LLMs have transformed NLP, yet deploying them on edge devices poses great carbon challenges. Prior estimators remain incomplete, neglecting peripheral energy use, distinct prefill/decode behaviors, and SoC design complexity. This paper presents CO2-Meter, a unified framework for estimating operational and embodied carbon in LLM edge inference. Contributions include: (1) equation-based peripheral energy models and datasets; (2) a GNN-based predictor with phase-specific LLM energy data; (3) a unit-level embodied carbon model for SoC bottleneck analysis; and (4) validation showing superior accuracy over prior methods. Case studies show CO2-Meter's effectiveness in identifying carbon hotspots and guiding sustainable LLM design on edge platforms. Source code: https://github.com/fuzhenxiao/CO2-Meter
CO2-Meter: A Comprehensive Carbon Footprint Estimator for LLMs on Edge Devices
A unified framework, CO2-Meter, estimates operational and embodied carbon in LLM edge inference with improved accuracy, identifying carbon hotspots and guiding sustainable design.
- Year
- 2025
- Venue
- arXiv 2025
- Authors
- 3
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- Abstract onlyARXIV-DEFAULT
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- arxiv.org/abs/2511.08575ARXIV-DEFAULT
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