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Main Authors: Liu, Qunyou, Huang, Darong, Zapater, Marina, Atienza, David
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.16449
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author Liu, Qunyou
Huang, Darong
Zapater, Marina
Atienza, David
author_facet Liu, Qunyou
Huang, Darong
Zapater, Marina
Atienza, David
contents Large Language Models (LLMs) are becoming the backbone of modern cloud services, yet their inference costs are dominated by GPU energy. Unlike traditional GPU workloads, LLM inference has two stages with different characteristics: the prefill phase, which is latency sensitive and scales quadratically with prompt length, and the decode phase, which progresses token by token with unpredictable length. Current GPU power governors (for example, NVIDIA's default) overlook this asymmetry and treat both stages uniformly. The result is mismatched voltage and frequency settings, head-of-line blocking, and excessive energy use. We introduce GreenLLM, an SLO-aware serving framework that minimizes GPU energy by explicitly separating prefill and decode control. At ingress, requests are routed into length-based queues so short prompts avoid head-of-line blocking and TTFT improves. For prefill, GreenLLM collects short traces on a GPU node, fits compact latency-power models over SM frequency, and solves a queueing-aware optimization to select energy-minimal clocks per class. During decode, a lightweight dual-loop controller tracks throughput (tokens per second) and adjusts frequency with hysteretic, fine-grained steps to hold tail TBT within target bounds. Across Alibaba and Azure trace replays, GreenLLM reduces total energy by up to 34 percent versus the default DVFS baseline, with no loss of throughput and with less than 3.5 percent additional SLO violations.
format Preprint
id arxiv_https___arxiv_org_abs_2508_16449
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle GreenLLM: SLO-Aware Dynamic Frequency Scaling for Energy-Efficient LLM Serving
Liu, Qunyou
Huang, Darong
Zapater, Marina
Atienza, David
Performance
Large Language Models (LLMs) are becoming the backbone of modern cloud services, yet their inference costs are dominated by GPU energy. Unlike traditional GPU workloads, LLM inference has two stages with different characteristics: the prefill phase, which is latency sensitive and scales quadratically with prompt length, and the decode phase, which progresses token by token with unpredictable length. Current GPU power governors (for example, NVIDIA's default) overlook this asymmetry and treat both stages uniformly. The result is mismatched voltage and frequency settings, head-of-line blocking, and excessive energy use. We introduce GreenLLM, an SLO-aware serving framework that minimizes GPU energy by explicitly separating prefill and decode control. At ingress, requests are routed into length-based queues so short prompts avoid head-of-line blocking and TTFT improves. For prefill, GreenLLM collects short traces on a GPU node, fits compact latency-power models over SM frequency, and solves a queueing-aware optimization to select energy-minimal clocks per class. During decode, a lightweight dual-loop controller tracks throughput (tokens per second) and adjusts frequency with hysteretic, fine-grained steps to hold tail TBT within target bounds. Across Alibaba and Azure trace replays, GreenLLM reduces total energy by up to 34 percent versus the default DVFS baseline, with no loss of throughput and with less than 3.5 percent additional SLO violations.
title GreenLLM: SLO-Aware Dynamic Frequency Scaling for Energy-Efficient LLM Serving
topic Performance
url https://arxiv.org/abs/2508.16449