| Index Entry | | Section |
|
$ | | |
| ‘$dimetaphi’ | | 2.3.1 Setup a model and compile with cmz |
| ‘$zinit’ | | 2.3.1 Setup a model and compile with cmz |
|
A | | |
| adjoint | | 4.2.1 Overview of optimisation with Miniker |
| ‘aspha.data’ | | 2.3.3 Running a simulation and using the output |
| ‘aspha.data’, GTLS | | 4.6.3 Generalized tangent linear system analysis run and output |
| ‘aspha.data’, SVD | | 4.5.3 Singular Value Decomposition run and output |
|
B | | |
| Borel sweep | | 4.4 Feedback gain |
| Borel sweep graphics | | 4.4.2 Borel sweep results |
| Borel sweep results | | 4.4.2 Borel sweep results |
|
C | | |
| cells | | Introduction |
| cernlib | | A.2 Common requisites |
| command law | | 4.2.2 Control laws |
| compilation | | 2.3.2 Setup a model and compile with make |
| configuration of source | | A.4.2 Configuration |
| controlling the run | | 2.4 Controlling the run |
|
D | | |
| ‘data.data’ | | 3.8.2 Data |
| ‘data.data’ | | 4.3.2.2 Kalman filter results |
| dimetaphi | | 3.9.1 The explicit size sequence |
| ‘dimetaphi’ | | 3.9.1 The explicit size sequence |
| ‘dimetaphi’, Kalman filter | | 4.3.1.1 Kalman filter vectors dimensions |
| down node | | 3.3 Describing 1D gridded model |
| ‘dres.data’ | | 2.3.3 Running a simulation and using the output |
| ‘dres.data’ | | Footnotes |
| ‘dres.data’, GTLS | | 4.6.3 Generalized tangent linear system analysis run and output |
|
E | | |
| equations, grid | | Grid node equations |
| error vector dimension | | 4.3.1.1 Kalman filter vectors dimensions |
|
F | | |
| FDL, GNU Free Documentation License | | C.1 GNU Free Documentation License |
| feature setting | | 3.1 Overview of additional features setting |
| Feedback gain | | 4.4 Feedback gain |
| ffl (linearity test) | | 2.4.1 Executing code at the end of each time step |
| final cost | | 4.2.1 Overview of optimisation with Miniker |
|
G | | |
| Generalized linear tangent system | | 4.6 Generalized linear tangent system analysis |
| ‘gradpj.data’ | | 4.2.4 Sensitivity of cost function to parameters |
| graphics | | 2.3.4 Doing graphics |
| graphics with gnuplot | | 2.3.4 Doing graphics |
| graphics with PAW | | 2.3.4 Doing graphics |
| graphics, Borel sweep | | 4.4.2 Borel sweep results |
| GTLS | | 4.6 Generalized linear tangent system analysis |
| GTLS output | | 4.6.3 Generalized tangent linear system analysis run and output |
| GTLS run | | 4.6.3 Generalized tangent linear system analysis run and output |
|
H | | |
| Heaviside function | | 3.6 Rule of programming non continuous models |
|
I | | |
| initial variance-covariance on states | | Initial variance-covariance matrix on the state |
| installation with make | | A.4.3 Installation with make |
| integrand cost | | 4.2.1 Overview of optimisation with Miniker |
|
K | | |
| Kalman filter | | 4.3 Kalman filter |
| Kalman filter output | | 4.3.2.2 Kalman filter results |
| Kalman filter results | | 4.3.2.2 Kalman filter results |
|
L | | |
| lapack | | A.2 Common requisites |
| limiting conditions | | Limiting conditions |
| linearity test | | 2.4.1 Executing code at the end of each time step |
| logical flags | | 3.1 Overview of additional features setting |
| Lyapunov exponents | | 4.6 Generalized linear tangent system analysis |
|
M | | |
| ‘Makefile.miniker’ | | 5.1 Make variables |
| ‘Makefile.sltc’ | | 4.5.2 Singular Value Decomposition with make |
| ‘Makefile.sltcirc’ | | 4.6.2 Generalized tangent linear system with make |
| ‘mini_ker.cmz’ | | A.3 Miniker with cmz |
| mod | | 2.3.1 Setup a model and compile with cmz |
| model equations | | 3.9.2 Entering the model equations, with explicit sizes |
| model size | | 3.9.1 The explicit size sequence |
| ‘Model.hlp’ | | 2.3.3 Running a simulation and using the output |
| mortran | | Introduction |
| mortran | | 2.2.1 All you need to know about mortran and cmz directives |
| mortran , with make | | A.4.1 Additional requirements for Miniker with make |
|
O | | |
| ‘obs.data’ | | 3.8.1 Observations |
| observation function | | 3.8.1 Observations |
| observations | | 4.3.1.2 Error and observation matrices |
| observations, general | | 4.3 Kalman filter |
| optimisation | | 4.2.1 Overview of optimisation with Miniker |
| output file | | 2.3.3 Running a simulation and using the output |
| output, GTLS | | 4.6.3 Generalized tangent linear system analysis run and output |
| output, Kalman filter | | 4.3.2.2 Kalman filter results |
| output, sensitivity | | 4.1 Automatic sensitivity computation |
| output, SVD | | 4.5.3 Singular Value Decomposition run and output |
|
P | | |
| printing | | 2.4.2 Controlling the printout and data output |
| Programming environments | | A.1 Programming environments |
| propagator | | 4.6 Generalized linear tangent system analysis |
|
R | | |
| requirements, with make | | A.4.1 Additional requirements for Miniker with make |
| ‘res.data’ | | 2.3.3 Running a simulation and using the output |
| results, Borel sweep | | 4.4.2 Borel sweep results |
| results, Kalman filter | | 4.3.2.2 Kalman filter results |
| run, GTLS | | 4.6.3 Generalized tangent linear system analysis run and output |
| run, SVD | | 4.5.3 Singular Value Decomposition run and output |
| running model | | 2.3.3 Running a simulation and using the output |
|
S | | |
| select flag | | 3.1 Overview of additional features setting |
| ‘selseq.kumac’ | | 3.1 Overview of additional features setting |
| ‘selseq.kumac’ | | A.3 Miniker with cmz |
| ‘sens.data’ | | 4.1 Automatic sensitivity computation |
| sensitivities | | 4.1 Automatic sensitivity computation |
| sensitivity, output | | 4.1 Automatic sensitivity computation |
| sequence | | 2.1 General structure of the code |
| sequences | | 2 Miniker model programming |
| ‘sigma.data’ | | 4.1 Automatic sensitivity computation |
| Singular Value Decomposition | | 4.5 Stability analysis of fastest modes |
| ‘sltc.exe’ | | 4.5 Stability analysis of fastest modes |
| ‘sltc.exe’ | | 4.5.3 Singular Value Decomposition run and output |
| ‘sltcirc.exe’ | | 4.6 Generalized linear tangent system analysis |
| ‘sltcirc.exe’ | | 4.6.3 Generalized tangent linear system analysis run and output |
| smod | | 4.5.1 Singular Value Decomposition with cmz |
| smod | | 4.6.1 Generalized tangent linear system with cmz |
| starting point | | Starting points |
| state matrix | | 4.5 Stability analysis of fastest modes |
| SVD | | 4.5 Stability analysis of fastest modes |
| SVD output | | 4.5.3 Singular Value Decomposition run and output |
| SVD run | | 4.5.3 Singular Value Decomposition run and output |
|