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DILEMMA: Joint LLM Quantization and Distributed LLM Inference Over Edge Computing Systems

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arxiv 2503.01704 v1 pith:PW23S6W5 submitted 2025-03-03 cs.LG

DILEMMA: Joint LLM Quantization and Distributed LLM Inference Over Edge Computing Systems

classification cs.LG
keywords dilemmaquantizationcomputingedgeperformancesystemswhilecapacity
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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With a recent trend of using Large Language Models (LLMs) for different applications within smart cities, there is a need for pushing these models toward the edge of network while still preserving their performance. Edge Computing (EC) as a physically closer computing resource to the end users can help to reduce the communication delay for serving end users' tasks for LLM-dependent services. However, EC servers have limited capacity in terms of communication, computation, and storage capacity. This paper introduces DILEMMA, a novel framework addressing the challenges of deploying LLMs in EC systems by jointly optimizing layer placement and layer quantization in EC systems. DILEMMA formulates an Integer Linear Programming problem to minimize total inference delay while ensuring acceptable LLM performance levels, leveraging layer-wise quantization and knowledge distillation for LLM performance control. Experimental evaluations on OPT-350 model using the SQuAD dataset demonstrate that DILEMMA achieves a quantization ratio of up to 12.75% while preserving model loss, highlighting its effectiveness in resource-constrained environments.

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