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Article Dans Une Revue Perspectives on Science Année : 2020

Models, Parameterization, and Software: Epistemic Opacity in Computational Chemistry

Résumé

Computational chemistry grew in a new era of “desktop modeling,” which coincided with a growing demand for modeling software, especially from the pharmaceutical industry. Parameterization of models in computational chemistry is an arduous enterprise, and we argue that this activity leads, in this specific context, to tensions among scientists regarding the epistemic opacity transparency of parameterized methods and the software implementing them. We relate one flame war from the Computational Chemistry mailing List in order to assess in detail the relationships between modeling methods, parameterization, software and the various forms of their enclosure or disclosure. Our claim is that parameterization issues are an important and often neglected source of epistemic opacity and that this opacity is entangled in methods and software alike. Models and software must be addressed together to understand the epistemological tensions at stake.

Dates et versions

hal-03202482 , version 1 (20-04-2021)

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Frédéric Wieber, Alexandre Hocquet. Models, Parameterization, and Software: Epistemic Opacity in Computational Chemistry. Perspectives on Science, 2020, 28 (5), pp.610-629. ⟨10.1162/posc_a_00352⟩. ⟨hal-03202482⟩
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