Lumos: Efficient Performance Modeling and Estimation for Large-scale LLM Training
April 12, 2025 Β· Declared Dead Β· π Conference on Machine Learning and Systems
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Authors
Mingyu Liang, Hiwot Tadese Kassa, Wenyin Fu, Brian Coutinho, Louis Feng, Christina Delimitrou
arXiv ID
2504.09307
Category
cs.DC: Distributed Computing
Cross-listed
cs.AI
Citations
3
Venue
Conference on Machine Learning and Systems
Last Checked
4 months ago
Abstract
Training LLMs in distributed environments presents significant challenges due to the complexity of model execution, deployment systems, and the vast space of configurable strategies. Although various optimization techniques exist, achieving high efficiency in practice remains difficult. Accurate performance models that effectively characterize and predict a model's behavior are essential for guiding optimization efforts and system-level studies. We propose Lumos, a trace-driven performance modeling and estimation toolkit for large-scale LLM training, designed to accurately capture and predict the execution behaviors of modern LLMs. We evaluate Lumos on a production ML cluster with up to 512 NVIDIA H100 GPUs using various GPT-3 variants, demonstrating that it can replay execution time with an average error of just 3.3%, along with other runtime details, across different models and configurations. Additionally, we validate its ability to estimate performance for new setups from existing traces, facilitating efficient exploration of model and deployment configurations.
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