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calibase.mlf
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calibase.mlf
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*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
* Copyright (C) 2000-2023 Energy Technology Systems Analysis Programme (ETSAP)
* This file is part of the IEA-ETSAP TIMES model generator, licensed
* under the GNU General Public License v3.0 (see file NOTICE-GPLv3.txt).
*=============================================================================*
* Calibase.MLF is the wrapper for calibrating the MACRO MLF
* %1 - mod or v# for the source code to be used
*=============================================================================*
TM_YCHECK(R) = TM_IVETOL(R);
TM_IVETOL(R) = MAX(1,TM_IVETOL(R));
* Abort execution if execute errors
ABORT$EXECERROR '*** ERRORS IN EXECUTION ***'
MODEL MCE / EQ_UTIL, EQ_PROD_Y, EQ_AKL, EQ_LABOR, EQ_KNCAP, EQ_MCAP, EQ_TMC, EQ_DD, EQ_IVECBND, EQ_ESCOST, EQ_TRDBAL /;
OPTION SOLPRINT=OFF,SOLVELINK=1;
OPTION SOLVEOPT=MERGE,BRATIO=0.25;
MCE.MODELSTAT=0; MCE.SOLVESTAT=0; MCE.OPTFILE=1;
MCE.LIMROW=0; MCE.LIMCOL=0;
SET LOOPS / NWT, DDF, GDP /;
PARAMETER GDPLOSS(REG,tp) 'GDP losses in percent';
PARAMETER MSA_ERR(NITER,LOOPS,REG);
PARAMETER TM_TOL(ITEM) / CAL 1E-5, MST 1E-7, DEM 0, EQUIL 1 /;
SCALAR ERRDEM / 0 /, ERRGDP / 0 /, DOITER/ 1 /;
*------------------------------------------------------------------------------
TM_GDP(MR,T) = TM_GDPGOAL(MR,T);
PAR_Y(MR,T) = TM_GDPGOAL(MR,T);
TM_GROWV(R,T) = TM_GR(R,T);
PAR_GRGDP(R,T) = TM_GR(R,T);
PAR_MC(R,T,DM)$TM_DEM(R,T,DM) = TM_DMC(R,T,DM);
MREG(MR) = YES;
TM_NWT(MR) = 1;
TM_HDF(MR,T) = 1;
VAR_NTX.FX(MR,PP)=0;
OPTION DECIMALS=5;
DOITER=1$CARD(MR);
LOOP(NITER$DOITER,
$ INCLUDE ddfupd.msa
IF(ORD(NITER)<5,
LOOP(MREG, MR(R)= NO; MR(R(MREG))=YES;
SOLVE MCE MAXIMIZING VAR_UTIL USING NLP); MR(R(MREG))=YES;
ELSE SOLVE MCE MAXIMIZING VAR_UTIL USING NLP);
TM_GDP(R,T) = VAR_C.L(R,T) + VAR_INV.L(R,T);
PAR_GRGDP(MR(R),TP(T-1)) = 100 * ((TM_GDP(R,T)/TM_GDP(R,TP))**(1/NYPER(TP))-1);
PAR_Y(R,T) = VAR_C.L(R,T) + VAR_INV.L(R,T) + VAR_EC.L(R,T) + VAR_NTX.L(R,T)$(NOT TB(T));
PAR_MC(MR(R),PP(T),DM(C)) = MAX(ABS(VAR_SP.M(R,T,C)*TM_SCALE_NRG),ABS(EQ_DD.M(R,T,C))) / MAX(EQ_ESCOST.M(R,T),-VAR_EC.M(R,T)) / TM_SCALE_CST;
MSA_ERR(NITER,'DDF',MR(R)) = SMAX((T,DM(C)),ABS(TM_DEM(R,T,C)-VAR_DEM.L(R,T,C))/TM_DEM(R,T,C));
MSA_ERR(NITER,'GDP',MR(R)) = SMAX(T,ABS(TM_GDPGOAL(R,T)-TM_GDP(R,T))/TM_GDPGOAL(R,T));
ERRDEM = SMAX(MR, MSA_ERR(NITER,'DDF',MR));
ERRGDP = SMAX(MR, MSA_ERR(NITER,'GDP',MR));
