High order finite volume methods on wavelet-adapted grids with local time-stepping on multicore architectures for the simulation of shock-bubble interactions

Hejazialhosseini B.; Rossinelli D.; Bergdorf M.; Koumoutsakos P.

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High order finite volume methods on wavelet-adapted grids with local time-stepping on multicore architectures for the simulation of shock-bubble interactions

机译：小波自适应网格上的高阶有限体积方法，在多核体系结构上具有局部时间步长，以模拟冲击气泡相互作用

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摘要

We present a space-time adaptive solver for single- and multi-phase compressible flows that couples average interpolating wavelets with high-order finite volume schemes. The solver introduces the concept of wavelet blocks, handles large jumps in resolution and employs local time-stepping for efficient time integration. We demonstrate that the inherently sequential wavelet-based adaptivity can be implemented efficiently in multicore computer architectures using task-based parallelism and introducing the concept of wavelet blocks. We validate our computational method on a number of benchmark problems and we present simulations of shock-bubble interaction at different Mach numbers, demonstrating the accuracy and computational performance of the method.

机译：我们提出了一种用于单相和多相可压缩流的时空自适应求解器，该求解器将平均插值小波与高阶有限体积方案耦合在一起。求解器引入了小波块的概念，处理了分辨率的大跃变，并采用了本地时间步长进行有效的时间积分。我们证明，使用基于任务的并行性并引入小波块的概念，可以在多核计算机体系结构中有效地实现固有的基于序列小波的自适应性。我们在许多基准问题上验证了我们的计算方法，并给出了在不同马赫数下的冲击气泡相互作用的仿真，证明了该方法的准确性和计算性能。

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《Journal of Computational Physics》 |2010年第22期|共20页
作者
Hejazialhosseini B.; Rossinelli D.; Bergdorf M.; Koumoutsakos P.;
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正文语种 eng
中图分类数学物理方法;
关键词
Adapted grid; Local time-stepping; Multicore architectures; Multiphase flow; Wavelets;

机译：自适应网格;本地时步;多核架构;多相流;小波;

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1. High order finite volume methods on wavelet-adapted grids with local time-stepping on multicore architectures for the simulation of shock-bubble interactions [J] . Hejazialhosseini B., Rossinelli D., Bergdorf M., Journal of Computational Physics . 2010,第22期

机译：小波自适应网格上的高阶有限体积方法，在多核体系结构上具有局部时间步长，以模拟冲击气泡相互作用
2. A high-resolution method for compressible two-fluid flows and simulation of three-dimensional shock-bubble interactions [J] . J. G. Zheng, T. S. Lee International Journal for Numerical Methods in Fluids . 2013,第2期

机译：一种高分辨率对压缩两种流体流量的高分辨率方法和三维休克泡相互作用的模拟
3. A high order least square-based finite difference-finite volume method with lattice Boltzmann flux solver for simulation of incompressible flows on unstructured grids [J] . Liu Y. Y., Shu C., Zhang H. W., Journal of Computational Physics . 2020,第1期

机译：具有晶格Boltzmann助焊剂求解器的高级别最小二乘的有限差分体积法，用于在非结构化网格上模拟不可压缩流动
4. NUMERICAL SIMULATIONS OF SHOCK-BUBBLE INTERACTIONS USING AN IMPROVED GHOST FLUID METHOD [C] . Hiroyuki TAKAHIRA, Shinya YUASA ASME(American Society of Mechanical Engineers) Fluids Engineering Division Summer Conference(FEDSM2005) vol.1 pt.A; 20050619-23; Houston,TX(US) . 2005

机译：改进的Ghost流体法数值模拟冲击-气泡相互作用
5. Local Time-Stepping for surface/ground water interactions using MODFLOW-LGR with multiple-area grid refinement. [D] . Tillery, Suzanne. 2008

机译：使用MODFLOW-LGR和多区域网格细化功能进行地表/地下水相互作用的局部时间步长。
6. Comparison of Finite Difference and Finite Volume Simulations for a Sc-Drying Mass Transport Model [O] . Ilka Selmer, Patricio Farrell, Irina Smirnova, 2020

机译：用于SC干燥质量运输模型的有限差分和有限体积模拟的比较
7. A finite-volume/level-set interface capturing method for unstructured grids: Simulations of bubbles rising through viscous liquids [O] . Balcázar Arciniega, Néstor, Jofre Cruanyes, Lluís, Lehmkuhl Barba, Oriol, 2014

机译：非结构网格的有限体积/水平集界面捕获方法：通过粘性液体上升的气泡模拟

High order finite volume methods on wavelet-adapted grids with local time-stepping on multicore architectures for the simulation of shock-bubble interactions

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