Abstract

The study considers a stochastic R&D process where the invented production technologies consist of a large number n of complementary components. The degree of complementary is captured by the elasticity of substitution of the CES aggregator function. Drawing from the Central Limit Theorem and the Extreme Value Theory we find, under very general assumptions, that the cross-sectional distributions of technological productivity are well-approximated either by the lognormal, Weibull, or a novel “CES/Normal” distribution, depending on the underlying elasticity of substitution between technology components. We find the tail of the “CES/Normal” distribution to be fatter than the Weibull tail but thinner than the Pareto (power law) one. We numerically assess the rate of convergence of the true technological productivity distribution to the theoretical limit with n.

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