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Solution 62992

Submitted on 19 Mar 2012

Incorrect

348Size
Leading solution size is 106.
This solution is locked. To view this solution, you need to provide a solution of the same size or smaller.

Test Suite

Test
Code Input and Output
1
Fail
 
%%
% Rosenbrock's banana function
F=@(x) 100*(x(2)-x(1).^2).^2 + (1-x(1)).^2;
gradF=@(x) [100*(4*x(1).^3-4*x(1).*x(2))+2*x(1)-2; 100*(2*x(2)-2*x(1).^2)];
x0 = [-1.9; 2.0];
x1=[
   -1.4478
    2.1184];
x2=[
    1.7064
    2.9446];
f1=6.0419;
f2=0.6068;
[xmin,fmin]=ConjGrad(F,gradF,x0,0.01,1) % single steepest descent
assert(norm(xmin-x1)<0.2||norm(xmin-x2)<0.2)
assert( abs(fmin-f1)<0.5|| abs(fmin-f2)<0.5) % 2 local min
Error: Inputs must be a scalar and a square matrix.
To compute elementwise POWER, use POWER (.^) instead.
2
Fail
 
%%
% Rosenbrock's banana function
F=@(x) 100*(x(2)-x(1).^2).^2 + (1-x(1)).^2;
gradF=@(x) [100*(4*x(1).^3-4*x(1).*x(2))+2*x(1)-2; 100*(2*x(2)-2*x(1).^2)];
x0 = [0; 0];
xcorrect=[
    0.2926
    0.0505];
fcorrect=0.6238;
[xmin,fmin]=ConjGrad(F,gradF,x0,1e-2,2) % two iterations
assert(norm(xmin-xcorrect)<0.1)
assert( abs(fmin-fcorrect)<0.01)
Error: Inputs must be a scalar and a square matrix.
To compute elementwise POWER, use POWER (.^) instead.
3
Fail
 
%%
% Rosenbrock's banana function
F=@(x) 100*(x(2)-x(1).^2).^2 + (1-x(1)).^2;
gradF=@(x) [100*(4*x(1).^3-4*x(1).*x(2))+2*x(1)-2; 100*(2*x(2)-2*x(1).^2)];
x0 = [1.1;0.9];
xcorrect = [1;1];
fcorrect = 0;
[xmin,fmin]=ConjGrad(F,gradF,x0) % default 20 iterations
assert(norm(xmin-xcorrect)<0.1)
assert(abs(fmin-fcorrect)<0.01);
Error: Inputs must be a scalar and a square matrix.
To compute elementwise POWER, use POWER (.^) instead.
4
Fail
 
%%
% Rosenbrock's banana function
F=@(x) 100*(x(2)-x(1).^2).^2 + (1-x(1)).^2;
gradF=@(x) [100*(4*x(1).^3-4*x(1).*x(2))+2*x(1)-2; 100*(2*x(2)-2*x(1).^2)];
x0 = [0; 0];
xcorrect = [1;1];
fcorrect = 0;
[xmin,fmin]=ConjGrad(F,gradF,x0,0.01,100) % Convergence before 100 iterations
assert(norm(xmin-xcorrect)<0.1)
assert(abs(fmin-fcorrect)<0.01);
Error: Inputs must be a scalar and a square matrix.
To compute elementwise POWER, use POWER (.^) instead.
5
Fail
 
%%
% Rosenbrock's banana function
F=@(x) 100*(x(2)-x(1).^2).^2 + (1-x(1)).^2;
gradF=@(x) [100*(4*x(1).^3-4*x(1).*x(2))+2*x(1)-2; 100*(2*x(2)-2*x(1).^2)];
x0 = [-1.9; 2];
xcorrect = [1;1];
fcorrect = 0;
[xmin,fmin]=ConjGrad(F,gradF,x0,1e-3,200)
assert(isequal(round(xmin),xcorrect))
assert(isequal(round(fmin),fcorrect))
Error: Inputs must be a scalar and a square matrix.
To compute elementwise POWER, use POWER (.^) instead.