IF(MAX(ERRDEM,ERRGDP) < TM_TOL('CAL')*ORD(NITER), DOITER=0);
);
DISPLAY MSA_ERR;
TM_TOL('DEM') = ERRDEM/300;
TM_TOL('GDP') = ERRGDP/300;
* Prepare for Negishi iterations, relax trades
VAR_NTX.UP(MR,PP) = INF;
VAR_NTX.LO(MR,PP) =-INF;
OPTION CLEAR=MSA_ERR;
* Calculate initial Negishi weights based on regional GDP
TM_NWT(MR(R)) = SUM(TP, TM_GDPGOAL(R,TP)*TM_DFACT(R,TP));
Z = SUM(MR(R),TM_NWT(R));
TM_NWT(MR(R)) = TM_NWT(R) / Z;
DOITER=1$CARD(MR);
LOOP(NITER$DOITER,
OPTION BRATIO=0.25,SOLVEOPT=REPLACE;
SOLVE MCE MAXIMIZING VAR_UTIL USING NLP;
*-- Calculate Macro parameters
TM_UDF(R,T)=TM_HDF(R,T); TM_HDF(R,T)=COEF_PVT(R,T);
LOOP(PP(T-1),TM_HDF(MR(R),T) = TM_HDF(R,PP)*EQ_ESCOST.M(R,T)/EQ_ESCOST.M(R,PP));
Z=ROUND(TM_DEFVAL('USEHDF'));
TM_HDF(R,T)=TM_UDF(R,T)*(TM_HDF(R,T)/COEF_PVT(R,T))**.9$Z;
TM_GDP(MR(R),PP) = VAR_C.L(R,PP)+VAR_INV.L(R,PP) + VAR_NTX.L(R,PP);
PAR_GRGDP(MR(R),tp(T-1)) = 100 * ((TM_GDP(R,T)/TM_GDP(R,TP))**(1/NYPER(TP))-1);
PAR_Y(R,T) = VAR_C.L(R,T) + VAR_INV.L(R,T) + VAR_EC.L(R,T) + VAR_NTX.L(R,T)$(NOT TB(T));
PAR_MC(MR(R),PP(T),DM(C)) = MAX(ABS(VAR_SP.M(R,T,C)*TM_SCALE_NRG),ABS(EQ_DD.M(R,T,C))) / MAX(EQ_ESCOST.M(R,T),-VAR_EC.M(R,T)) / TM_SCALE_CST / tm_hdf(r,t);
MSA_ERR(NITER,'DDF',MR(R)) = SMAX((T(TT+1),DM(C)),ABS(TM_DEM(R,T,C)-VAR_DEM.L(R,T,C))/TM_DEM(R,T,C));
MSA_ERR(NITER,'GDP',MR(R)) = SMAX(T,ABS(TM_GDPGOAL(R,T)-TM_GDP(R,T))/TM_GDPGOAL(R,T));
ERRDEM = SMAX(MR, MSA_ERR(NITER,'DDF',MR)); DISPLAY ERRDEM;
ERRGDP = SMAX(MR, MSA_ERR(NITER,'GDP',MR));
DFUNC = ((ERRGDP>1.5*TM_TOL('GDP'))+(ERRDEM>1.5*TM_TOL('DEM')))*(MAX(ERRDEM,ERRGDP)>TM_TOL('MST'));
*-- Calculate deflators and new Negishi weights
LOOP(TB(T-1), MY_ARRAY(PP) = ABS(EQ_TRDBAL.M(PP)/EQ_TRDBAL.M(T)));
TM_NWT(MR(R)) = SUM(PP, MY_ARRAY(PP)*VAR_C.L(R,PP) + MY_ARRAY(PP)*VAR_NTX.L(R,PP));
TM_NWT(MR) = TM_NWT(MR) / SUM(REG, TM_NWT(REG));
TM_NWTIT(NITER,MR) = TM_NWT(MR);
IF(CARD(MR)=1, TM_TOL('EQUIL')=0;
ELSE TM_TOL('EQUIL') = SUM(MR, ABS(TM_NWTIT(NITER-1,MR) - TM_NWT(MR))));
MSA_ERR(NITER,'NWT',MR) = TM_TOL('EQUIL');
IF(DFUNC, TM_TOL('EQUIL')=1);
IF(TM_TOL('EQUIL') LE TM_TOL('MST') OR ORD(NITER)=CARD(NITER), DOITER=0);
IF(DOITER,
*-- Recalibrate DDF factors
$ INCLUDE ddfupd.msa
));
GDPLOSS(MR,TP)= 100*(TM_GDPGOAL(MR,TP)-TM_GDP(MR,TP))/TM_GDPGOAL(MR,TP);
TM_DDF_DM(MR,TP,DM)=(VAR_DEM.L(MR,TP,DM)/TM_DEM(MR,TP,DM));
OPTION MSA_ERR:6:2:1;
DISPLAY MSA_ERR,GDPLOSS,ERRDEM,ERRGDP;
* Calculate IVETOL for policy run
TM_IVETOL(MR(R)) = MAX(TM_YCHECK(R),SMAX(PP$(TM_L(R,PP)>1),LOG((VAR_INV.L(R,PP)+VAR_EC.L(R,PP))/TM_Y0(R))/LOG(TM_L(R,PP)))+.005);