Parameters
* variables in the main model
* sectors
         FD_T(j,r,SIM,t)  Domestic consumption goods
         FD_ABS_T(y,j,r,SIM,t)  Tracker: change rates of sectoral consumption
         IFAF_T(f,a,y,r,SIM,t)   perfected allocated part of primary input - labor capital and natural resources
         IFAF_noC_T(f,a,y,r,SIM,t) primary input - labor
         IFAF_noF_T(f,a,y,r,SIM,t)    primary input - labor
         IM_T(y,r,SIM,t)      Import aggregate
         IO_ABS_T(y,a,yy,r,SIM,t)           intermediate goods
         IF_ABS_T(f,a,y,r,SIM,t)           primary inputs
         TRANS_T(SIM,t)         International transport
         X_T(y,r,SIM,t)           Armington aggregate
         XD_T(y,r,SIM,t)  Domestic output
         XDA_T(a,y,r,SIM,t)    output of each technology to produce in sectors with more than one tech.
* COMMODITIES
         P_C_T(y,j,r,SIM,t)        Armington price - but sent through FD_ABS
         P_IO_T(y,a,yy,r,SIM,t)      Armington price - but sent through IO_ABS
         P_T(y,r,SIM,t)        Armington price
         PCAP_T(SIM,t)            Capital returns _T(for GLOBTRUST)
         PD_T(y,r,SIM,t)     Domestic output price
         PDA_T(a,y,r,SIM,t)     price of output of each technology to produce in sectors with more than one tech.
         PF_T(f,r,SIM,t)         Factor price at market price
         PFF_T(f,r,SIM,t)         Factor price at market price - perfect allocation
         PFF_noC_T(f,r,SIM,t)      Factor price at market price - perfect substitution
         PFF_noF_T(f,r,SIM,t)     Factor price at market price - perfect substitution
         PFNF_T(f,r,SIM,t)         Factor price at market price - imperfect
         PFA_T(f,a,y,r,SIM,t)       Sector+region-specific factor prices at agent's price
         PFD_T(j,r,SIM,t)         Domestic consumption good price
         PI_T(SIM,t)               Investments from global bank
         PIM_T(y,r,SIM,t)       Price of aggregate import
         PS_T(r,SIM,t)             savings
         PT_T(j,r,SIM,t)  Transfers from regional household to private consumption
         PTRANS_T(SIM,t)           Transport price
*         PCAPA_T(a,y,r,SIM,t)             capacity constraints for elc. generation

         PP_T(r,SIM,t)        carbon price in region r - 1000 US$2004 per ton carbon
* green bond
         PI_noC_T(SIM,t) Investments from global bank for non-coal green bond
         PI_noF_T(SIM,t) Investments from global bank for non-fossil-fuel green bond

* CONSUMERS:
         GLOBANK_T(SIM,t)      Global bank to determine where to invest by equalizing net rate of growth in the expected rate of return to capital
         GLOBTRST_T(SIM,t)     Global trust to collect all the returns to capital and allocate among regions
         INC_T(j,r,SIM,t)     Local consumers: private households - government - investmentor
         REGINC_T(r,SIM,t)    regional government to collect all income to the region and allocate to local consumers
* AUXILIARY
         INV_T(r,SIM,t)  Rationing constraint on investment
         RORE_T(r,SIM,t)    the expected rates of returns to capital - gross minus normal
         ROREZ_T(r,SIM,t)   the expected rates of returns to capital - gross minus normal
         VKE_T(r,SIM,t)   End of period capital stock

         GDP_T(r,SIM,t)  gross domestic product by regions
         EMSTOT_T(r,SIM,t)      Total carbon emissions in million Metric tons Carbon equivalence (MMTCeq.)
         PINDEX_T(r,SIM,t)   Consumer price index - investment goods are excluded
         PINDEXW_T(SIM,t)    Global consumer price index - investment goods are excluded -numerairre
         FOSS_T(y,r,SIM,t)   energy use in mtoe
         EFFTFP_T(f,r,SIM,tmax)     endogenous factor productivity to obtain desired GDP
         EFFTFP_S_T(f,y,r,SIM,tmax)     endogenous factor productivity to obtain desired GDP
         TS_Primen_T(y,r,SIM,tmax)   !control primary energy path to exogenous path

         KHAT_T(r,SIM,t) init normal rate of growth in the rate of return to capital
         FreeF_SH_T(f,r,SIM,t)  the share of factors that can be freely moved from one sector to another
* green bond
         FreeF_SH_noC_T(f,r,SIM,t)  the share of factors that can be freely moved among non-coal sectors
         FreeF_SH_noF_T(f,r,SIM,t)  the share of factors that can be freely moved among non-fossil_fuel sectors

         PERMIT_T(r,SIM,t)    Allowed rate of emissions level compared to base year
         PERMITr_T(r,SIM,t)    Real emissions level in million Metric tons Carbon equivalence (MMTCeq.)
         PERMITrN_T(r,SIM,t)    purchased emissions quota from global carbon market in MMTCeq.
         tflnd_T(f,y,r,SIM,t)     ! endogeneous subsidy rate for agricultural land use from carbon premium
         CAPA_T(a,y,r,SIM,tmax)              capacity constraints for elc. generation

* green bond
         RORE_noC_T(r,SIM,t)  Changes in growth of the expected net rates of returns to capital in non-coal sectors. Should be equalized among regions
         RORE_noF_T(r,SIM,t)  Changes in growth of the expected net rates of returns to capital in non-fossil-fuel sectors. Should be equalized among regions
         INV_noC_T(r,SIM,t)   global non-coal green bond by region
         INV_noF_T(r,SIM,t)  global non-fossil-fuel green bond by region
         INV_noCTOT_T(SIM,t) global non-coal green bond
         INV_noFTOT_T(SIM,t)  global non-fossil-fuel green bond

         tPFF_noC_T(f,a,y,r,SIM,t) tax to make capital stock of coal sectors less than BAU
         tPFF_noF_T(f,a,y,r,SIM,t) tax to make capital stock of fossil sectors less than BAU

