Cosmetic change.
parent
535fa1a721
commit
b43ef94e7b
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@ -1,20 +1,28 @@
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var Efficiency $A$
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EfficiencyGrowth $X$
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Population $L$
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PopulationGrowth $N$
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Output $Y$
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PhysicalCapitalStock $K$ ;
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var Efficiency // $A$
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EfficiencyGrowth // $X$
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Population // $L$
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PopulationGrowth // $N$
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Output // $Y$
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PhysicalCapitalStock ; // $K$
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varexo e_x $\varepsilon_x$
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e_n $\varepsilon_n$;
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varexo e_x // $\varepsilon_x$
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e_n ; // $\varepsilon_n$
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parameters alpha $\alpha$
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delta $\delta$
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s $s$
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rho_x $\rho_x$
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rho_n $\rho_n$
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EfficiencyGrowth_ss $X^{\star}$
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PopulationGrowth_ss $N^{\star}$ ;
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parameters alpha // $\alpha$
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delta // $\delta$
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s // $s$
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rho_x // $\rho_x$
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rho_n // $\rho_n$
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EfficiencyGrowth_ss // $X^{\star}$
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PopulationGrowth_ss ; // $N^{\star}$
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alpha = .33;
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delta = .02;
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s = .20;
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rho_x = .90;
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rho_n = .95;
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EfficiencyGrowth_ss = 1.00; // Do not change this calibration
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PopulationGrowth_ss = 1.00; // Do not change this calibration
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alpha = .33;
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delta = .02;
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@ -1,20 +1,20 @@
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var Efficiency $A$
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EfficiencyGrowth $X$
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Population $L$
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PopulationGrowth $N$
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Output $Y$
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PhysicalCapitalStock $K$ ;
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var Efficiency // $A$
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EfficiencyGrowth // $X$
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Population // $L$
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PopulationGrowth // $N$
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Output // $Y$
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PhysicalCapitalStock ; // $K$
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varexo e_x $\varepsilon_x$
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e_n $\varepsilon_n$;
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varexo e_x // $\varepsilon_x$
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e_n ; // $\varepsilon_n$
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parameters alpha $\alpha$
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delta $\delta$
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s $s$
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rho_x $\rho_x$
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rho_n $\rho_n$
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EfficiencyGrowth_ss $X^{\star}$
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PopulationGrowth_ss $N^{\star}$ ;
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parameters alpha // $\alpha$
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delta // $\delta$
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s // $s$
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rho_x // $\rho_x$
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rho_n // $\rho_n$
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EfficiencyGrowth_ss // $X^{\star}$
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PopulationGrowth_ss ; // $N^{\star}$
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alpha = .33;
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delta = .02;
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@ -1,21 +1,21 @@
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var Efficiency $A$
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EfficiencyGrowth $X$
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Population $L$
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PopulationGrowth $N$
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Output $Y$
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PhysicalCapitalStock $K$ ;
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var Efficiency // $A$
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EfficiencyGrowth // $X$
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Population // $L$
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PopulationGrowth // $N$
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Output // $Y$
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PhysicalCapitalStock ; // $K$
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varexo e_x $\varepsilon_x$
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e_n $\varepsilon_n$;
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varexo e_x // $\varepsilon_x$
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e_n ; // $\varepsilon_n$
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parameters alpha $\alpha$
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epsilon $\varepsilon$
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delta $\delta$
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s $s$
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rho_x $\rho_x$
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rho_n $\rho_n$
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EfficiencyGrowth_ss $X^{\star}$
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PopulationGrowth_ss $N^{\star}$ ;
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parameters alpha // $\alpha$
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epsilon // $\varepsilon$
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delta // $\delta$
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s // $s$
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rho_x // $\rho_x$
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rho_n // $\rho_n$
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EfficiencyGrowth_ss // $X^{\star}$
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PopulationGrowth_ss ; // $N^{\star}$
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alpha = .33;
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epsilon = .70;
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