| gemAssetPricing |
Compute Asset Market Equilibria for Some Simple Cases |
| gemBalancedGrowthPath |
Some Examples of Balanced Growth Paths |
| gemCanonicalDynamicMacroeconomic_3_2 |
A Canonical Dynamic Macroeconomic General Equilibrium Model (see Torres, 2016) |
| gemCanonicalDynamicMacroeconomic_4_3 |
A Canonical Dynamic Macroeconomic General Equilibrium Model (see Torres, 2016) |
| gemCapitalAccumulation |
Some Examples of Market-Clearing Paths with Capital Accumulation |
| gemCoffeeProblem_3_3 |
Coffee Problem: Some Examples of Equilibrium and Disequilibrium Pure Exchange Economies |
| gemConstantGrowthPath_TechnologyProgress_3_3 |
Constant Growth Paths with Technology Progress |
| gemDCES_5_3 |
A Model with a Displaced CES Utility Function |
| gemDualLinearProgramming |
General Equilibrium Models and Linear Programming Problems (see Winston, 2003) |
| gemEquityShare_3_3 |
A General Equilibrium Model with Equity Shares |
| gemEquityShare_Bond_4_4 |
A General Equilibrium Model with Equity Shares and Bond |
| gemExogenousPrice |
Some Examples with Exogenous Price (Price Regulation) |
| gemExogenousPrice_EndogenousLaborSupply_3_3 |
An Example of Price Regulation and Endogenous Labor Supply (Example 9.5 of Li, 2019) |
| gemExogenousUtilityLevel_EndogenousLaborSupply_3_3 |
Some Examples with Exogenous Utility Level and Endogenous Labor Supply |
| gemFirmAsConsumer |
Some Examples of Treating Firms as Consumer-Type Agents |
| gemHeterogeneousFirms_2_3 |
Market Clearing Paths with Heterogeneous Firms |
| gemInputOutputTable_2_2 |
A General Equilibrium Model based on a 2x2 (Unbalanced) Input-Output Table |
| gemInputOutputTable_2_7_2 |
A Two-Country General Equilibrium Model |
| gemInputOutputTable_2_7_4 |
A Two-Country General Equilibrium Model |
| gemInputOutputTable_2_8_4 |
A Two-Country General Equilibrium Model with Money |
| gemInputOutputTable_5_4 |
A General Equilibrium Model based on a 5x4 Input-Output Table (see Zhang Xin, 2017, Table 8.6.1) |
| gemInputOutputTable_5_5 |
General Equilibrium Models based on a 5x5 Input-Output Table (see Zhang Xin, 2017, Table 3.2.1) |
| gemInputOutputTable_7_4 |
A General Equilibrium Model based on a 7x4 (Standard) Input-Output Table |
| gemInputOutputTable_8_8 |
A General Equilibrium Model based on an 8x8 Input-Output Table |
| gemInputOutputTable_easy_5_4 |
An Easy General Equilibrium Model based on a 5x4 Input-Output Table (see Zhang Xin, 2017, Table 8.6.1) |
| gemInputOutputTable_Leontief_3_3 |
A Leontief-type General Equilibrium Model based on a 3x3 Input-Output Table |
| gemInputOutputTable_SCES_3_3 |
A SCES-type General Equilibrium Model based on an Input-Output Table. |
| gemIntertemporalStochastic_Bank_ThreePeriods |
An Intertemporal Stochastic Model with a Consumer and Some Banks |
| gemIntertemporalStochastic_ThreePeriods_2_2 |
A Three-Period Intertemporal Stochastic Equilibrium Model with a Consumer and a Type of Firm |
| gemIntertemporalStochastic_TwoPeriods |
Some Examples of a Two-Period Intertemporal Stochastic Equilibrium Model |
| gemIntertemporal_2_2 |
Some Examples of a 2-by-2 Intertemporal Equilibrium Model |
| gemIntertemporal_3_3 |
Some Examples of Intertemporal Models with One Consumer and Two Types of Firms |
| gemIntertemporal_3_4 |
Some Examples of Intertemporal Models with Two Consumers and Two Types of Firms |
| gemIntertemporal_Bank_1_2 |
Some Examples of an Intertemporal Model with a Consumer and a Type of Bank |
| gemIntertemporal_Bank_1_3 |
Some Examples of an Intertemporal Model with Two Consumers and a Type of Bank |
| gemIntertemporal_Dividend |
The Same Steady-state Equilibrium: Four Models Illustrating Dividend |
| gemIntertemporal_FinancialClaim |
Some Intertemporal Models with Financial Claim |
| gemIntertemporal_Money_Dividend_Example7.5.1 |
Three Equivalent Models with Money and Dividend |
| gemIntertemporal_TimeCircle_2_2 |
Some Examples of a 2-by-2 Time Circle Equilibrium Model |
| gemIntertemporal_TimeCircle_3_3 |
A Time Circle Model with One Consumer and Two Types of Firms |
| gemIntertemporal_TimeCircle_3_4 |