* Level of variables
* sectors
         FDr_T(j,r,SIM,t)  Domestic consumption goods - 1e9 US$204
         FD_ABSr_T(y,j,r,SIM,t)  Tracker: change rates of sectoral consumption
         IFANFr_T(f,a,y,r,SIM,t)   imperfected allocated part of primary input - labor capital and natural resources
         IFAr_T(f,a,y,r,SIM,t)   total primary input - labor capital and natural resources
         IMr_T(y,r,SIM,t)      Import aggregate
         IO_ABSr_T(y,a,yy,r,SIM,t)           intermediate goods
         IF_ABSr_T(f,a,y,r,SIM,t)           primary inputs
         TRANSr_T(SIM,t)         International transport
         Xr_T(y,r,SIM,t)           Armington aggregate  - 1e9 US$204
         XDr_T(y,r,SIM,t)  Domestic output  - 1e9 US$204
         XDAr_T(a,y,r,SIM,t)  Domestic output  - 1e9 US$204
* COMMODITIES
         P_IOr_T(y,a,yy,r,SIM,t)      Armington price - but sent through IO_ABS
         PFAr_T(f,a,y,r,SIM,t)       Sector+region-specific factor prices at agent's price
* AUXILIARY
         INVr_T(r,SIM,t)  Rationing constraint on investment  - 1e9 US$204
         VKEr_T(r,SIM,t)   End of period capital stock  - 1e9 US$204

         GDPr_T(r,SIM,t)  gross domestic product by regions  - 1e9 US$204
         EMSTOTr_T(r,SIM,t)      Total carbon emissions in million Metric tons Carbon equivalence (MMTCO2eq.)
         FOSSr_T(y,r,SIM,t)   energy use in mtoe
         FTOT_T(f,r,SIM,t)     total endowment of factor f - 10^9 US$ in 2004

* Reported levels of variables
         EXRr_T(y,rr,r,SIM,t)   export from region rr to r   - 1e9 US$204
         VTWRr_T(y,r,SIM,t)    transportation associated with imprort to region r
         XDDr_T(y,r,SIM,t)  domestic use of domestic production    - 1e9 US$204
         TRANRr_T(y,r,SIM,t)     exported transportation from r  - 1e9 US$204

* Calculated parameters
         SAVr_T(r,SIM,t)    savings at each region - 1e9 US$204
         IMc_T(y,r,SIM,t)   value of import in r  - 1e9 US$204
         EXc_T(y,r,SIM,t)   value of export in r  - 1e9 US$204
         EX_IM_BAL_T(r,SIM,t)   trade balance (diff. between import and export) - 1e9 US$204

* other parameters
         GLOBTRUSTSHARE_T(r,SIM,t)  regional savings share in global trust
         eff_xd_T(a,y,r,SIM,t)  preference change rates of goods (electricity) generated from alternative technologies
         eff_T(yy,a,y,r,SIM,t) efficiency on intermediate inputs
         eff_if_T(f,a,y,r,SIM,tmax)  efficiency on primary factors in production functions
         eff_f_T(y,j,r,SIM,t)  efficiency on consumption goods
         NFreeF_SH_T(f,a,y,r,SIM,t)  the share of factors that can be freely moved from one sector to another

         eghga_xd_T(ghga,y,r,SIM,t)     emissions from output by sectors (EDGAR2GTAP) in million Metric tons Carbon equivalence (MMTCeq.)
         eghga_hh2_T(ghga,r,j,SIM,t)    emissions from fossil fuels used by households (EDGAR2GTAP) in million Metric tons Carbon equivalence (MMTCeq.)
         eghga_FD_T(ghga,r,j,SIM,t)       emissions by households (EDGAR2GTAP) in million Metric tons Carbon equivalence (MMTCeq.)
         eghga_io_T(ghga,yy,a,y,r,SIM,t)  emissions from intermediate inputs by sectors (EDGAR2GTAP) in million Metric tons Carbon equivalence (MMTCeq.)
         eghga_f_T(ghga,f,y,r,SIM,t)   emissions from primary inputs by sectors (EDGAR2GTAP) in million Metric tons Carbon equivalence (MMTCeq.)

          c_LAB_T(r,SIM,t)   Shift parameter of initial labor supply due to health damages
          c_CAP_T(r,SIM,t)   Shift parameter of initial capital due to natural disasters
          eKLE_T(y,r,SIM,t) elasticity of non-electricity and non-primary energy production at the level of primary inputs and energy inputs
          eNEL_T(y,r,SIM,t) elasticity in other sectors at the level of all non-electricity inputs: gas coal oil and refineries


         CO2_ffA_T(r,SIM,t)   CO2 emissions from fossil fuels for BAU (RCP8.5) from A2r Baseline - IIASA GGI Scenario Database - tons C per yr per capita

;

* macro-economic variables
parameters
         GDP_I(*,y,a,r,SIM,t)  GDP by income method by factors*sectors in a region at current prices
         GDP_E(*,r,SIM,t)  GDP by expenditure approach in a region at current prices
         GDP_FP(*,*,a,r,SIM,t)  GDP at 2011 fixed prices

         CTOP_T(y,*,SIM,t)    detailed crop production output data from FAO (tonnes)
         ;

* Any modification should be written below. Avoid to modify the previous text