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[ARTICLE · art-58247] src=arxiv.org ↗ pub= topic=machine-learning verified=true sentiment=↑ positive

RSLoRA: Training-free Rank Allocation for LoRA via Representational Sensitivity Probing

Researchers propose RSLoRA, a training-free rank allocation method for LoRA that uses activation-space geometry to assign ranks based on representational sensitivity. The method outperforms existing allocators like AdaLoRA and GoRA on benchmarks, eliminating the need for iterative training-time adjustments.

read1 min views1 publishedJul 14, 2026

arXiv:2607.09757v1 Announce Type: new Abstract: Low-Rank Adaptation (LoRA) has become a cornerstone of parameter-efficient fine-tuning (PEFT); however, the conventional practice of uniform rank assignment ignores the functional heterogeneity of neural layers. Existing rank allocation methods typically struggle with a trade-off between computational intensity and heuristic simplicity: training-based methods suffer from prohibitive overhead, while pre-allocation methods fail to capture the dynamic task-specific representation manifold. In this paper, we propose RSLoRA (Representational Sensitivity LoRA), a training-free and gradient-free rank allocator driven by activation-space geometry. We identify a "sensitivity regime shift" across layers, observing that static weight analysis and local gradients are insufficient to reflect how updates reshape a model's internal representations. To address this, RSLoRA introduces a virtual representational probing mechanism. By simulating adaptation through structured low-rank noise and measuring the resulting manifold displacement by using Effective Rank and Frechet Distance, we identify high-sensitivity modules that require higher rank capacity. Our framework effectively bridges the gap between expert-crafted heuristics and actual representational impact. Extensive evaluations demonstrate that RSLoRA consistently outperforms state-of-the-art allocators (e.g., AdaLoRA, GoRA) across mainstream benchmarks. By eliminating the need for iterative training-time adjustments and backward gradients, RSLoRA provides a highly efficient, robust, and representation-aware solution for large-scale model adaptation.

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