Abstract
As HPC systems grow larger and more complex, characterizing the relationships between their different components and gaining insight on their behavior becomes difficult. In turn, this puts a burden on both system administrators and developers who aim at improving the efficiency and reliability of systems, algorithms and applications. Automated approaches capable of extracting a system’s behavior, as well as identifying anomalies and outliers, are necessary more than ever.In this work we discuss our exploratory study of Bayesian Gaussian mixture models, an unsupervised machine learning technique, to characterize the performance of an HPC system’s components, as well as to identify anomalies, based on sensor data. We propose an algorithmic framework for this purpose, implement it within the DCDB monitoring and operational data analytics system, and present several case studies carried out using data from a production HPC system.
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