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Bibliographic Details
Main Author: Marron, Assaf
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.12076
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author Marron, Assaf
author_facet Marron, Assaf
contents We present a handcrafted neural network that, without training, solves the seemingly difficult problem of encoding an arbitrary set of integers into a single numerical variable, and then recovering the original elements. While using only standard neural network operations -- weighted sums with biases and identity activation -- we make design choices that challenge common notions in this area around representation, continuity of domains, computation, learnability and more. For example, our construction is designed, not learned; it represents multiple values using a single one by simply concatenating digits without compression, and it relies on hardware-level truncation of rightmost digits as a bit-manipulation mechanism. This neural net is not intended for practical application. Instead, we see its resemblance to -- and deviation from -- standard trained autoencoders as an invitation to examine assumptions that may unnecessarily constrain the development of systems and models based on autoencoding and machine learning. Motivated in part by our research on a theory of biological evolution centered around natural autoencoding of species characteristics, we conclude by refining the discussion with a biological perspective.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Synthetic Pseudo-Autoencoder Invites Examination of Tacit Assumptions in Neural Network Design
Marron, Assaf
Neural and Evolutionary Computing
Artificial Intelligence
We present a handcrafted neural network that, without training, solves the seemingly difficult problem of encoding an arbitrary set of integers into a single numerical variable, and then recovering the original elements. While using only standard neural network operations -- weighted sums with biases and identity activation -- we make design choices that challenge common notions in this area around representation, continuity of domains, computation, learnability and more. For example, our construction is designed, not learned; it represents multiple values using a single one by simply concatenating digits without compression, and it relies on hardware-level truncation of rightmost digits as a bit-manipulation mechanism. This neural net is not intended for practical application. Instead, we see its resemblance to -- and deviation from -- standard trained autoencoders as an invitation to examine assumptions that may unnecessarily constrain the development of systems and models based on autoencoding and machine learning. Motivated in part by our research on a theory of biological evolution centered around natural autoencoding of species characteristics, we conclude by refining the discussion with a biological perspective.
title A Synthetic Pseudo-Autoencoder Invites Examination of Tacit Assumptions in Neural Network Design
topic Neural and Evolutionary Computing
Artificial Intelligence
url https://arxiv.org/abs/2506.12076