--- /dev/null
+# Created by Octave 3.6.1, Sun Mar 25 17:34:24 2012 UTC <root@t61>
+# name: cache
+# type: cell
+# rows: 3
+# columns: 4
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 18
+tst_backward_euler
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 1396
+ -- Function File: [OUT,NITER] = tst_backward_euler(CIRSTRUCT,X,T,TOL,
+ MAXIT,PLTVARS,VERBOSITY,DAE_FUN)
+ Perform a transient simulation of the system described by
+ CIRSTRUCT over the time interval T using the backward Euler
+ algorithm.
+
+ The initial value for the state vector is computed by solving a
+ steady state problem at T(1), with starting guess X.
+
+ TOL and MAXIT are parameters passed to `nls_newton_raphson'.
+
+ The output OUT will contain the value of the state vector at each
+ point of T.
+
+ The optional parameter VERBOSITY controls the amount of output
+ produced:
+
+ - if verbosity(1) != 0, information on the progress of the
+ algorithm are output at runtime
+
+ - if verbosity(2) != 0, the plot of the variables whose names
+ are listed in PLTVARS is produced after the computation
+
+ For special purposes one may need to pass modified jacobian and
+ residual functions. This can be done via the cell array of function
+ handles DAE_FUN.
+
+ Such functions should have the same input and output parameter
+ list as the default sub-functions TSTBWEFUNJAC0,TSTBWEFUNRES0,
+ TSTBWEFUNJAC,TSTBWEFUNRES.
+
+ The optional output NITER returns the number of Newton iterations
+ needed to reach convergence.
+
+ See also: tst_daspk, tst_theta_method, tst_odepkg,
+ nls_newton_raphson
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Perform a transient simulation of the system described by CIRSTRUCT
+over the tim
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 9
+tst_daspk
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 1375
+ -- Function File: [OUT] = tst_daspk (CIRSTRUCT,X,T,TOL,MAXIT,
+ PLTVARS,VERBOSITY,DASKOPTS,DAE_FUN);
+ Perform a transient simulation of the system described by
+ CIRSTRUCT over the time interval T using `daspk'.
+
+ The initial value for the state vector is computed by solving a
+ steady state problem at T(1), with starting guess X.
+
+ TOL and MAXIT are parameters passed to `nls_newton_raphson'.
+
+ The output OUT will contain the value of the state vector at each
+ point of T.
+
+ Extra options for `daspk' can be passed as name/value pairs in the
+ cellarray DASKOPTS.
+
+ The optional parameter VERBOSITY controls the amount of output
+ produced:
+
+ - if verbosity(1) != 0, information on the progress of the
+ algorithm are output at runtime
+
+ - if verbosity(2) != 0, the plot of the variables whose names
+ are listed in PLTVARS is produced after the computation
+
+ For special purposes one may need to pass modified jacobian and
+ residual functions. This can be done via the cell array of function
+ handles DAE_FUN.
+
+ Such functions should have the same input and output parameter
+ list as the default sub-functions TSTBWEFUNJAC0,TSTBWEFUNRES0,
+ TSTBWEFUNJAC,TSTBWEFUNRES.
+
+ See also: tst_backward_euler, tst_odepkg, tst_theta_method,
+ nls_newton_raphson, daspk
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Perform a transient simulation of the system described by CIRSTRUCT
+over the tim
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 10
+tst_odepkg
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 1325
+ -- Function File: [OUT, [TOUT]] = tst_odepkg (CIRSTRUCT,X,T,TOL,MAXIT,
+ PLTVARS,SOLVER,ODESTRUCT,VERBOSITY);
+ Perform a transient simulation of the system described by
+ CIRSTRUCT over the time interval T using the `odepkg' DAE solver
+ specified in SOLVER.
+
+ Pssible values for SOLVER are `ode2r', `ode5r', `oders' or `odesx'.
+
+ The initial value for the state vector is computed by solving a
+ steady state problem at T(1), with starting guess X.
+
+ TOL and MAXIT are parameters passed to `nls_newton_raphson'.
+
+ If one output is requested OUT will contain the value of the state
+ vector at each point of T.
+
+ If two outputs are requested OUT will contain the value of the
+ state vector at each point of TOUT.
+
+ Extra options for options for the solver can be passed to the
+ solver via ODESTRUCT.
+
+ The optional parameter VERBOSITY controls the amount of output
+ produced:
+
+ - if verbosity(1) != 0, information on the progress of the
+ algorithm are output at runtime
+
+ - if verbosity(2) != 0, the plot of the variables whose names
+ are listed in PLTVARS is produced after the computation
+
+ See also: tst_backward_euler, tst_theta_method, tst_daspk,
+ nls_newton_raphson, odepkg, odeset, ode2r, ode5r, oders, odesx
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Perform a transient simulation of the system described by CIRSTRUCT
+over the tim
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 16
+tst_theta_method
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 1072
+ -- Function File: [OUT,NITER] = tst_theta_method (CIRSTRUCT,X,T,TOL,
+ MAXIT,THETA,PLTVARS, VERBOSITY);
+ Perform a transient simulation of the system described by
+ CIRSTRUCT over the time interval T using the theta-method with
+ parameter THETA.
+
+ The initial value for the state vector is computed by solving a
+ steady state problem at T(1), with starting guess X.
+
+ TOL and MAXIT are parameters passed to `nls_newton_raphson'.
+
+ The output OUT will contain the value of the state vector at each
+ point of T.
+
+ The optional parameter VERBOSITY controls the amount of output
+ produced:
+
+ - if verbosity(1) != 0, information on the progress of the
+ algorithm are output at runtime
+
+ - if verbosity(2) != 0, the plot of the variables whose names
+ are listed in PLTVARS is produced after the computation
+
+ The optional output NITER returns the number of Newton iterations
+ needed to reach convergence.
+
+ See also: tst_backward_euler, tst_daspk, tst_odepkg,
+ nls_newton_raphson
+
+
+
+
+
+# name: <cell-element>
+# type: sq_string
+# elements: 1
+# length: 80
+Perform a transient simulation of the system described by CIRSTRUCT
+over the tim
+
+
+
+
+