User guide: revert to mode_compute=4 in example (closes #121)
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@ -225,7 +225,7 @@ end;}\\
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We add the following commands to ask Dynare to run a basic estimation of our model:\\
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\\
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\texttt{estimation(datafile=fsdat,nobs=192,loglinear,mh\_replic=2000,\\
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mode\_compute=6,mh\_nblocks=2,mh\_drop=0.45,mh\_jscale=0.65);}\\
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mode\_compute=4,mh\_nblocks=2,mh\_drop=0.45,mh\_jscale=0.65);}\\
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\textsf{\textbf{NOTE!}} As mentioned earlier, we need to instruct Dynare to log-linearize our model, since it contains non-linear equations in non-stationary variables. A simple linearization would fail as these variables do not have a steady state. Fortunately, taking the log of the equations involving non-stationary variables does the job of linearizing them.\\
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@ -298,7 +298,7 @@ stderr e\_m, inv\_gamma\_pdf, 0.008862, inf;\\
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end;\\
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\\
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estimation(datafile=fsdat,nobs=192,loglinear,mh\_replic=2000,\\
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mode\_compute=6,mh\_nblocks=2,mh\_drop=0.45,mh\_jscale=0.65);}\\
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mode\_compute=4,mh\_nblocks=2,mh\_drop=0.45,mh\_jscale=0.65);}\\
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\\
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\subsection{Summing it up}
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@ -139,7 +139,7 @@ Finally, coming back to our example, we could choose a standard option:\\
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\\
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\texttt{estimation(datafile=simuldataRBC,nobs=200,first\_obs=500,\\
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mh\_replic=2000,mh\_nblocks=2,mh\_drop=0.45,mh\_jscale=0.8,\\
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mode\_compute=6); }\\
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mode\_compute=4); }\\
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This ends our description of the .mod file.
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@ -189,7 +189,7 @@ end;\\
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\\
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estimation(datafile=simuldataRBC,nobs=200,first\_obs=500,\\
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mh\_replic=2000,mh\_nblocks=2,mh\_drop=0.45,mh\_jscale=0.8,\\
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mode\_compute=6); }
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mode\_compute=4); }
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\\
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@ -36,4 +36,4 @@ epsilon, gamma_pdf, 10, 0.003;
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stderr e, inv_gamma_pdf, 0.01, inf;
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end;
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estimation(datafile=simuldataRBC,nobs=200,first_obs=500,mh_replic=2000,mh_nblocks=2,mh_drop=0.45,mh_jscale=0.8,mode_compute=6);
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estimation(datafile=simuldataRBC,nobs=200,first_obs=500,mh_replic=2000,mh_nblocks=2,mh_drop=0.45,mh_jscale=0.8,mode_compute=4);
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@ -82,4 +82,4 @@ stderr e_m, inv_gamma_pdf, 0.008862, inf;
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end;
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estimation(datafile=fsdat,nobs=192,loglinear,mh_replic=2000,
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mode_compute=6,mh_nblocks=2,mh_drop=0.45,mh_jscale=0.65);
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mode_compute=4,mh_nblocks=2,mh_drop=0.45,mh_jscale=0.65);
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