A Time Circle Model with Two Consumers and Two Types of Firms |
| gemIntertemporal_TimeCircle_Bank_1_2 |
Some Examples of a Time Circle Model with a Consumer and a Type of Bank |
| gemIntertemporal_TimeCircle_Stochastic_2_2 |
A Time Circle Model with Uncertainty |
| gemLand_Labor |
Some Examples of Market Clearing Paths Involving Land and Labor |
| gemLand_Labor_Capital_4_3 |
Some Examples of Market Clearing Paths Involving Land, Labor and Capital |
| gemMarketClearingPath_2_2 |
Some Examples of Market Clearing Paths |
| gemMoney_3_2 |
A General Equilibrium Model with Money |
| gemMoney_3_3 |
Some 3-by-3 General Equilibrium Models with Money |
| gemOLGFOneFirm |
Overlapping Generations Financial Models with One Firm |
| gemOLGFPureExchange |
Overlapping Generations Financial Models for Pure Exchange Economies |
| gemOLGFTwoFirms |
Overlapping Generations Financial Models with Two Firms |
| gemOLGLand_4_3 |
An Overlapping Generations Model with Land |
| gemOLGPrivateFirm |
Overlapping Generations Models with Private Firm |
| gemOLGPureExchange_2_2 |
The Basic Overlapping Generations Pure Exchange Model (see Samuelson, 1958) |
| gemOLGPureExchange_Bank |
Overlapping Generations Pure Exchange Models with Bank |
| gemOLGStochasticSequential_3_3 |
A 3-by-3 OLG Stochastic Sequential General Equilibrium Model |
| gemOLGTimeCircle |
Time-Circle Models (Closed Loop Overlapping Generations Models) |
| gemOpenEconomy_4_4 |
A 4-by-4 Open Economy with Bond |
| gemOpenEconomy_6_6 |
A 6-by-6 Open Economy with Bond |
| gemPersistentTechnologicalProgress |
Some Examples of Market Clearing Paths with Persistent Technological Progress |
| gemQuasilinearPureExchange_2_2 |
A Pure Exchange Economy with a Quasilinear Utility Function |
| gemResearchDevelopmentIntensity |
Some Examples of Market-Clearing Paths Illustrating Research and Development Intensity |
| gemRobinson_3_2 |
A Robinson Crusoe Economy |
| gemSecurityPricing |
Compute Security Market Equilibria for Some Simple Cases |
| gemSecurityPricingExample |
Some Examples of Security Pricing |
| gemSkill |
Some General Equilibrium Models with Skill (i.e. Human Capital) |
| gemstEndogenousLaborSupply_2_2 |
A General Equilibrium Model with Endogenous Labor Supply |
| gemstEndogenousProductionFunction_2_2 |
A General Equilibrium Model with Endogenous Production Function |
| gemstEndogenousUtilityFunction |
Some General Equilibrium Models with Endogenous Utility Function |
| gemstStructuralMultipleEquilibria_2_2 |
Structural Multiple Equilibria and Structural Transition Policy |
| gemTax_3_3 |
Some General Equilibrium Models with Tax |
| gemTax_5_4 |
A General Equilibrium Model with Tax (see Cardenete et al., 2012). |
| gemTax_5_5 |
A General Equilibrium Model with Tax |
| gemTax_QuasilinearPreference_4_4 |
A General Equilibrium Model with Tax and Quasilinear Utility Functions. |
| gemTax_VAT_IncomeTax_5_4 |
A General Equilibrium Model with Value-added Tax and Income Tax |
| gemTemporaryEquilibriumPath |
Some Examples of Temporary Equilibrium Paths |
| gemTwoCountryForeignExchangeRate_6_6 |
Example 7.6 (Foreign Exchange Rate) in Li (2019) |
| gemTwoCountryPureExchange |
Some Examples of Two-Country Pure Exchange Economy |
| gemTwoCountryPureExchange_Bond |
Some Examples of Two-Country Pure Exchange Economy with Bond |
| gemTwoCountry_Bond_7_4 |
An Example of Two-Country Economy with Bond |
| gemTwoCountry_RealExchangeRateIndex_7_4 |
Calculating Real Exchange Rate Index |
| gemTwoCountry_Tariff_9_5 |
An Example of Two-Country Economy with Tariff |
| gemTwoIndustries_4_3 |
A 4-by-3 Economy with Two Industries |
| gem_2_2 |
Some Simple 2-by-2 General Equilibrium Models |
| gem_3_2 |
Some Simple 3-by-2 General Equilibrium Models |
| gem_3_3 |
Some Simple 3-by-3 General Equilibrium Models |
| gem_3_4 |
Some Simple 3-by-4 General Equilibrium Models |
| gem_4_4 |
Some Simple 4-by-4 General Equilibrium Models |
| ge_tidy |
Tidy a General Equilibrium |
| growth_rate |
Compute the Growth Rate |
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