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Auteurs principaux: chen, Mi, Ye, Renhao
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.29115
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author chen, Mi
Ye, Renhao
author_facet chen, Mi
Ye, Renhao
contents Context. Random seed selection in deep learning is often arbitrary -- conventionally fixed to values such as 42, a number with no known feline endorsement. Aims. We propose that cats, as liminal beings with a historically ambiguous relationship to quantum mechanics, are better suited to this task than random integers. Methods. We construct a cat-driven seed generator inspired by the first Friedmann equation, and test it by mapping 21 domestic cats' physical properties -- mass, coat pattern, eye colour, and name entropy -- via a Monte ``Catlo'' sampling procedure. Results. Cat-driven seeds achieve a mean accuracy of 92.58%, outperforming the baseline seed of 42 by $\sim$2.5%. Cats from astrophysicist households perform marginally better, suggesting cosmic insight may be contagious. Conclusions. The Universe responds better to cats than to arbitrary integers. Whether cats are aware of this remains unknown.
format Preprint
id arxiv_https___arxiv_org_abs_2603_29115
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Schrödinger's Seed: Purr-fect Initialization for an Impurr-fect Universe
chen, Mi
Ye, Renhao
Astrophysics of Galaxies
Computer Vision and Pattern Recognition
Context. Random seed selection in deep learning is often arbitrary -- conventionally fixed to values such as 42, a number with no known feline endorsement. Aims. We propose that cats, as liminal beings with a historically ambiguous relationship to quantum mechanics, are better suited to this task than random integers. Methods. We construct a cat-driven seed generator inspired by the first Friedmann equation, and test it by mapping 21 domestic cats' physical properties -- mass, coat pattern, eye colour, and name entropy -- via a Monte ``Catlo'' sampling procedure. Results. Cat-driven seeds achieve a mean accuracy of 92.58%, outperforming the baseline seed of 42 by $\sim$2.5%. Cats from astrophysicist households perform marginally better, suggesting cosmic insight may be contagious. Conclusions. The Universe responds better to cats than to arbitrary integers. Whether cats are aware of this remains unknown.
title Schrödinger's Seed: Purr-fect Initialization for an Impurr-fect Universe
topic Astrophysics of Galaxies
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2603.29115