Gempack

GEMPACK (General Equilibrium Modelling PACKage) is a modeling system for CGE economic models, used at the Centre of Policy Studies (CoPS) in Melbourne, Australia, and sold to other CGE modellers.

Some of the more well-known CGE models solved using GEMPACK[1] are the GTAP model of world trade, and the MONASH, MMRF, ORANI-G and TERM models used at CoPS. All these models share a distinctive feature: they are formulated as a system of differential equations in percentage change form; however, this is not required by GEMPACK.

Main features

A characteristic feature of CGE models is that an initial solution for the model can be readily constructed from a table of transaction values (such as an input-output table or a social accounting matrix) that satisfies certain basic accounting restrictions. GEMPACK builds on this feature by formulating the CGE model as an initial value problem which is solved using standard techniques.

The GEMPACK user specifies her model by constructing a text file listing model equations and variables, and showing how variables relate to value flows stored on an initial data file.

GEMPACK translates this file into a computer program which solves the model, i.e., computes how model variables might change in response to an external shock. The original equation system is linearized (reformulated as a system of first-order partial differential equations). If most variables are expressed in terms of percentage changes (akin to log changes) the coefficients of the linearized system are usually very simple functions of database value flows.

Computer algebra is used at this point to greatly reduce (by substitution) the size of the system. Then it is solved by multistep methods such as the Euler method, midpoint method or Gragg's modified Midpoint method. These all require solution of a large system of linear equations; accomplished by sparse matrix techniques. Richardson extrapolation is used to improve accuracy. The final result is an accurate solution of the original non-linear equations.

This linearized approach, originally devised to solve medium-sized CGE models on early computers, has since proved capable (on modern computers) of solving very large models. Additionally it has lent itself to some interesting extensions, such as: a Gaussian quadrature method[2] of estimating confidence intervals for model results from known distributions of shock or parameter values; a way to formulate inequality constraints or non-differentiable equations as complementarities;[3] and a technique[4] to decompose changes in model variables due to several shocks into components due to each individual shock.

The underlying numerical approach is complemented by several GUI programs that: ease viewing of large multidimensional arrays often found in CGE databases; manage complex (e.g., multi-period) simulations; and allow interactive exploration and explanation of simulation results.

gollark: `^((<@![0-9]{10,}>)|[ \t\n])+$` would work.
gollark: You could also `message.replace(" ", "")` or something.
gollark: Doesn't that just strip it at the end/start?
gollark: I'll try and developinate a regexotron.
gollark: <@!257604541300604928> Don't you want to also allow spaces?

See also

  • RunGEM: a freeware solving component for Gempack
  • GAMS: another modeling system often used to solve CGE models.

References

  1. Harrison, W. J. and K. R. Pearson (1996), "Computing Solutions for Large General Equilibrium Models Using GEMPACK", Computational Economics, vol. 9, pp. 83–127.
  2. DeVuyst, E. A. and P. V. Preckel (1997), "Sensitivity Analysis Revisited: A Quadrature-Based Approach", Journal of Policy Modeling, 19(2) pp. 175–185.
  3. Harrison, W. J., J. M. Horridge, K. R. Pearson and G. Wittwer (2004), "A Practical Method for Explicitly Modeling Quotas and Other Complementarities", Computational Economics, June 2004, Vol. 23(4), pp. 325–341.
  4. Harrison, W. J., J. M. Horridge and K. R. Pearson (2000), "Decomposing Simulation Results with respect to Exogenous Shocks", Computational Economics, Vol 15(3), pp. 227–249.
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