trim(fmt1)) 'Path to initial-value file = '//ANF_DAT_PATH
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#endif
write(10, fmt=trim(fmt1)) ' '

write(10, fmt=trim(fmt1)) 'Physical-parameter file = '//PHYS_PARA_FILE
write(10, fmt=trim(fmt1)) ' '

#if (defined(THK_EVOL))
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write(10, fmt=trim(fmt2)) 'THK_EVOL = ', THK_EVOL
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#else
errormsg = ' >>> sico_init: Define THK_EVOL in header file!'
call error(errormsg)
#endif
#if (defined(CALCTHK))
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write(10, fmt=trim(fmt2)) 'CALCTHK = ', CALCTHK
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#else
errormsg = ' >>> sico_init: Define CALCTHK in header file!'
call error(errormsg)
#endif
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#if (defined(OCEAN_CONNECTIVITY))
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write(10, fmt=trim(fmt2)) 'OCEAN_CONNECTIVITY = ', OCEAN_CONNECTIVITY
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#endif
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#if (defined(H_ISOL_MAX))
write(10, fmt=trim(fmt3)) 'H_isol_max =', H_ISOL_MAX
#endif

#if (CALCTHK==2 || CALCTHK==3 || CALCTHK==5 || CALCTHK==6)
write(10, fmt=trim(fmt3))  'ovi_weight   =', OVI_WEIGHT
#if (CALCTHK==2 || CALCTHK==5)
write(10, fmt=trim(fmt3))  'omega_sor    =', OMEGA_SOR
#if (ITER_MAX_SOR>0)
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write(10, fmt=trim(fmt2)) 'iter_max_sor = ', ITER_MAX_SOR
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#endif
#endif
#endif

write(10, fmt=trim(fmt1)) ' '

write(10, fmt=trim(fmt1)) 'temp_mm_present file = '//TEMP_MM_PRESENT_FILE
#if (TSURFACE==1)
write(10, fmt=trim(fmt3)) 'delta_ts0      =', DELTA_TS0
#elif (TSURFACE==3)
write(10, fmt=trim(fmt3)) 'sine_amplit    =', SINE_AMPLIT
write(10, fmt=trim(fmt3)) 'sine_period    =', SINE_PERIOD
#elif (TSURFACE==4)
write(10, fmt=trim(fmt1)) 'GRIP file      = '//GRIP_TEMP_FILE
write(10, fmt=trim(fmt3)) 'grip_temp_fact =', GRIP_TEMP_FACT
#elif (TSURFACE==5)
write(10, fmt=trim(fmt1)) 'Glacial-index file = '//GLAC_IND_FILE
write(10, fmt=trim(fmt1)) 'temp_mm_anom file  = '//TEMP_MM_ANOM_FILE
write(10, fmt=trim(fmt3)) 'temp_mm_anom fact  = ', TEMP_MM_ANOM_FACT
#endif

write(10, fmt=trim(fmt1)) 'precip_mm_present file = '//PRECIP_MM_PRESENT_FILE
#if (ACCSURFACE==1)
write(10, fmt=trim(fmt3)) 'accfact        =', ACCFACT
#elif (ACCSURFACE==2 || ACCSURFACE==3)
write(10, fmt=trim(fmt3)) 'gamma_s        =', GAMMA_S
#elif (ACCSURFACE==5)
write(10, fmt=trim(fmt1)) 'precip_mm_anom file    = '//PRECIP_MM_ANOM_FILE
write(10, fmt=trim(fmt3)) 'precip_mm_anom fact    = ', PRECIP_MM_ANOM_FACT
#endif
#if (ACCSURFACE <= 3)
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write(10, fmt=trim(fmt2)) 'ELEV_DESERT = ', ELEV_DESERT
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#if (ELEV_DESERT == 1)
write(10, fmt=trim(fmt3)) 'gamma_p     =', GAMMA_P
write(10, fmt=trim(fmt3)) 'zs_thresh   =', ZS_THRESH
#endif
#endif

#if (ABLSURFACE==3)
write(10, fmt=trim(fmt3)) 'lambda_lti     =', LAMBDA_LTI
write(10, fmt=trim(fmt3)) 'temp_lti       =', TEMP_LTI
#endif

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write(10, fmt=trim(fmt2)) 'SEA_LEVEL  = ', SEA_LEVEL
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#if (SEA_LEVEL==1)
write(10, fmt=trim(fmt3)) 'z_sl0          =', Z_SL0
#elif (SEA_LEVEL==3)
write(10, fmt=trim(fmt1)) 'sea-level file = '//SEA_LEVEL_FILE
#endif
write(10, fmt=trim(fmt1)) ' '

