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引用次数: 1
摘要
高性能计算(HPC)在很大程度上依赖于用于实现它的系统的整体性能和能力。本研究的目的是在Texas State University的LEAP Cluster上执行几个基准测试,并分析从这些测试中收集的数据,以确定性能模型。用于收集这些数据的测试将是各种基准测试程序,如高性能Linpack (HPL)、IOZone和CacheBench。对每个基准的性能评估分析采用缩放二阶线性多项式回归建模,用于观察工作负载变化时的性能。分析完成后,将模型与在特定硬件设备上运行基准测试获得的数据进行比较。模型表明,比例系数有助于描述每个硬件模型的性能。正在进行的工作是继续寻找可伸缩的回归方法,以改进性能建模的适合性。
An Initial Scale-Factor Linear Polynomial Regression Model Approach for Hardware Performance on an HPC Compute-Node
High-Performance Computing (HPC) relies heavily on the overall performance and capabilities of the system used to implement it. The purpose of this research is to perform several benchmarks on Texas State University's LEAP Cluster and analyze the data collected from those tests to determine performance models. The tests used to collect this data will be various benchmarking programs such as High-Performance Linpack (HPL), IOZone, and CacheBench. Analysis of the performance evaluation for each benchmark was modeled with a scaled second-order linear polynomial regression and used to observe the performance when the workload was changed. Once the analysis was completed, the models were compared to the data obtained from the benchmark runs on the specific hardware devices. The models showed that scaling coefficients help to describe the performance of each hardware model. The work-in-progress is to continue to find scalable regression approaches that can improve the performance modeling fit.
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