Data analysis of cyber-activity within high performance computing environments

L. Ji, S. Kolhe, A. Clark
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引用次数: 2

Abstract

High performance computing (HPC) environments are becoming the norm for daily use. However, the resilience of these systems is questionable because their complex infrastructure makes troubleshooting both the location and cause of failures extremely difficult. These same reasons make HPCs prone to virulent activity. This paper presents a data analysis framework for analyzing ranges of failure observations as a result of malicious activity. Taking into account the internal reliability infrastructure, data network extrapolation is performed as a preprocessing tool that accurately calculates the normalized failure rates. Next, nonlinear regression is performed on the spectrum of observations taking into account the magnitude, growth rate, and midpoint behavior. Additionally, influence analysis is performed that considers outlying observations. The empirical results using a simulated supercomputing modeling and simulation framework show improvement, in terms of characterization performance, where approximately 91% of the nodes were properly characterized. The results of this work can be applied to develop robust task-scheduling frameworks within supercomputing architectures.
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高性能计算环境中网络活动的数据分析
高性能计算(HPC)环境正在成为日常使用的标准。然而,这些系统的弹性是值得怀疑的,因为它们复杂的基础设施使得故障的位置和原因的故障排除非常困难。同样的原因使HPCs易于产生毒性活动。本文提出了一个数据分析框架,用于分析恶意活动导致的故障观测范围。考虑到内部可靠性基础设施,将数据网络外推作为一种预处理工具来执行,以准确计算归一化故障率。接下来,考虑到幅度、增长率和中点行为,对观测谱进行非线性回归。此外,还进行了考虑外围观测值的影响分析。使用模拟的超级计算建模和仿真框架的经验结果显示,在表征性能方面有所改善,其中大约91%的节点被正确表征。这项工作的结果可以应用于在超级计算架构中开发健壮的任务调度框架。
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