Staged deployment of interactive multi-application HPC workflows

2019 International Conference on High Performance Computing & Simulation (HPCS) Pub Date : 2019-07-01 DOI:10.1109/HPCS48598.2019.9188104

W. Klijn, Sandra Díaz-Pier, A. Morrison, A. Peyser

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引用次数: 2

Abstract

Running scientific workflows on a supercomputer can be a daunting task for a scientific domain specialist. Workflow management solutions (WMS) are a standard method for reducing the complexity of application deployment on high performance computing (HPC) infrastructure. We introduce the design for a middleware system that extends and combines the functionality from existing solutions in order to create a high-level, staged usercentric operation/deployment model. This design addresses the requirements of several use cases in the life sciences, with a focus on neuroscience. In this manuscript we focus on two use cases: 1) three coupled neuronal simulators (for three different space/time scales) with in-transit visualization and 2) a closed-loop workflow optimized by machine learning, coupling a robot with a neural network simulation. We provide a detailed overview of the application-integrated monitoring in relationship with the HPC job. We present here a novel usage model for large scale interactive multi-application workflows running on HPC systems which aims at reducing the complexity of deployment and execution, thus enabling new science.

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交互式多应用程序HPC工作流的阶段部署

对于科学领域的专家来说，在超级计算机上运行科学工作流程可能是一项艰巨的任务。工作流管理解决方案(WMS)是降低在高性能计算(HPC)基础设施上部署应用程序复杂性的标准方法。我们介绍了一个中间件系统的设计，它扩展和组合了现有解决方案的功能，以创建一个高级的、分阶段的、以用户为中心的操作/部署模型。该设计解决了生命科学中几个用例的需求，重点是神经科学。在本文中，我们关注两个用例:1)三个耦合神经元模拟器(用于三个不同的空间/时间尺度)，具有运输可视化;2)通过机器学习优化的闭环工作流，将机器人与神经网络仿真耦合在一起。我们提供了与HPC作业相关的应用程序集成监控的详细概述。我们在这里提出了一个新的使用模型，用于运行在高性能计算系统上的大规模交互式多应用工作流程，旨在降低部署和执行的复杂性，从而实现新的科学。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 International Conference on High Performance Computing & Simulation (HPCS)

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