CompPow: A Case for Component-level GPU Power Management
摘要
The ever increasing demand for ML-driven intelligence in a wide spectrum of domains has led to ubiquity of GPUs. At the same time, GPUs are notorious for their power consumption needs and often dominate power allocation in a typical ML datacenter. While datacenter-level power optimizations which focus on collection of GPUs are promising, in this work, we take a different tack -- namely, we take a closer look at power consumption inside a GPU. Specifically, as modern GPUs are comprised of integrated components, we make a case for component-awareness, termed CompPow in this work, for improved power management in modern GPUs. We demonstrate for a variety of ML operations and execution patterns, CompPow has the potential to deliver higher energy efficiency (10%) and even improved performance (5%). We conclude with recommendations on how component-aware software-hardware co-design can extract additional energy efficiency from modern GPUs.
引用
@article{arxiv.2605.21847,
title = {CompPow: A Case for Component-level GPU Power Management},
author = {Shaizeen Aga and Mohamed Assem Ibrahim},
journal= {arXiv preprint arXiv:2605.21847},
year = {2026}
}