arXiv:2412.18387v1 Announce Type: cross
Abstract: The scaling capability has been widely validated with respect to the number of parameters and the size of training data. One important question that is unexplored is that does scaling capability also exists similarly with respect to the number of vision tokens? This study fills the gap by investigating the relationship between the number of vision tokens and the performance of vision-language models. Our theoretical analysis and empirical evaluations reveal that the model exhibits weak scaling capabilities on the length (N_l), with performance approximately (S(N_l) approx (c/N_l)^{alpha}), where (c, alpha) are hyperparameters. Interestingly, this scaling behavior remains largely unaffected by the inclusion or exclusion of the user’s question in the input. Furthermore, fusing the user’s question with the vision token can enhance model performance when the question is relevant to the task. To address the computational challenges associated with large-scale vision tokens, we propose a novel architecture that efficiently reduces the token count while integrating user question tokens into the representation. Our findings may offer insights for developing more efficient and effective vision-language models under specific task constraints.
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