Employing OpenCL to Accelerate Ab Initio Calculations on Graphics Processing Units

Kussmann Joerg; Ochsenfeld Christian

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Employing OpenCL to Accelerate Ab Initio Calculations on Graphics Processing Units

机译：采用OpenCL在图形处理单元上加速AB Initio计算

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We present an extension of our graphics processing units (GPU)-accelerated quantum chemistry package to employ OpenCL compute kernels, which can be executed on a wide range of computing devices like CPUs, Intel Xeon Phi, and AMD GPUs. Here, we focus on the use of AMD GPUs and discuss differences as compared to CUDA-based calculations on NVIDIA GPUs. First illustrative timings are presented for hybrid density functional theory calculations using serial as well as parallel compute environments. The results show that AMD GPUs are as fast or faster than comparable NVIDIA GPUs and provide a viable alternative for quantum chemical applications.

机译：我们介绍了我们的图形处理单元（GPU） - 站式量子化学包的扩展，以采用OpenCL计算内核，可以在CPU，英特尔Xeon Phi和AMD GPU等各种计算设备上执行。在这里，我们专注于使用AMD GPU，并与NVIDIA GPU的基于CUDA的计算相比讨论差异。使用串行和并行计算环境来提出用于混合密度函数理论计算的第一说明性定时。结果表明，AMD GPU比相当的NVIDIA GPU快速或更快，并为量子化学应用提供可行的替代方案。

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《Journal of chemical theory and computation: JCTC》 |2017年第6期|共5页
作者
Kussmann Joerg; Ochsenfeld Christian;
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Univ Munich LMU Dept Chem Chair Theoret Chem Butenandtstr 7 D-81377 Munich Germany;

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原文格式 PDF
正文语种 eng
中图分类化学键的量子力学理论;化学;
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1. Employing OpenCL to Accelerate Ab Initio Calculations on Graphics Processing Units [J] . Kussmann Joerg, Ochsenfeld Christian Journal of chemical theory and computation: JCTC . 2017,第6期

机译：采用OpenCL在图形处理单元上加速AB Initio计算
2. Practical acceleration of direct whole-core calculation employing graphics processing units [J] . Choi Namjae, Kang Junsu, Lee Han Gyu, Progress in Nuclear Energy . 2021,第Mara期

机译：实际加速直接全核计算采用图形处理单元
3. OpenCL performance portability for general-purpose computation on graphics processor units: an exploration on cryptographic primitives [J] . Giovanni Agosta, Alessandro Barenghi, Alessandro Di Federico, Concurrency, practice and experience . 2015,第14期

机译：用于图形处理器单元上通用计算的OpenCL性能可移植性：对密码原语的探索
4. Accelerate numerical diffusion solver of 2D multi-scale and multi-resolution agent-based brain cancer model by employing graphics processing unit technology [C] . Beini Jiang, Allan Struthers, Le Zhang, International Conference on Bioinformatics Computational Biology . 2011

机译：通过采用图形处理单元技术加速2D多尺度和多分辨率代理脑癌模型的数值扩散求解器
5. Accelerating Natural Language Processing Algorithms Using Graphics Processing Units [D] . Argueta , Arturo. 2019

机译：使用图形处理单元加速自然语言处理算法
6. Accelerating Electrostatic Surface Potential Calculation with Multiscale Approximation on Graphics Processing Units [O] . Ramu Anandakrishnan, Tom R. W. Scogland, Andrew T. Fenley, -1

机译：在图形处理单元上使用多尺度近似加速静电表面电位计算
7. Accelerated molecular dynamics force evaluation on graphics processing units for thermal conductivity calculations [O] . Fan, Zheyong, Siro, Topi, Harju, Ari 2013

机译：加速分子动力学评估图形处理用于热导率计算的单位
8. Accelerating Line of Sight Computation Using Graphics Processing Units [R] . Salomon, B. , Govindaraju, N. , Sud, A. , 2004

机译：使用图形处理单元加速视线计算

Employing OpenCL to Accelerate Ab Initio Calculations on Graphics Processing Units

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