function [ys_, params, info] = sgu_steadystate2(ys_, exo_, params)
% Steady state generated by Dynare preprocessor
    info = 0;
    ys_(8)=0.5;
    ys_(15)=1;
    ys_(7)=params(20)/params(22);
    ys_(13)=1/ys_(7);
    ys_(12)=1;
    ys_(19)=ys_(13)*params(30)*params(6);
    ys_(4)=sqrt(params(13)/params(12)+1/params(12)*(params(30)-1)/params(30));
    lv=params(12)*ys_(4)+params(13)/2-2*sqrt(params(13)*params(12));
    epsilon_mhR=(-0.125)*1/(params(30)*(params(30)+params(30)*params(13)-1));
    ys_(24)=((1-params(15)*ys_(19)^((params(14)-1)*(1-params(16))))/(1-params(15)))^(1/(1-params(14)));
    ys_(26)=(1-params(15))*ys_(24)^(-1)/(1-params(15)*ys_(19)^(params(14)*(1-params(16))));
    params(31)=((1-params(10)*(ys_(7)*ys_(19))^((params(11)-1)*(1-params(9))))/(1-params(10)))^(1/(1-params(9)));
    ys_(27)=(1-params(10))*params(31)^(-params(9))/(1-params(10)*(ys_(7)*ys_(19))^(params(9)*(1-params(11))));
    ys_(18)=ys_(8)/ys_(27);
    upsilontilde=sqrt(params(13)+1-params(30)^(-1));
    ys_(23)=(params(14)-1)*ys_(24)*(1-ys_(19)^(params(14)*(1-params(16)))*ys_(7)*ys_(13)*params(6)*params(15))/(params(14)*(1-ys_(7)*ys_(13)*params(6)*params(15)*ys_(19)^((1-params(14))*(params(16)-1))));
    ys_(14)=ys_(13)*params(22)/params(6)-(1-params(1));
    params(8)=params(7)*params(8)/params(7);
    params(7)=ys_(14)-params(8)*(ys_(15)-1);
    ys_(1)=ys_(18)*params(20)/ys_(15)*(ys_(14)/ys_(23)*params(17))^(1/(params(17)-1));
    params(13)=(1+(epsilon_mhR*params(30)*(-8))^(-1)-params(30))/params(30);
    ys_(10)=ys_(23)*(1-params(17))*(ys_(15)*ys_(1)/params(20))^params(17)*ys_(18)^(-params(17))*(1+params(19)*(params(30)-1)/params(30));
    ys_(3)=ys_(1)*(1-(1-params(1))/params(20));
    ys_(21)=ys_(1)*ys_(15)*ys_(14)/params(20)+ys_(18)*ys_(10)*(1+(1-params(30)^(-1))*params(19));
    ys_(28)=(ys_(1)*ys_(15)*params(20)^(-1))^params(17)*ys_(18)^(1-params(17))-ys_(26)*ys_(21);
    ys_(5)=(params(23)+ys_(3)+ys_(1)*params(20)^(-1)*(params(7)*(ys_(15)-1)+params(8)/2*(ys_(15)-1)^2)-ys_(21))/(1+lv);
    ys_(6)=ys_(5)/ys_(4);
    S_mh=ys_(6)/(ys_(6)+ys_(18)*params(19)*ys_(10));
    S_m=(ys_(6)+ys_(18)*params(19)*ys_(10))/ys_(21);
    params(19)=S_m*(1-S_mh)/(1-params(17)-S_m*(1-S_mh)*(1-1/params(30)));
    params(12)=(upsilontilde/((-(upsilontilde^2))-params(13)+2*upsilontilde*sqrt(params(13))+(1-params(23)/ys_(21)-ys_(3)/ys_(21))/(S_mh*S_m)))^2;
    % Auxiliary equations
    check_=0;
end