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Autori principali: Fan, Yewen, Si, Nian, Song, Xiangchen, Zhang, Kun
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2401.16692
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author Fan, Yewen
Si, Nian
Song, Xiangchen
Zhang, Kun
author_facet Fan, Yewen
Si, Nian
Song, Xiangchen
Zhang, Kun
contents The adoption of deep learning across various fields has been extensive, yet there is a lack of focus on evaluating the performance of deep learning pipelines. Typically, with the increased use of large datasets and complex models, the training process is run only once and the result is compared to previous benchmarks. This practice can lead to imprecise comparisons due to the variance in neural network evaluation metrics, which stems from the inherent randomness in the training process. Traditional solutions, such as running the training process multiple times, are often infeasible due to computational constraints. In this paper, we introduce a novel metric framework, the Calibrated Loss Metric, designed to address this issue by reducing the variance present in its conventional counterpart. Consequently, this new metric enhances the accuracy in detecting effective modeling improvements. Our approach is substantiated by theoretical justifications and extensive experimental validations within the context of Deep Click-Through Rate Prediction Models.
format Preprint
id arxiv_https___arxiv_org_abs_2401_16692
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Calibration-then-Calculation: A Variance Reduced Metric Framework in Deep Click-Through Rate Prediction Models
Fan, Yewen
Si, Nian
Song, Xiangchen
Zhang, Kun
Machine Learning
The adoption of deep learning across various fields has been extensive, yet there is a lack of focus on evaluating the performance of deep learning pipelines. Typically, with the increased use of large datasets and complex models, the training process is run only once and the result is compared to previous benchmarks. This practice can lead to imprecise comparisons due to the variance in neural network evaluation metrics, which stems from the inherent randomness in the training process. Traditional solutions, such as running the training process multiple times, are often infeasible due to computational constraints. In this paper, we introduce a novel metric framework, the Calibrated Loss Metric, designed to address this issue by reducing the variance present in its conventional counterpart. Consequently, this new metric enhances the accuracy in detecting effective modeling improvements. Our approach is substantiated by theoretical justifications and extensive experimental validations within the context of Deep Click-Through Rate Prediction Models.
title Calibration-then-Calculation: A Variance Reduced Metric Framework in Deep Click-Through Rate Prediction Models
topic Machine Learning
url https://arxiv.org/abs/2401.16692