! Copyright (c) 2004-2024 Lars Nerger ! ! This file is part of PDAF. ! ! PDAF is free software: you can redistribute it and/or modify ! it under the terms of the GNU Lesser General Public License ! as published by the Free Software Foundation, either version ! 3 of the License, or (at your option) any later version. ! ! PDAF 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 Lesser General Public License for more details. ! ! You should have received a copy of the GNU Lesser General Public ! License along with PDAF. If not, see <http://www.gnu.org/licenses/>. ! !$Id$ !BOP ! ! !ROUTINE: PDAF_3dvar_update --- Control analysis update of 3DVAR ! ! !INTERFACE: SUBROUTINE PDAF_3dvar_update(step, dim_p, dim_obs_p, dim_ens, & dim_cvec, state_p, Uinv, ens_p, state_inc_p, & U_init_dim_obs, U_obs_op, U_init_obs, U_prodRinvA, U_prepoststep, & U_cvt, U_cvt_adj, U_obs_op_lin, U_obs_op_adj, & screen, subtype, incremental, type_opt, flag) ! !DESCRIPTION: ! Routine to control the analysis update of the 3DVAR. ! ! The analysis is performend PDAF_3dvar_analysis_cvt. ! In addition, the routine U\_prepoststep is called prior ! to the analysis and after the resampling to allow the user ! to access the ensemble information. ! ! ! This is a core routine of PDAF and ! should not be changed by the user ! ! ! !REVISION HISTORY: ! 2021-03 - Lars Nerger - Initial code ! Later revisions - see svn log ! ! !USES: USE PDAF_timer, & ONLY: PDAF_timeit, PDAF_time_temp USE PDAF_mod_filtermpi, & ONLY: mype, dim_ens_l USE PDAF_mod_filter, & ONLY: debug IMPLICIT NONE ! !ARGUMENTS: INTEGER, INTENT(in) :: step ! Current time step INTEGER, INTENT(in) :: dim_p ! PE-local dimension of model state INTEGER, INTENT(out) :: dim_obs_p ! PE-local dimension of observation vector INTEGER, INTENT(in) :: dim_ens ! Size of ensemble INTEGER, INTENT(in) :: dim_cvec ! Size of control vector (parameterized part) REAL, INTENT(inout) :: state_p(dim_p) ! PE-local model state REAL, INTENT(inout) :: Uinv(1, 1) ! Not used in 3D-Var REAL, INTENT(inout) :: ens_p(dim_p, dim_ens) ! PE-local ensemble matrix REAL, INTENT(inout) :: state_inc_p(dim_p) ! PE-local state analysis increment INTEGER, INTENT(in) :: screen ! Verbosity flag INTEGER, INTENT(in) :: subtype ! Filter subtype INTEGER, INTENT(in) :: incremental ! Control incremental updating INTEGER, INTENT(in) :: type_opt ! Type of minimizer for 3DVar INTEGER, INTENT(inout) :: flag ! Status flag ! ! External subroutines ! ! (PDAF-internal names, real names are defined in the call to PDAF) EXTERNAL :: U_init_dim_obs, & ! Initialize dimension of observation vector U_obs_op, & ! Observation operator U_init_obs, & ! Initialize observation vector U_prepoststep, & ! User supplied pre/poststep routine U_prodRinvA, & ! Provide product R^-1 A for 3DVAR analysis U_cvt, & ! Apply control vector transform matrix U_cvt_adj, & ! Apply adjoint control vector transform matrix U_obs_op_lin, & ! Linearized observation operator U_obs_op_adj ! Adjoint observation operator ! !CALLING SEQUENCE: ! Called by: PDAF_put_state_3dvar ! Calls: U_prepoststep ! Calls: PDAF_3dvar_analysis ! Calls: PDAF_timeit ! Calls: PDAF_time_temp !EOP ! *** local variables *** INTEGER :: i, j ! Counters INTEGER :: minusStep ! Time step counter ! *********************************************************** ! *** For