Charlene Yang scite author profile

Summary The Roofline performance model provides an intuitive and insightful approach to identifying performance bottlenecks and guiding performance optimization. In preparation for the next‐generation supercomputer Perlmutter at NERSC, this paper presents a methodology to construct a hierarchical Roofline on NVIDIA GPUs and extends it to support reduced precision and Tensor Cores. The hierarchical Roofline incorporates L1, L2, device memory, and system memory bandwidths into one single figure, and it offers more profound insights into performance analysis than the traditional DRAM‐only Roofline. We use our Roofline methodology to analyze three proxy applications: GPP from BerkeleyGW, HPGMG from AMReX, and conv2d from TensorFlow. In doing so, we demonstrate the ability of our methodology to readily understand various aspects of performance and performance bottlenecks on NVIDIA GPUs and motivate code optimizations.

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An Empirical Roofline Methodology for Quantitatively Assessing Performance Portability

Yang¹,

Gayatri²,

Kurth³

et al. 2018

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Accelerating Large-Scale Excited-State GW Calculations on Leadership HPC Systems

Ben

Yang

et al. 2020

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A Case Study for Performance Portability Using OpenMP 4.5

Gayatri

Yang

Kurth

et al. 2019

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Charlene Yang

Hierarchical Roofline analysis for GPUs: Accelerating performance optimization for the NERSC‐9 Perlmutter system

An Empirical Roofline Methodology for Quantitatively Assessing Performance Portability

Accelerating Large-Scale Excited-State GW Calculations on Leadership HPC Systems

A Case Study for Performance Portability Using OpenMP 4.5

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