Fast hydrological model calibration based on the heterogeneous parallel computing accelerated shuffled complex evolution method

Kan Guangyuan; He Xiaoyan; Ding Liuqian; Li Jiren; Hong Yang; Zuo Depeng; Ren Minglei; Lei Tianjie; Liang Ke

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Fast hydrological model calibration based on the heterogeneous parallel computing accelerated shuffled complex evolution method

机译：基于异构平行计算加速洗机复合复合体校准的快速水文模型校准

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摘要

Hydrological model calibration has been a hot issue for decades. The shuffled complex evolution method developed at the University of Arizona (SCE-UA) has been proved to be an effective and robust optimization approach. However, its computational efficiency deteriorates significantly when the amount of hydrometeorological data increases. In recent years, the rise of heterogeneous parallel computing has brought hope for the acceleration of hydrological model calibration. This study proposed a parallel SCE-UA method and applied it to the calibration of a watershed rainfall-runoff model, the Xinanjiang model. The parallel method was implemented on heterogeneous computing systems using OpenMP and CUDA. Performance testing and sensitivity analysis were carried out to verify its correctness and efficiency. Comparison results indicated that heterogeneous parallel computing-accelerated SCE-UA converged much more quickly than the original serial version and possessed satisfactory accuracy and stability for the task of fast hydrological model calibration.

机译：几十年来，水文模型校准是一个很热的问题。在亚利桑那州大学（SCE-UA）开发的洗牌复杂演化方法已被证明是一种有效且坚固的优化方法。然而，当水流变数据量增加时，其计算效率显着恶化。近年来，异构平行计算的兴起为水文模型校准加速来带来了希望。本研究提出了一种平行的SCE-UA方法，并将其应用于新安江模型的流域降雨径流模型的校准。使用OpenMP和CUDA的异构计算系统实现了并行方法。进行性能测试和敏感性分析以验证其正确性和效率。比较结果表明，异构并行计算加速的SCE-UA比原来的串行版本更快地融合，并且具有快速水文模型校准任务的令人满意的精度和稳定性。

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来源
《Engineering Optimization》 |2018年第3期|共14页
作者
Kan Guangyuan; He Xiaoyan; Ding Liuqian; Li Jiren; Hong Yang; Zuo Depeng; Ren Minglei; Lei Tianjie; Liang Ke;
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作者单位

Minist Water Resources China Inst Water Resources &

Hydropower Res Res Ctr Flood &

Drought Disaster Reduct State Key Lab Simulat &

Regulat Water Cycle River Beijing Peoples R China;

Minist Water Resources China Inst Water Resources &

Hydropower Res Res Ctr Flood &

Drought Disaster Reduct State Key Lab Simulat &

Regulat Water Cycle River Beijing Peoples R China;

Minist Water Resources China Inst Water Resources &

Hydropower Res Res Ctr Flood &

Drought Disaster Reduct State Key Lab Simulat &

Regulat Water Cycle River Beijing Peoples R China;

Minist Water Resources China Inst Water Resources &

Hydropower Res Res Ctr Flood &

Drought Disaster Reduct State Key Lab Simulat &

Regulat Water Cycle River Beijing Peoples R China;

Tsinghua Univ Dept Hydraul Engn State Key Lab Hydrosci &

Engn Beijing Peoples R China;

Beijing Normal Univ Coll Water Sci Beijing Peoples R China;

Minist Water Resources China Inst Water Resources &

Hydropower Res Res Ctr Flood &

Drought Disaster Reduct State Key Lab Simulat &

Regulat Water Cycle River Beijing Peoples R China;

Minist Water Resources China Inst Water Resources &

Hydropower Res Res Ctr Flood &

Drought Disaster Reduct State Key Lab Simulat &

Regulat Water Cycle River Beijing Peoples R China;

Hohai Univ Coll Hydrol &

Water Resources Nanjing Jiangsu Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类工程数学;
关键词
Model calibration; Xinanjiang model; heterogeneous parallel computing; OpenMP; CUDA;

机译：model calibration;ξ南疆model;heterogeneous parallel computing;open MP;CUDA;

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专利

1. Fast hydrological model calibration based on the heterogeneous parallel computing accelerated shuffled complex evolution method [J] . Kan Guangyuan, He Xiaoyan, Ding Liuqian, Engineering Optimization . 2018,第1a3期

机译：基于异构平行计算加速洗机复合复合体校准的快速水文模型校准
2. Improving the shuffled complex evolution scheme for optimization of complex nonlinear hydrological systems: Application to the calibration of the Sacramento soil-moisture accounting model [J] . Wei Chu, Xiaogang Gao, Soroosh Sorooshian Water resources research . 2010,第9期

机译：改进混洗的复杂演化方案以优化复杂的非线性水文系统：在萨克拉曼多土壤水分核算模型的标定中的应用
3. Automatic calibration a hydrological model using a master-slave swarms shuffling evolution algorithm based on self-adaptive particle swarm optimization [J] . Yan Jiang, Xuyong Li, Chongchao Huang Expert Systems with Application . 2013,第2期

机译：基于自适应粒子群算法的主从混合改组进化算法自动标定水文模型
4. Parallel Shuffled Complex Evolution Algorithm for Calibration of Hydrological Models [C] . Vimal Sharma, David A. Swayne, David Lam, Annual High Performance Computing Symposium . 2008

机译：水文模型校准的平行洗机复杂演化算法
5. Accelerating population balance model - based particulate process simulations via parallel computing. [D] . Prakash, Anuj Varghese. 2013

机译：通过并行计算加速基于人口平衡模型的颗粒过程模拟。
6. The FLAME-accelerated signalling tool (FaST) for facile parallelisation of flexible agent-based models of cell signalling [O] . Gavin Fullstone, Cristiano Guttà, Amatus Beyer, 2020

机译：FLAME加速信号工具（FaST）用于基于灵活代理的细胞信号模型的轻松并行化
7. Improving the shuffled complex evolution scheme for optimization of complex nonlinear hydrological systems: Application to the calibration of the Sacramento soil-moisture accounting model [O] . Wei Chu, Xiaogang Gao, Soroosh Sorooshian 2010

机译：改善复杂非线性水文系统优化的洗机复合体演化方案：应用于萨克拉门托土壤水分算模范的校准

Fast hydrological model calibration based on the heterogeneous parallel computing accelerated shuffled complex evolution method

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