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Poster

Data-Efficient Multimodal Fusion on a Single GPU

Noël Vouitsis · Zhaoyan Liu · Satya Krishna Gorti · Valentin Villecroze · Jesse C. Cresswell · Guangwei Yu · Gabriel Loaiza-Ganem · Maksims Volkovs

Arch 4A-E Poster #297
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Fri 21 Jun 5 p.m. PDT — 6:30 p.m. PDT

Abstract: The goal of multimodal alignment is to learn a single latent space that is shared between multimodal inputs. The most powerful models in this space have been trained using massive datasets of paired inputs and large-scale computational resources, making them prohibitively expensive to train in many practical scenarios. We surmise that existing unimodal encoders pre-trained on large amounts of unimodal data should provide an effective bootstrap to create multimodal models from unimodal ones at much lower costs. We therefore propose FuseMix, a multimodal augmentation scheme that operates on the latent spaces of arbitrary pre-trained unimodal encoders. Using FuseMix for multimodal alignment, we achieve competitive performance -- and in certain cases outperform state-of-the art methods -- in both image-text and audio-text retrieval, with orders of magnitude less compute and data: for example, we outperform CLIP on the Flickr30K text-to-image retrieval task with $\sim 600\times$ fewer GPU days and $\sim 80\times$ fewer image-text pairs. Additionally, we show how our method can be applied to convert pre-trained text-to-image generative models into audio-to-image ones. Code is available at: https://github.com/layer6ai-labs/fusemix.

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