NIF点火实验的HYDRA UQ工作流

2016 Second Workshop on In Situ Infrastructures for Enabling Extreme-Scale Analysis and Visualization (ISAV) Pub Date : 2016-11-13 DOI:10.1109/ISAV.2016.6

S. Langer, B. Spears, J. Peterson, J. Field, R. Nora, S. Brandon

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引用次数: 13

摘要

我们描述了使用我们的在轨工作流程基础设施来运行HYDRA[1][2]惯性约束聚变(ICF)模拟的集合，以支持使用国家点火设施(NIF)激光进行的实验。我们讨论了如何使用我们的方法来深入了解NIF实验。我们在Trinity Cray XC40系统上运行了超过6万次二维HYDRA模拟，并在8周内生成了超过10亿张合成x射线图像。在HYDRA 20年的历史中，这些代表了所有2D模拟的大部分。我们实现了一个生产者-消费者过境框架，以尽量减少用于生成合成x射线图像的磁盘空间量。我们描述了我们的基础设施和方法，并探讨了我们遇到的扩展和性能问题。我们的目标是帮助其他人计划大型集成模拟，并讨论对系统软件的更改，这些更改将使运行大型集成更容易。

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A HYDRA UQ Workflow for NIF Ignition Experiments

We describe the use of our in-transit workflow infrastructure to run an ensemble of HYDRA [1] [2] Inertial Confinement Fusion (ICF) simulations in support of experiments conducted using the National Ignition Facility (NIF) laser. We discuss how our approach can be used to gain deeper insight into NIF experiments.We ran over 60,000 2D HYDRA simulations and generated over a billion synthetic x-ray images during 8 weeks on the Trinity Cray XC40 system. These represent a majority of all 2D simulations run during HYDRA's 20 year history. We implemented a producer-consumer in-transit framework to minimize the amount of disk space used to generate synthetic x-ray images. We describe our infrastructure and approach, and explore the scaling and performance issues we ran into. Our goal is to help others plan for large ensemble simulations and discuss changes to system software that would make it easier to run large ensembles.

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来源期刊

2016 Second Workshop on In Situ Infrastructures for Enabling Extreme-Scale Analysis and Visualization (ISAV)

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