var Capital, Output, Labour, Consumption, Efficiency, efficiency, ExpectedTerm; varexo EfficiencyInnovation; parameters beta, theta, tau, alpha, psi, delta, rho, effstar, sigma2; beta = 0.9900; theta = 0.3570; tau = 2.0000; alpha = 0.4500; psi = -0.1000; delta = 0.0200; rho = 0.8000; effstar = 1.0000; sigma2 = 0; model(block,bytecode,cutoff=0); // Eq. n°1: efficiency = rho*efficiency(-1) + EfficiencyInnovation; // Eq. n°2: Efficiency = effstar*exp(efficiency); // Eq. n°3: Output = Efficiency*(alpha*(Capital(-1)^psi)+(1-alpha)*(Labour^psi))^(1/psi); // Eq. n°4: Capital = Output-Consumption + (1-delta)*Capital(-1); // Eq. n°5: ((1-theta)/theta)*(Consumption/(1-Labour)) - (1-alpha)*(Output/Labour)^(1-psi); // Eq. n°6: (((Consumption^theta)*((1-Labour)^(1-theta)))^(1-tau))/Consumption = ExpectedTerm(1); // Eq. n°7: ExpectedTerm = beta*((((Consumption^theta)*((1-Labour)^(1-theta)))^(1-tau))/Consumption)*(alpha*((Output/Capital(-1))^(1-psi))+(1-delta)); end; steady_state_model; efficiency = EfficiencyInnovation/(1-rho); Efficiency = effstar*exp(efficiency); Output_per_unit_of_Capital=((1/beta-1+delta)/alpha)^(1/(1-psi)); Consumption_per_unit_of_Capital=Output_per_unit_of_Capital-delta; Labour_per_unit_of_Capital=(((Output_per_unit_of_Capital/Efficiency)^psi-alpha)/(1-alpha))^(1/psi); Output_per_unit_of_Labour=Output_per_unit_of_Capital/Labour_per_unit_of_Capital; Consumption_per_unit_of_Labour=Consumption_per_unit_of_Capital/Labour_per_unit_of_Capital; % Compute steady state share of capital. ShareOfCapital=alpha/(alpha+(1-alpha)*Labour_per_unit_of_Capital^psi); % Compute steady state of the endogenous variables. Labour=1/(1+Consumption_per_unit_of_Labour/((1-alpha)*theta/(1-theta)*Output_per_unit_of_Labour^(1-psi))); Consumption=Consumption_per_unit_of_Labour*Labour; Capital=Labour/Labour_per_unit_of_Capital; Output=Output_per_unit_of_Capital*Capital; ExpectedTerm=beta*((((Consumption^theta)*((1-Labour)^(1-theta)))^(1-tau))/Consumption) *(alpha*((Output/Capital)^(1-psi))+1-delta); end; initval; EfficiencyInnovation = 0; end; steady; endval; EfficiencyInnovation = (1-rho)*log(1.05); end; steady; simul(periods=300); rplot Consumption; rplot Capital;