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On First-Order Meta-Learning Algorithms

Machine Learning 2018-10-23 v3

Abstract

This paper considers meta-learning problems, where there is a distribution of tasks, and we would like to obtain an agent that performs well (i.e., learns quickly) when presented with a previously unseen task sampled from this distribution. We analyze a family of algorithms for learning a parameter initialization that can be fine-tuned quickly on a new task, using only first-order derivatives for the meta-learning updates. This family includes and generalizes first-order MAML, an approximation to MAML obtained by ignoring second-order derivatives. It also includes Reptile, a new algorithm that we introduce here, which works by repeatedly sampling a task, training on it, and moving the initialization towards the trained weights on that task. We expand on the results from Finn et al. showing that first-order meta-learning algorithms perform well on some well-established benchmarks for few-shot classification, and we provide theoretical analysis aimed at understanding why these algorithms work.

Keywords

Cite

@article{arxiv.1803.02999,
  title  = {On First-Order Meta-Learning Algorithms},
  author = {Alex Nichol and Joshua Achiam and John Schulman},
  journal= {arXiv preprint arXiv:1803.02999},
  year   = {2018}
}
R2 v1 2026-06-23T00:46:09.822Z