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arxiv: 2309.16064 · v2 · pith:MWUGHT3J · submitted 2023-09-27 · cs.CV · cs.AI· cs.LG

Masked Autoencoders are Scalable Learners of Cellular Morphology

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classification cs.CV cs.AIcs.LG
keywords biologicalmicroscopymodelsautoencoderscellulardeepinferringlarger
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Inferring biological relationships from cellular phenotypes in high-content microscopy screens provides significant opportunity and challenge in biological research. Prior results have shown that deep vision models can capture biological signal better than hand-crafted features. This work explores how self-supervised deep learning approaches scale when training larger models on larger microscopy datasets. Our results show that both CNN- and ViT-based masked autoencoders significantly outperform weakly supervised baselines. At the high-end of our scale, a ViT-L/8 trained on over 3.5-billion unique crops sampled from 93-million microscopy images achieves relative improvements as high as 28% over our best weakly supervised baseline at inferring known biological relationships curated from public databases. Relevant code and select models released with this work can be found at: https://github.com/recursionpharma/maes_microscopy.

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