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Continual Calibration: Coverage Can Collapse Before Accuracy in Lifelong LLM Fine-Tuning

Ibne Farabi Shihab, Sanjeda Akter, Anuj Sharma

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arxiv Score 25.0

Published 2026-04-27 · First seen 2026-04-28

Research Track A · General AI

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Abstract

Continual learning for large language models is typically evaluated through accuracy retention under sequential fine-tuning. We argue that this perspective is incomplete, because uncertainty reliability can degrade earlier and more sharply than top-1 performance. We study this empirically by measuring conformal coverage and calibration error on sequentially fine-tuned models across three model families and eight task sequences drawn primarily from classification and multiple-choice benchmarks. Across the classification-style settings we study, coverage loss exceeds accuracy loss by a factor of roughly \(3.4\times \pm 0.5\times\) on average across seeds; in the most pronounced case, coverage drops from \(0.92\) to \(0.61\), while accuracy remains within three points of baseline. Standard continual-learning methods that preserve accuracy do not automatically preserve coverage, and naive calibration baselines recover only part of the gap. We propose calibration replay, a lightweight post-hoc procedure that maintains a task-specific held-out buffer and refits a task-specific conformal threshold under the current model after each update. It adds no training-time gradient cost, uses less than one percent of the memory of ordinary experience replay, and typically restores coverage to within two points of nominal at buffer size \(m = 200\). We accompany the empirical study with a drift decomposition, a finite-sample recovery theorem showing exact conformal validity under exchangeability, and a mixture-validity proposition explaining why pooled thresholds do not suffice. Our guarantees are stated for classification-style tasks with task-specific buffers; extensions to open-ended generation are exploratory.

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BibTeX

@article{shihab2026continual,
  title = {Continual Calibration: Coverage Can Collapse Before Accuracy in Lifelong LLM Fine-Tuning},
  author = {Ibne Farabi Shihab and Sanjeda Akter and Anuj Sharma},
  year = {2026},
  abstract = {Continual learning for large language models is typically evaluated through accuracy retention under sequential fine-tuning. We argue that this perspective is incomplete, because uncertainty reliability can degrade earlier and more sharply than top-1 performance. We study this empirically by measuring conformal coverage and calibration error on sequentially fine-tuned models across three model families and eight task sequences drawn primarily from classification and multiple-choice benchmarks. A},
  url = {https://arxiv.org/abs/2604.23987},
  keywords = {cs.LG},
  eprint = {2604.23987},
  archiveprefix = {arXiv},
}

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