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- Optimization and Simulation
- Optimization simplex
- optimsimplex_center
- optimsimplex_check
- optimsimplex_compsomefv
- optimsimplex_computefv
- optimsimplex_deltafv
- optimsimplex_deltafvmax
- optimsimplex_destroy
- optimsimplex_dirmat
- optimsimplex_fvmean
- optimsimplex_fvstdev
- optimsimplex_fvvariance
- optimsimplex_getall
- optimsimplex_getallfv
- optimsimplex_getallx
- optimsimplex_getfv
- optimsimplex_getn
- optimsimplex_getnbve
- optimsimplex_getve
- optimsimplex_getx
- optimsimplex_gradientfv
- optimsimplex_new
- overview
- optimsimplex_reflect
- optimsimplex_setall
- optimsimplex_setallfv
- optimsimplex_setallx
- optimsimplex_setfv
- optimsimplex_setn
- optimsimplex_setnbve
- optimsimplex_setve
- optimsimplex_setx
- optimsimplex_shrink
- optimsimplex_size
- optimsimplex_sort
- optimsimplex_xbar
Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
See the recommended documentation of this function
optimsimplex_size
Computes the size.
Calling Sequence
ssize = optimsimplex_size(opt, [method])
Argument
- opt
The current simplex object of TSIMPLEX type (tlist).
- method
The method to use to compute the size (optional).
The available methods are the following:
"sigmaplus". This is the default.
The sigmaplus size is the maximum 2-norm length of the vector from each vertex to the first vertex. It requires one loop over the vertices.
"sigmaminus".
The sigmaminus size is the minimum 2-norm length of the vector from each vertex to the first vertex. It requires on loop over the vertices.
"Nash".
The Nash size is the sum of the norm of the norm-1 length of the vector form the given vertex to the first vertex. It requires one loop over the vertices.
"diameter".
The diameter size is the maximum norm-2 length of all the edges of the simplex. It requires 2 nested loops over the vertices.
- ssize
A scalar.
Description
The optimsimplex_size
function returns the size of the simplex.
Example
function y=rosenbrock(x) y = 100*(x(2)-x(1)^2)^2 + (1-x(1))^2; endfunction simplex = [... 0. 0. 1. 0. 0. 2. ]; s1 = optimsimplex_new(); s1 = optimsimplex_setn ( s1 , 2 ); s1 = optimsimplex_setnbve ( s1 , 3 ); s1 = optimsimplex_setallx ( s1 , simplex ); // Method = "Nash" ssize = optimsimplex_size ( s1 , "Nash" ); disp(ssize) // Method = "diameter" ssize = optimsimplex_size ( s1 , "diameter" ); disp(ssize) // Method = "sigmaplus" ssize = optimsimplex_size ( s1 , "sigmaplus" ); disp(ssize) // Method = "sigmaminus" ssize = optimsimplex_size ( s1 , "sigmaminus" ); disp(ssize) s1 = optimsimplex_destroy(s1);
See Also
- optimsimplex_new — Creates a new simplex object.
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