Grade Inflation in Generative Models
December 31, 2024 Β· Declared Dead Β· π arXiv.org
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Authors
Phuc Nguyen, Miao Li, Alexandra Morgan, Rima Arnaout, Ramy Arnaout
arXiv ID
2501.00664
Category
cs.AI: Artificial Intelligence
Cross-listed
cs.LG,
stat.ML
Citations
0
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Generative models hold great potential, but only if one can trust the evaluation of the data they generate. We show that many commonly used quality scores for comparing two-dimensional distributions of synthetic vs. ground-truth data give better results than they should, a phenomenon we call the "grade inflation problem." We show that the correlation score, Jaccard score, earth-mover's score, and Kullback-Leibler (relative-entropy) score all suffer grade inflation. We propose that any score that values all datapoints equally, as these do, will also exhibit grade inflation; we refer to such scores as "equipoint" scores. We introduce the concept of "equidensity" scores, and present the Eden score, to our knowledge the first example of such a score. We found that Eden avoids grade inflation and agrees better with human perception of goodness-of-fit than the equipoint scores above. We propose that any reasonable equidensity score will avoid grade inflation. We identify a connection between equidensity scores and RΓ©nyi entropy of negative order. We conclude that equidensity scores are likely to outperform equipoint scores for generative models, and for comparing low-dimensional distributions more generally.
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