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Assessing the carbon footprint of language models: Towards sustainability in AI

Fleur Jeanquartier, Claire Jean-Quartier, Paul Rieder, Vedad Misirlić, Christian Pasero, Richard Hohensinner, Heimo Müller, Andreas Holzinger

2025Resources Conservation and Recycling11 citationsDOIOpen Access PDF

Abstract

As language models gain prominence for their generative capabilities, their growing carbon footprint must be critically addressed in the context of the climate crisis. This paper aims to increase transparency by showcasing a comparison of emissions from training – particularly of small language models – and inference. We therefore scan existing benchmark data, investigate two representative models, TinyLlama and nanoGPT, evaluating energy consumption during training and task performance. We also reflect upon the specificity of use cases, model architecture, hardware choices, and their influence on efficiency and sustainability. Our findings indicate that existing benchmarks and publications rarely report energy consumption, creating a significant information gap, and urging for a harmonized evaluation framework that integrates standardized sustainability aspects. Despite this, small language models show potential for selected application scenarios where resource efficiency is key. To address the challenges of fair and sustainable AI, we emphasize the importance of ongoing documentation efforts. We also encourage model developers and providers to communicate energy usage data more openly. Transparent reporting supports responsible model selection and helps align AI development with climate-conscious technology practices. • Energy efficiency comparison of small language models towards sustainable AI. • Novel benchmarking of energy efficiency across diverse hardware setups. • High-performance GPUs are not necessarily energy-efficient. • Current AI benchmarks often omit critical energy consumption metrics. • Small language models offer significant promise for sustainable applications.

Topics & Concepts

BenchmarkingSustainabilityEfficient energy useCarbon footprintComputer scienceEnergy consumptionContext (archaeology)DocumentationTransparency (behavior)Environmental economicsSustainable developmentResource efficiencyToolboxConsumption (sociology)Language modelBenchmark (surveying)Resource (disambiguation)Green computingEnergy conservationGreenhouse gasBest practiceEnergy policyProcess managementEnergy modelingEnvironmental resource managementGreen IT and SustainabilityMachine Learning in Materials ScienceBig Data and Digital Economy
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