function [ys,check] = exmp_steadystate(ys,exe)

%% Load model parameters
global M_
NumberOfParameters = M_.param_nbr;                            % Number of deep parameters.
for i = 1:NumberOfParameters                                  % Loop...
  paramname = deblank(M_.param_names(i,:));                   %    Get the name of parameter i. 
  eval([ paramname ' = M_.params(' int2str(i) ');']);         %    Get the value of parameter i.
end         
check = 0;
%%

h = 0.33;
k = h*( (1/betta -1+delta)/alp )^(1/(alp-1));
y = (k^alp)*(h^(1-alp));
c = y - delta*k;
a=1;

%% DO NOT CHANGE THIS PART.
%%
%% Store model parameters
NumberOfParameters = M_.param_nbr;                            % Number of deep parameters.
for i = 1:NumberOfParameters                                  % Loop...
  paramname = deblank(M_.param_names(i,:));                   %    Get the name of parameter i. 
  eval(['M_.params(' int2str(i) ') = ' paramname ';']);       %    Get the value of parameter i.
end   


%% Here we define the steady state values of the endogenous variables of
%% the model.
%%
NumberOfEndogenousVariables = M_.endo_nbr;                    % Number of endogenous variables.
ys = zeros(NumberOfEndogenousVariables,1);                    % Initialization of ys (steady state).
for i = 1:NumberOfEndogenousVariables                         % Loop...
  varname = deblank(M_.endo_names(i,:));                      %    Get the name of endogenous variable i.                     
  eval(['ys(' int2str(i) ') = ' varname ';']);                %    Get the steady state vZNue of this variable.
end                                                           % End of the loop.
%%