#if (MARGIN==2)
#if (MARINE_ICE_CALVING==2 || MARINE_ICE_CALVING==3)
write(10, fmt=trim(fmt3)) 'z_mar          =', Z_MAR
write(10, fmt=trim(fmt1)) ' '
#elif (MARINE_ICE_CALVING==4 || MARINE_ICE_CALVING==5 \
       || MARINE_ICE_CALVING==6 || MARINE_ICE_CALVING==7)
write(10, fmt=trim(fmt3)) 'fact_z_mar     =', FACT_Z_MAR
write(10, fmt=trim(fmt1)) ' '
#elif (MARINE_ICE_FORMATION==2 && MARINE_ICE_CALVING==9)
write(10, fmt=trim(fmt3)) 'calv_uw_coeff  =', CALV_UW_COEFF
write(10, fmt=trim(fmt3)) 'r1_calv_uw     =', R1_CALV_UW
write(10, fmt=trim(fmt3)) 'r2_calv_uw     =', R2_CALV_UW
write(10, fmt=trim(fmt1)) ' '
#endif
#elif (MARGIN==3)
#if (ICE_SHELF_CALVING==2)
write(10, fmt=trim(fmt3)) 'H_calv          =', H_CALV
write(10, fmt=trim(fmt1)) ' '
#endif
#endif

#if (defined(BASAL_HYDROLOGY))
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write(10, fmt=trim(fmt2)) 'BASAL_HYDROLOGY = ', BASAL_HYDROLOGY
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#if (BASAL_HYDROLOGY==1 && defined(MELT_DRAIN))
write(10, fmt=trim(fmt2)) 'MELT_DRAIN = ', MELT_DRAIN
#endif
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#endif

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write(10, fmt=trim(fmt2)) 'SLIDE_LAW = ', SLIDE_LAW
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#if (defined(N_SLIDE_REGIONS))
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write(10, fmt=trim(fmt2)) 'N_SLIDE_REGIONS = ', N_SLIDE_REGIONS
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#if (N_SLIDE_REGIONS>1)
write(10, fmt=trim(fmt1)) 'SLIDE_REGIONS_FILE = '//SLIDE_REGIONS_FILE
#endif
#endif

#if (!defined(N_SLIDE_REGIONS) || N_SLIDE_REGIONS<=1)
n_slide_regions = 1
#else
n_slide_regions = N_SLIDE_REGIONS
#endif

c_slide_aux = C_SLIDE
gamma_slide_aux = GAMMA_SLIDE
p_weert_aux = P_WEERT
q_weert_aux = Q_WEERT

write(10, fmt=trim(fmt3)) 'c_slide =', c_slide_aux(1)
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#if (N_SLIDE_REGIONS>1)
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do n=2, n_slide_regions
   write(10, fmt=trim(fmt3)) '         ', c_slide_aux(n)
end do
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#endif
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write(10, fmt=trim(fmt3)) 'gamma_slide =', gamma_slide_aux(1)
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#if (N_SLIDE_REGIONS>1)
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do n=2, n_slide_regions
   write(10, fmt=trim(fmt3)) '             ', gamma_slide_aux(n)
end do
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#endif
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write(10, fmt=trim(fmt2)) 'p_weert = ', p_weert_aux(1)
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#if (N_SLIDE_REGIONS>1)
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do n=2, n_slide_regions
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   write(10, fmt=trim(fmt2)) '          ', p_weert_aux(n)
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end do
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#endif
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write(10, fmt=trim(fmt2)) 'q_weert = ', q_weert_aux(1)
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#if (N_SLIDE_REGIONS>1)
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do n=2, n_slide_regions
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   write(10, fmt=trim(fmt2)) '          ', q_weert_aux(n)
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end do
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#endif
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#if (defined(TIME_RAMP_UP_SLIDE))
write(10, fmt=trim(fmt3)) 'time_ramp_up_slide =', TIME_RAMP_UP_SLIDE
#endif
#if (SLIDE_LAW==2 || SLIDE_LAW==3)
write(10, fmt=trim(fmt3)) 'red_pres_limit_fact =', RED_PRES_LIMIT_FACT
#endif
#if (BASAL_HYDROLOGY==1 \
       && defined(HYDRO_SLIDE_SAT_FCT) \
       && defined(C_HW_SLIDE) && defined(HW0_SLIDE))
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write(10, fmt=trim(fmt2)) 'HYDRO_SLIDE_SAT_FCT = ', HYDRO_SLIDE_SAT_FCT
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write(10, fmt=trim(fmt3)) 'c_Hw_slide  =', C_HW_SLIDE
write(10, fmt=trim(fmt3)) 'Hw0_slide   =', HW0_SLIDE
#endif
write(10, fmt=trim(fmt1)) ' '

