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Developing Distributed High-performance Computing Capabilities of an Open Science Platform for Robust Epidemic

Nicholson Collier1, Justin M Wozniak2, Abby Stevens1

  • 1Decision and Infrastructure Sciences, Argonne National Laboratory, Lemont, IL, U.S.A.

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Summary
This summary is machine-generated.

The COVID-19 pandemic highlighted computing challenges for researchers. OSPREY, an open science platform, addresses these gaps by enabling robust epidemic analysis using high-performance computing (HPC).

Keywords:
HPC workflowscomputational epidemiologyhigh-performance computingopen science platform

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Area of Science:

  • Computational epidemiology
  • Scientific computing
  • Public health informatics

Background:

  • The COVID-19 pandemic accelerated scientific collaboration but exposed limitations in utilizing advanced computing systems.
  • Researchers faced challenges in accessing scalable computing, adapting models, sharing data, and ensuring result reproducibility.

Purpose of the Study:

  • To present the goals, requirements, and initial implementation of OSPREY, an open science platform designed for robust epidemic analysis.
  • To address identified capability gaps in applying high-performance computing (HPC) to model complex social systems.

Main Methods:

  • Developed OSPREY, an open science platform featuring an integrated, algorithm-driven HPC workflow architecture.
  • Implemented federated HPC resource coordination with secure, automated access.
  • Incorporated scalable and fault-tolerant task execution, an asynchronous API, a multi-language approach, and efficient wide-area data management.

Main Results:

  • Demonstrated a prototype implementation of OSPREY.
  • Showcased the platform's ability to coordinate tasks across federated HPC resources.
  • Validated scalable, fault-tolerant execution and efficient data management for epidemic analysis.

Conclusions:

  • OSPREY provides a robust solution for epidemic analysis by integrating advanced computing capabilities.
  • The platform facilitates collaboration and overcomes computational barriers faced during public health crises.
  • Open-source availability of OSPREY code promotes further development and application in scientific research.