20260706.0004v1TheoryReleased: February 22, 20261 Views

Mapping Networks

Lord Sen|Shyamapada Mukherjee

Abstract

The escalating parameter counts in modern deep learning models pose a fundamental challenge to efficient training and resolution of overfitting. We address this by introducing the Mapping Networks which replace the high dimensional weight space by a compact, trainable latent vector based on the hypothesis that the trained parameters of large networks reside on smooth, low-dimensional manifolds. Henceforth, the Mapping Theorem enforced by a dedicated Mapping Loss, shows the existence of a mapping from this latent space to the target weight space both theoretically and in practice. Mapping Networks significantly reduce overfitting and achieve comparable to better performance than target network across complex vision and sequence tasks, including Image Classification, Deepfake Detection etc, with 99.5%, i.e., around 500× reduction in trainable parameters.

Keywords

Mapping NetworksHypernetworksLow-dimensional Parameter ManifoldsLatent Weight GenerationParameter-Efficient TrainingWeight Space MappingModel CompressionOverfitting ReductionDeep LearningNeural Network Optimization

External Source

This is an externally sourced paper. It was originally published independently.