fixed error space basis compute ensemble states *** ! *********************************************************** IF (debug>0) & WRITE (*,*) '++ PDAF-debug: ', debug, 'PDAF_3dvar_update -- START' CALL PDAF_timeit(51, 'new') fixed_basis: IF (subtype == 2 .OR. subtype == 3) THEN ! *** Add mean/central state to ensemble members *** DO j = 1, dim_ens DO i = 1, dim_p ens_p(i, j) = ens_p(i, j) + state_p(i) END DO END DO END IF fixed_basis IF (debug>0) & WRITE (*,*) '++ PDAF-debug PDAF_3dvar_update:', debug, & ' forecast state (1:min(dim_p,6)):', ens_p(1:min(dim_p,6),1) CALL PDAF_timeit(51, 'old') ! ********************** ! *** Update phase *** ! ********************** ! *** Prestep for forecast ensemble *** CALL PDAF_timeit(5, 'new') minusStep = -step ! Indicate forecast by negative time step number IF (mype == 0 .AND. screen > 0) THEN WRITE (*, '(a, 5x, a, i7)') 'PDAF', 'Call pre-post routine after forecast; step ', step ENDIF CALL U_prepoststep(minusStep, dim_p, dim_ens, dim_ens_l, dim_obs_p, & state_p, Uinv, ens_p, flag) CALL PDAF_timeit(5, 'old') IF (mype == 0 .AND. screen > 0) THEN IF (screen > 1) THEN WRITE (*, '(a, 5x, a, F10.3, 1x, a)') & 'PDAF', '--- duration of prestep:', PDAF_time_temp(5), 's' END IF WRITE (*, '(a, 55a)') 'PDAF Analysis ', ('-', i = 1, 55) END IF #ifndef PDAF_NO_UPDATE IF (debug>0) THEN WRITE (*,*) '++ PDAF-debug PDAF_3dvar_update', debug, & 'Configuration: param_int(3) solver ', type_opt WRITE (*,*) '++ PDAF-debug PDAF_3dvar_update', debug, & 'Configuration: param_int(4) dim_cvec ', dim_cvec WRITE (*,*) '++ PDAF-debug PDAF_3dvar_update', debug, & 'Configuration: param_int(5) -not used-' END IF CALL PDAF_timeit(3, 'new') IF (mype == 0 .AND. screen > 0) THEN WRITE (*, '(a, 1x, i7, 3x, a)') & 'PDAF', step, 'Assimilating observations - 3DVAR incremental, transformed' END IF ! Initialize state_p from ensemble array state_p(:) = ens_p(:, 1) ! *** 3DVAR analysis *** CALL PDAF_3dvar_analysis_cvt(step, dim_p, dim_obs_p, dim_cvec, & state_p, state_inc_p, & U_init_dim_obs, U_obs_op, U_init_obs, U_prodRinvA, & U_cvt, U_cvt_adj, U_obs_op_lin, U_obs_op_adj, & screen, incremental, type_opt, flag) IF (debug>0) THEN WRITE (*,*) '++ PDAF-debug PDAF_3dvar_update:', debug, & ' analysis state (1:min(dim_p,6)):', state_p(1:min(dim_p,6)) END IF ! Initialize ens_p for intregration with PDAF ens_p(:, 1) = state_p(:) CALL PDAF_timeit(3, 'old') IF (mype == 0 .AND. screen > 1) THEN WRITE (*, '(a, 5x, a, F10.3, 1x, a)') & 'PDAF', '--- update duration:', PDAF_time_temp(3), 's' END IF #else WRITE (*,'(/5x,a/)') & '!!! PDAF WARNING: ANALYSIS STEP IS DEACTIVATED BY PDAF_NO_UPDATE !!!' #endif ! *** Poststep for analysis ensemble *** CALL PDAF_timeit(5, 'new') IF (mype == 0 .AND. screen > 0) THEN WRITE (*, '(a, 5x, a)') 'PDAF', 'Call pre-post routine after analysis step' ENDIF CALL U_prepoststep(step, dim_p, dim_ens, dim_ens_l, dim_obs_p, & state_p, Uinv, ens_p, flag) CALL PDAF_timeit(5, 'old') IF (mype == 0 .AND. screen > 0) THEN IF (screen > 1) THEN WRITE (*, '(a, 5x, a, F10.3, 1x, a)') & 'PDAF', '--- duration of poststep:', PDAF_time_temp(5), 's' END IF WRITE (*, '(a, 55a)') 'PDAF Forecast ', ('-', i = 1, 55) END IF IF (debug>0) & WRITE (*,*) '++ PDAF-debug: ', debug, 'PDAF_3dvar_update -- END' END SUBROUTINE PDAF_3dvar_update