Benjamin Mayer scite author profile

Computational science is well established as the third pillar of scientific discovery and is on par with experimentation and theory. However, as we move closer toward the ability to execute exascale calculations and process the ensuing extreme-scale amounts of data produced by both experiments and computations alike, the complexity of managing the compute and data analysis tasks has grown beyond the capabilities of domain scientists. Thus, workflow management systems are absolutely necessary to ensure current and future scientific discoveries. A key research question for these workflow management systems concerns the performance optimization of complex calculation and data analysis tasks. The central contribution of this article is a description of the PANORAMA approach for modeling and diagnosing the run-time performance of complex scientific workflows. This approach integrates extreme-scale systems testbed experimentation, structured analytical modeling, and parallel systems simulation into a comprehensive workflow framework called Pegasus for understanding and improving the overall performance of complex scientific workflows.

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Daymet: Daily Surface Weather Data on a 1-km Grid for North America, Version 2

Thornton

Thornton²,

Mayer³

et al. 2014

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Benjamin Mayer

Daymet: Daily Surface Weather Data on a 1-km Grid for North America, Version 3

A Dashboard for Microservice Monitoring and Management

An Approach to Extract the Architecture of Microservice-Based Software Systems

PANORAMA: An approach to performance modeling and diagnosis of extreme-scale workflows

Daymet: Daily Surface Weather Data on a 1-km Grid for North America, Version 2

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