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Variables, macros and functions index

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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: 2.3.3 Running a simulation and using the output
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

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