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write(10, fmt=trim(fmt2)) 'Q_GEO_MOD = ', Q_GEO_MOD
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#if (Q_GEO_MOD==1)
write(10, fmt=trim(fmt3)) 'q_geo =', Q_GEO
#elif (Q_GEO_MOD==2)
write(10, fmt=trim(fmt1)) 'q_geo file = '//Q_GEO_FILE
#endif
write(10, fmt=trim(fmt1)) ' '

#if (defined(MARINE_ICE_BASAL_MELTING))
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write(10, fmt=trim(fmt2)) 'MARINE_ICE_BASAL_MELTING = ', MARINE_ICE_BASAL_MELTING
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#if (MARINE_ICE_BASAL_MELTING==2 || MARINE_ICE_BASAL_MELTING==3)
write(10, fmt=trim(fmt3)) 'qbm_marine               =', QBM_MARINE
#endif
write(10, fmt=trim(fmt1)) ' '
#endif

#if (MARGIN==3)
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write(10, fmt=trim(fmt2)) 'FLOATING_ICE_BASAL_MELTING = ', FLOATING_ICE_BASAL_MELTING
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#if (FLOATING_ICE_BASAL_MELTING==1)
write(10, fmt=trim(fmt3)) 'qbm_float_1 =', QBM_FLOAT_1
#endif
write(10, fmt=trim(fmt3)) 'qbm_float_3 =', QBM_FLOAT_3
write(10, fmt=trim(fmt3)) 'z_abyss =', Z_ABYSS
#if (FLOATING_ICE_BASAL_MELTING==4)
write(10, fmt=trim(fmt3)) 'temp_ocean =', TEMP_OCEAN
write(10, fmt=trim(fmt3)) 'Omega_qbm  =', OMEGA_QBM
write(10, fmt=trim(fmt3)) 'alpha_qbm  =', ALPHA_QBM
#endif
write(10, fmt=trim(fmt3)) 'H_w_0 =', H_W_0
write(10, fmt=trim(fmt1)) ' '
#endif

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write(10, fmt=trim(fmt2)) 'REBOUND       = ', REBOUND
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#if (REBOUND==1)
write(10, fmt=trim(fmt3)) 'frac_llra     =', FRAC_LLRA
#endif
#if (REBOUND==1 || REBOUND==2)
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write(10, fmt=trim(fmt2)) 'TIME_LAG_MOD  = ', TIME_LAG_MOD
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#if (TIME_LAG_MOD==1)
write(10, fmt=trim(fmt3)) 'time_lag      =', TIME_LAG
#elif (TIME_LAG_MOD==2)
write(10, fmt=trim(fmt1)) 'time_lag_file = '//TIME_LAG_FILE
#else
errormsg = ' >>> sico_init: TIME_LAG_MOD must be either 1 or 2!'
call error(errormsg)
#endif
#endif
#if (REBOUND==2)
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write(10, fmt=trim(fmt2)) 'FLEX_RIG_MOD  = ', FLEX_RIG_MOD
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#if (FLEX_RIG_MOD==1)
write(10, fmt=trim(fmt3)) 'flex_rig      =', FLEX_RIG
#elif (FLEX_RIG_MOD==2)
write(10, fmt=trim(fmt1)) 'flex_rig_file = '//FLEX_RIG_FILE
#else
errormsg = ' >>> sico_init: FLEX_RIG_MOD must be either 1 or 2!'
call error(errormsg)
#endif
#endif
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write(10, fmt=trim(fmt2)) 'Q_LITHO       = ', Q_LITHO
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write(10, fmt=trim(fmt1)) ' '

#if (FLOW_LAW==2)
write(10, fmt=trim(fmt3)) 'gr_size   =', GR_SIZE
write(10, fmt=trim(fmt1)) ' '
#endif
#if (FIN_VISC==2)
write(10, fmt=trim(fmt3)) 'sigma_res =', SIGMA_RES
write(10, fmt=trim(fmt1)) ' '
#endif

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write(10, fmt=trim(fmt2)) 'ENHMOD = ', ENHMOD
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#if (ENHMOD==1 || ENHMOD==2 || ENHMOD==3)
write(10, fmt=trim(fmt3)) 'enh_fact    =', ENH_FACT
#endif
#if (ENHMOD==2 || ENHMOD==3)
write(10, fmt=trim(fmt3)) 'enh_intg    =', ENH_INTG
#endif
#if (ENHMOD==2)
write(10, fmt=trim(fmt3)) 'age_trans   =', AGE_TRANS_0
#endif
#if (ENHMOD==3)
write(10, fmt=trim(fmt3)) 'date_trans1 =', DATE_TRANS1_0
write(10, fmt=trim(fmt3)) 'date_trans2 =', DATE_TRANS2_0
write(10, fmt=trim(fmt3)) 'date_trans3 =', DATE_TRANS3_0
#endif
#if (ENHMOD==4 || ENHMOD==5)
write(10, fmt=trim(fmt3)) 'enh_compr   =', ENH_COMPR
write(10, fmt=trim(fmt3)) 'enh_shear   =', ENH_SHEAR
#endif
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#if (DYNAMICS==2 && defined(ENH_STREAM))
if (ENH_STREAM >= 0.0_dp) &
   write(10, fmt=trim(fmt3)) 'enh_stream =', ENH_STREAM
#endif
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#if ((ENHMOD==1 || ENHMOD==2 || ENHMOD==3 || ENHMOD==4) && MARGIN==3)
write(10, fmt=trim(fmt3)) 'enh_shelf   =', ENH_SHELF
#endif
write(10, fmt=trim(fmt1)) ' '

