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Images are Worth Variable Length of Representations

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arxiv 2506.03643 v2 pith:ZXO4C6FB submitted 2025-06-04 cs.CV

Images are Worth Variable Length of Representations

classification cs.CV
keywords tokensdoveimageimagesdove-encoderexistingfixed-lengthinformation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Most existing vision encoders map images into a fixed-length sequence of tokens, overlooking the fact that different images contain varying amounts of information. For example, a visually complex image (e.g., a cluttered room) inherently carries more information and thus deserves more tokens than a simple image (e.g., a blank wall). To address this inefficiency, we propose DOVE, a dynamic vision encoder that produces a variable number of visual tokens (i.e., continuous representation vectors) to reconstruct each image. Our results show that DOVE significantly reduces the average number of tokens while maintaining high reconstruction quality. In several linear probing and downstream multimodal tasks, it outperforms existing autoencoder-based tokenization methods when using far fewer tokens, capturing more expressive semantic features compared to fixed-length encoding. We further extend DOVE with query-conditioned tokenization. By guiding the model to focus on query-relevant regions, it achieves more efficient and targeted semantic extraction. Our code and checkpoints are available at https://dove-encoder.github.io/dove-encoder.

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Cited by 2 Pith papers

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    cs.CV 2026-06 unverdicted novelty 7.0

    ChannelTok introduces channel-wise tokenization with stochastic tail-dropping to achieve rFID 2.92 on ImageNet at 8.6x faster decoding and 2.1x smaller size than prior flexible tokenizers.

  2. DC-DiT: Adaptive Compute and Elastic Inference for Visual Generation via Dynamic Chunking

    cs.CV 2026-03 unverdicted novelty 7.0

    DC-DiT learns dynamic chunking to allocate fewer tokens to smooth or noisy regions and more to detailed or late-stage areas, cutting inference FLOPs up to 36.8% while improving FID up to 37.8% on class-conditional Ima...