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Implementation of the Analysis step for the SEIK filter
Contents
Overview
For the analysis step of the SEIK filter different operations related to the observations are needed. These operations are requested by PDAF by calling user-supplied routines. Intentionally, the operations are split into separate routines in order to keep the operations rather elementary. This procedure should simplify the implementation. The names of the required routines are specified in the call to the routine PDAF_put_state_seik that was discussed before. With regard to the parallelization, all these routines are executed by the filter processes (filterpe=1) only.
The user-supplied routines for the SEIK filter are
U_init_dim_obs: The name of the user-supplied routine that provides the size of observation vectorU_obs_op: The name of the user-supplied routine that acts as the observation operator on some state vectorU_init_obs: The name of the user-supplied routine that initializes the vector of observationsU_prodRinvA: The name of the user-supplied routine that computes the product of the inverse of the observation error covariance matrix with some matrix provided to the routine by PDAF. This operation occurs during the analysis step of the SEIK filter.U_init_obsvar: The name of the user-supplied routine that provides a mean observation error variance to PDAF (This routine will only be executed, if an adaptive forgetting factor is used)
Below the names of the corresponding routines in the template directory are provided in parentheses. The the routines in the example implementation have the same name but include '_dummy_D' in the name.
U_init_dim_obs (init_dim_obs.F90)
This routine is used by all global filter algorithms (SEEK, SEIK, EnKF, ETKF).
The interface for this routine is:
SUBROUTINE init_dim_obs(step, dim_obs_p) INTEGER, INTENT(in) :: step ! Current time step INTEGER, INTENT(out) :: dim_obs_p ! Dimension of observation vector
The routine is called at the beginning of each analysis step. It has to initialize the size dim_obs_p of the observation vector according to the current time step. Without parallelization dim_obs_p will be the size for the full model domain. When a domain-decomposed model is used, dim_obs_p will be the size of the observation vector for the sub-domain of the calling process.
Some hints:
- It can be useful if not only the size of the observation vector is determined at this point. One can also already gather information about the location of the observations, which will be used later, e.g. to implement the observation operator. An array for the locations can be defined in a module like
mod_assimilation.
U_obs_op (obs_op.F90)
This routine is used by all global filter algorithms (SEEK, SEIK, EnKF, ETKF).
The interface for this routine is:
SUBROUTINE obs_op(step, dim_p, dim_obs_p, state_p, m_state_p) INTEGER, INTENT(in) :: step ! Currrent time step INTEGER, INTENT(in) :: dim_p ! PE-local dimension of state INTEGER, INTENT(in) :: dim_obs_p ! Dimension of observed state REAL, INTENT(in) :: state_p(dim_p) ! PE-local model state REAL, INTENT(out) :: m_state_p(dim_obs_p) ! PE-local observed state
The routine is called during the analysis step. It has to perform the operation of the observation operator acting on a state vector that is provided as state_p. The observed state has to be returned in m_state_p.
For a model using domain decomposition, the operation is on the PE-local sub-domain of the model and has to provide the observed sub-state for the PE-local domain.
Hint:
- If the observation operator involves a global operation, e.g. some global integration, while using domain-decompostion one has to gather the information from the other model domains using MPI communication.
U_init_obs (init_obs.F90)
This routine is used by all global filter algorithms (SEEK, SEIK, EnKF, ETKF).
The interface for this routine is:
SUBROUTINE init_obs(step, dim_obs_p, observation_p) INTEGER, INTENT(in) :: step ! Current time step INTEGER, INTENT(in) :: dim_obs_p ! PE-local dimension of obs. vector REAL, INTENT(out) :: observation_p(dim_obs_p) ! PE-local observation vector
The routine is called during the analysis step.
It has to provide the vector of observations in observation_p for the current time step.
For a model using domain decomposition, the vector of observations that exist on the model sub-domain for the calling process has to be initialized.
U_prodRinvA (prodrinva.F90)
SUBROUTINE prodRinvA(step, dim_obs_p, rank, obs_p, A_p, C_p) INTEGER, INTENT(in) :: step ! Current time step INTEGER, INTENT(in) :: dim_obs_p ! PE-local dimension of obs. vector INTEGER, INTENT(in) :: rank ! Rank of initial covariance matrix REAL, INTENT(in) :: obs_p(dim_obs_p) ! PE-local vector of observations REAL, INTENT(in) :: A_p(dim_obs_p,rank) ! Input matrix from analysis routine REAL, INTENT(out) :: C_p(dim_obs_p,rank) ! Output matrix
! The routine is called during the analysis step. ! It has to compute the product of the inverse of ! the observation error covariance matrix with ! the matrix of observed EOF modes (SEEK) or ! observed ensemble perturbations (SEIK/ETKF).
U_init_obsvar (init_obsvar.F90)
SUBROUTINE init_obsvar(step, dim_obs_p, obs_p, meanvar) INTEGER, INTENT(in) :: step ! Current time step INTEGER, INTENT(in) :: dim_obs_p ! PE-local dimension of observation vector REAL, INTENT(in) :: obs_p(dim_obs_p) ! PE-local observation vector REAL, INTENT(out) :: meanvar ! Mean observation error variance
! User-supplied routine for PDAF (SEIK/LSEIK/ETKF/LETKF) ! with adaptive forgetting factor. This routine will ! only be called, if the adaptive forgetting factor ! feature is used. Please note that this is an ! experimental feature. ! ! The routine is called in SEIK during the analysis or ! in LSEIK before the loop over local analysis domains ! by the routine PDAF\_set\_forget that estimates an ! adaptive forgetting factor. The routine has to ! initialize the mean observation error variance. ! For SEIK this should be the global mean, while for ! LSEIK it should be the mean for the PE-local ! sub-domain. (See init\_obsvar\_local() for a ! localized variant for LSEIK.)
