Dataless Weight Disentanglement in Task Arithmetic via Kronecker-Factored Approximate Curvature
Abstract
Task Arithmetic yields a modular, scalable way to adapt foundation models. Combining multiple task vectors, however, can lead to cross-task interference, causing representation drift and degraded performance. Representation drift regularization provides a natural remedy to disentangle task vectors; however, existing approaches typically require external task data, conflicting with modularity and data availability constraints (e.g., privacy requirements). We propose a dataless approach by framing regularization against representation drift as a curvature matrix approximation problem. This allows us to leverage well-established techniques; in particular, we adopt Kronecker-Factored Approximate Curvature and obtain a practical regularizer that achieves state-of-the-art results in task addition and negation. Our method has constant complexity in the number of tasks and promotes robustness to task vector rescaling, eliminating the need for held-out tuning.
Cite
Text
Porrello et al. "Dataless Weight Disentanglement in Task Arithmetic via Kronecker-Factored Approximate Curvature." International Conference on Learning Representations, 2026.Markdown
[Porrello et al. "Dataless Weight Disentanglement in Task Arithmetic via Kronecker-Factored Approximate Curvature." International Conference on Learning Representations, 2026.](https://mlanthology.org/iclr/2026/porrello2026iclr-dataless/)BibTeX
@inproceedings{porrello2026iclr-dataless,
title = {{Dataless Weight Disentanglement in Task Arithmetic via Kronecker-Factored Approximate Curvature}},
author = {Porrello, Angelo and Buzzega, Pietro and Dangel, Felix and Sommariva, Thomas and Salami, Riccardo and Bonicelli, Lorenzo and Calderara, Simone},
booktitle = {International Conference on Learning Representations},
year = {2026},
url = {https://mlanthology.org/iclr/2026/porrello2026iclr-dataless/}
}