English

From Generalist to Specialist Representation

Machine Learning 2026-05-14 v1 Artificial Intelligence Machine Learning

Abstract

Given a generalist model, learning a task-relevant specialist representation is fundamental for downstream applications. Identifiability, the asymptotic guarantee of recovering the ground-truth representation, is critical because it sets the ultimate limit of any model, even with infinite data and computation. We study this problem in a completely nonparametric setting, without relying on interventions, parametric forms, or structural constraints. We first prove that the structure between time steps and tasks is identifiable in a fully unsupervised manner, even when sequences lack strict temporal dependence and may exhibit disconnections, and task assignments can follow arbitrarily complex and interleaving structures. We then prove that, within each time step, the task-relevant latent representation can be disentangled from the irrelevant part under a simple sparsity regularization, without any additional information or parametric constraints. Together, these results establish a hierarchical foundation: task structure is identifiable across time steps, and task-relevant latent representations are identifiable within each step. To our knowledge, each result provides a first general nonparametric identifiability guarantee, and together they mark a step toward provably moving from generalist to specialist models.

Keywords

Cite

@article{arxiv.2605.12733,
  title  = {From Generalist to Specialist Representation},
  author = {Yujia Zheng and Fan Feng and Yuke Li and Shaoan Xie and Kevin Murphy and Kun Zhang},
  journal= {arXiv preprint arXiv:2605.12733},
  year   = {2026}
}

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ICML 2026