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Multi-Head Adapter Routing for Cross-Task Generalization

Artificial Intelligence 2023-11-14 v3

Abstract

Parameter-efficient fine-tuning (PEFT) for cross-task generalization consists in pre-training adapters on a multi-task training set before few-shot adaptation to test tasks. Polytropon [Ponti et al., 2023] (Poly\texttt{Poly}) jointly learns an inventory of adapters and a routing function that selects a (variable-size) subset of adapters for each task during both pre-training and few-shot adaptation. In this paper, we investigate the role that adapter routing plays in its success and design new variants based on our findings. First, we build on the intuition that finer-grained routing provides more expressivity. Hence, we propose MHR\texttt{MHR} (Multi-Head Routing) which combines subsets of adapter parameters and outperforms Poly\texttt{Poly} under a comparable parameter budget; by only fine-tuning the routing function and not the adapters (MHR\texttt{MHR}-zz) we achieve competitive performance with extreme parameter efficiency. Second, we find that Poly\texttt{Poly}/MHR\texttt{MHR} performance is a result of better multi-task optimization, rather than modular inductive biases that facilitate adapter recombination and local adaptation, as previously hypothesized. In fact, we find that MHR\texttt{MHR} exhibits high gradient alignment between training tasks. We find that routing is most beneficial during multi-task pre-training rather than during few-shot adaptation and propose MHR\texttt{MHR}-μ\mu, which discards routing and fine-tunes the average of the pre-trained adapters on each downstream tasks. This establishes MHR\texttt{MHR}-μ\mu as an effective method for single-adapter fine-tuning. We also show that MHR\texttt{MHR}-μ\mu can be used as an effective zero-shot transfer method by training the average of the pre-trained adapters for a few additional steps on the multi-task training set: this yields gains up to 3% on absolute accuracy w.r.t. the baselines.

Keywords

Cite

@article{arxiv.2211.03831,
  title  = {Multi-Head Adapter Routing for Cross-Task Generalization},
  author = {Lucas Caccia and Edoardo Ponti and Zhan Su and Matheus Pereira and Nicolas Le Roux and Alessandro Sordoni},
  journal= {arXiv preprint arXiv:2211.03831},
  year   = {2023}
}

Comments

Accepted at NeurIPS 2023. Code is available at https://github.com/microsoft/mttl

R2 v1 2026-06-28T05:21:58.308Z