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write(10, fmt=trim(fmt2)) 'DYNAMICS = ', DYNAMICS
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#if (DYNAMICS==2 && defined(HYB_MODE))
write(10, fmt=trim(fmt2)) 'HYB_MODE = ', HYB_MODE
#endif
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#if ((DYNAMICS==1 && MARGIN==3) || DYNAMICS==2)
#if (defined(LIS_OPTS))
write(10, fmt=trim(fmt1)) 'lis_opts = '//LIS_OPTS
#endif
#if (defined(TOL_ITER_SSA))
write(10, fmt=trim(fmt3)) 'tol_iter_ssa =', TOL_ITER_SSA
#endif
#if (defined(N_ITER_SSA))
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write(10, fmt=trim(fmt2)) 'n_iter_ssa = ', N_ITER_SSA
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#endif
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#if (defined(N_ITER_SSA_MIN))
write(10, fmt=trim(fmt2)) 'n_iter_ssa_min = ', N_ITER_SSA_MIN
#endif
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#if (defined(ITER_INIT_SSA))
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write(10, fmt=trim(fmt2)) 'iter_init_ssa = ', ITER_INIT_SSA
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#endif
#if (defined(VISC_INIT_SSA))
write(10, fmt=trim(fmt3)) 'visc_init_ssa =', VISC_INIT_SSA
#endif
#if (defined(N_VISC_SMOOTH))
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write(10, fmt=trim(fmt2)) 'n_visc_smooth = ', N_VISC_SMOOTH
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#endif
#if (defined(VISC_SMOOTH_DIFF))
write(10, fmt=trim(fmt3)) 'visc_smooth_diff =', VISC_SMOOTH_DIFF
#endif
#if (defined(RELAX_FACT_SSA))
write(10, fmt=trim(fmt3)) 'relax_fact_ssa =', RELAX_FACT_SSA
#endif
#endif
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#if (DYNAMICS==2 && HYB_MODE==0 && defined(RATIO_SL_THRESH))
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write(10, fmt=trim(fmt3)) 'ratio_sl_thresh =', RATIO_SL_THRESH
#endif
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#if (DYNAMICS==2 && HYB_MODE==0 && defined(SSTA_SIA_WEIGH_FCT))
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write(10, fmt=trim(fmt2)) 'SSTA_SIA_WEIGH_FCT = ', SSTA_SIA_WEIGH_FCT
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#endif
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#if (DYNAMICS==2 && HYB_MODE==1 && defined(HYB_REF_SPEED))
write(10, fmt=trim(fmt3)) 'hyb_ref_speed =', HYB_REF_SPEED
#endif
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write(10, fmt=trim(fmt1)) ' '

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write(10, fmt=trim(fmt2)) 'CALCMOD    = ', CALCMOD
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#if (CALCMOD==-1 && defined(TEMP_CONST))
write(10, fmt=trim(fmt3)) 'TEMP_CONST =', TEMP_CONST
#endif
#if (CALCMOD==-1 && defined(AGE_CONST))
write(10, fmt=trim(fmt3)) 'AGE_CONST  =', AGE_CONST
#endif
#if (CALCMOD==1 && defined(CTS_MELTING_FREEZING))
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write(10, fmt=trim(fmt2)) 'CTS_MELTING_FREEZING = ', CTS_MELTING_FREEZING
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#endif
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write(10, fmt=trim(fmt2)) 'FLOW_LAW   = ', FLOW_LAW
write(10, fmt=trim(fmt2)) 'FIN_VISC   = ', FIN_VISC
write(10, fmt=trim(fmt2)) 'MARGIN     = ', MARGIN
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#if (MARGIN==2)
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write(10, fmt=trim(fmt2)) 'MARINE_ICE_FORMATION = ', MARINE_ICE_FORMATION
write(10, fmt=trim(fmt2)) 'MARINE_ICE_CALVING   = ', MARINE_ICE_CALVING
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#elif (MARGIN==3)
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write(10, fmt=trim(fmt2)) 'ICE_SHELF_CALVING = ', ICE_SHELF_CALVING
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#endif
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