| Index Entry | | Section |
|
A | | |
| aspha | | 2.4.1 Executing code at the end of each time step |
|
B | | |
| Bb | | 2.4.1 Executing code at the end of each time step |
| Bt | | 2.4.1 Executing code at the end of each time step |
|
C | | |
| couplage(.) | | 2.4.1 Executing code at the end of each time step |
| cout_l | | 4.2.3 Cost function coding and adjoint modeling |
| cout_Psi | | 4.2.3 Cost function coding and adjoint modeling |
| covana(.,.) | | 4.3.3 Executing code after the analysis |
| coveta(.,.) | | Error variance-covariance matrices |
| covfor(.,.) | | Initial variance-covariance matrix on the state |
| covobs(.,.) | | Error variance-covariance matrices |
|
D | | |
| D | | 2.4.1 Executing code at the end of each time step |
| dEta(.) | | 2.3.3 Running a simulation and using the output |
| deta_tef(.) | | 3.9.2 Entering the model equations, with explicit sizes |
| dneta | | 2.4.1 Executing code at the end of each time step |
| dphi | | 2.4.1 Executing code at the end of each time step |
| dt | | 2.2.2 Entering model equation and parameters |
| dt | | Footnotes |
| d_pi_aspha(.,.) | | 4.1.2 Advance matrix sensitivity |
|
E | | |
| eqn: | | Model equations |
| eta(.) | | The cell and transfer arrays |
| eta(.), explicit sizes | | 3.9.2 Entering the model equations, with explicit sizes |
| etafor(.) | | 4.3.3 Executing code after the analysis |
|
F | | |
| ff(.) | | The cell and transfer arrays |
| ff(.), explicit sizes | | 3.9.2 Entering the model equations, with explicit sizes |
| ffl(.) | | 2.4.1 Executing code at the end of each time step |
| Free_parameter | | 3.7 Parameters |
| fun: | | Model equations |
| f_set | | 3.9.2 Entering the model equations, with explicit sizes |
| f_set | | 3.9.2 Entering the model equations, with explicit sizes |
| f_set | | 4.2.3 Cost function coding and adjoint modeling |
| f_set | | 4.2.3 Cost function coding and adjoint modeling |
|
H | | |
| H | | 2.4.1 Executing code at the end of each time step |
|
I | | |
| index_ff_gain | | 4.4.1 Specifying the Borel sweep |
| innobs(.) | | 4.3.3 Executing code after the analysis |
| istep | | 2.4.1 Executing code at the end of each time step |
| istep_B_deb | | 4.4.1 Specifying the Borel sweep |
| istep_B_fin | | 4.4.1 Specifying the Borel sweep |
| istep_B_inc | | 4.4.1 Specifying the Borel sweep |
| itau_max | | 4.4.1 Specifying the Borel sweep |
|
K | | |
| kgain(.) | | 4.3.3 Executing code after the analysis |
|
M | | |
| maxstep | | 3.9.1 The explicit size sequence |
| mereta(.,.) | | Observations and error on state matrix |
| mobs | | 3.8.1 Observations |
| model_file_name | | 2.3.2 Setup a model and compile with make |
| modzprint | | 2.2.2 Entering model equation and parameters |
| modzprint | | 2.4.2 Controlling the printout and data output |
| mp | | The cell and transfer arrays |
| mp | | 3.9.1 The explicit size sequence |
| m_dwn | | 3.3.1 Setting dimensions for 1D gridded model |
| m_mult | | 3.3.1 Setting dimensions for 1D gridded model |
| m_node | | 3.3.1 Setting dimensions for 1D gridded model |
| m_up | | 3.3.1 Setting dimensions for 1D gridded model |
|
N | | |
| np | | The cell and transfer arrays |
| np | | 3.9.1 The explicit size sequence |
| nstep | | 2.2.2 Entering model equation and parameters |
| n_dwn | | 3.3.1 Setting dimensions for 1D gridded model |
| n_mult | | 3.3.1 Setting dimensions for 1D gridded model |
| n_node | | 3.3.1 Setting dimensions for 1D gridded model |
| n_up | | 3.3.1 Setting dimensions for 1D gridded model |
|
O | | |
| obspha(.,.) | | 4.3.3 Executing code after the analysis |
|
P | | |
| Phi_tef(.) | | 3.9.2 Entering the model equations, with explicit sizes |
| principal | | 3.2.2 Calling the model subroutine |
|
S | | |
| set_dwn_eta | | Limiting conditions |
| set_dwn_phi | | Limiting conditions |
| set_eta | | Model equations |
| set_node_eta | | Grid node equations |
| set_node_Phi | | Grid node equations |
| set_Phi | | Model equations |
| set_up_eta | | Limiting conditions |
| set_up_phi | | Limiting conditions |
|
T | | |
| tau_B_ini | | 4.4.1 Specifying the Borel sweep |
| tau_B_mult | | 4.4.1 Specifying the Borel sweep |
| time | | 2.2.2 Entering model equation and parameters |
|
V | | |
| var: | | Model equations |
| vobs(.) | | 3.8.2 Data |
| vobs(.) | | 4.3.2.1 Feeding the observations to the model |
|
Z | | |
| zback | | 4.2.3 Cost function coding and adjoint modeling |
| ZBorel | | 4.4.1 Specifying the Borel sweep |
| zborel for | | 4.4.1 Specifying the Borel sweep |
| zcommand | | 4.2.2 Control laws |
| zgetobs | | 3.8.2 Data |
| zgetobs | | 4.3.2.1 Feeding the observations to the model |
| zkalman | | 4.3.1 Coding the Kalman filter |
| zlaw | | 4.2.2 Control laws |
| zprint | | 2.4.2 Controlling the printout and data output |
|