Cascaded Multi-Granularity Pruning for On-Device LLM Inference in Industrial IoT
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Computer Science > Computation and Language
Title:Cascaded Multi-Granularity Pruning for On-Device LLM Inference in Industrial IoT
Abstract:Deploying large language models (LLMs) on Industrial Internet of Things (IIoT) edge devices demands extreme compression, yet existing structured pruning methods collapse at high compression ratios due to one-shot importance estimation, and their cross-architecture behavior remains unpredictable. This article presents a cascaded multi-granularity pruning framework that removes layers, attention heads, and feed-forward channels in coarse-to-fine order, with lightweight low-rank recovery between stages to re-estimate component importance. An information-theoretic analysis motivates this ordering, and the Structural Independence Assumption (SIA) is formalized as a checkable condition predicting whether per-component pruning criteria are reliable for a given architecture: Multi-Head Attention (MHA)+GELU designs satisfy the SIA, whereas Grouped Query Attention (GQA)+SwiGLU designs violate it. On bearing fault diagnosis spanning 88M to 6.25B-parameter models, the framework extends achievable compression to 13.8 times on MHA+GELU architectures with 83.82% accuracy (+3.70 percentage points (pp) over the strongest baseline), while exposing a ~74pp accuracy collapse on GQA+SwiGLU architectures that violate the SIA. Deployed on an industrial slewing bearing fault diagnosis platform with NVIDIA DGX Spark, compressed models reduce inference latency by up to 67.2% and peak memory by 62.5%, demonstrating viability for IIoT edge inference.
| Comments: | This work has been submitted to the IEEE Internet of Things Journal for possible publication |
| Subjects: | Computation and Language (cs.CL) |
| Cite as: | arXiv:2606.26861 [cs.CL] |
| (or arXiv:2606.26861v1 [cs.CL] for this version) | |
| https://doi.org/10.48550/arXiv.2606.26861
arXiv-issued DOI via DataCite (pending registration)
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