Solving Linear DSGE Models with Newton Methods (Replication)

Name: Solving Linear DSGE Models with Newton Methods (Replication)
Creator: Alexander Meyer-Gohde
Published: 2024-01-31T13:58:47.288Z
Keywords: Macroeconomics, Computational Economics

Meyer-Gohde, Alexander; Saecker, Johanna

doi:10.17632/rr7nnc4ycn.1

Solving Linear DSGE Models with Newton Methods (Replication)

Published: 31 January 2024| Version 1 | DOI: 10.17632/rr7nnc4ycn.1

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Description

This paper presents and compares Newton-based methods from the applied mathematics literature for solving the matrix quadratic that underlies the recursive solution of linear DSGE models. The methods are compared using nearly 100 different models from the Macroeconomic Model Data Base (MMB) and different parameterizations of the monetary policy rule in the medium-scale New Keynesian model of Smets and Wouters (2007) iteratively. We find that Newton-based methods compare favorably in solving DSGE models, providing higher accuracy as measured by the forward error of the solution at a comparable computation burden. The methods, however, suffer from their inability to guarantee convergence to a particular, e.g. unique stable, solution, but their iterative procedures lend themselves to refining solutions either from different methods or parameterizations.

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Institutions

Goethe University Frankfurt Institute for Monetary and Financial Stability, Goethe-Universitat Frankfurt am Main

Funding

Deutsche Forschungsgemeinschaft

465469938

Solving Linear DSGE Models with Newton Methods (Replication)

Description

Files

Steps to reproduce

Institutions

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Funding

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