Towards an RCC-based Accelerator for Computational Fluid Dynamics Applications

机译：迈向基于RCC的计算流体动力学应用加速器

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Computational Fluid Dynamics (CFD) applications are a critical tool in designing sophisticated mechanical systems such as jet engines and gas turbines. CFD applications use intensive floating-point calculations and are typically run on High-Performance Computing (HPC) systems. We analyze three of the most compute intensive functions (Euler, Viscous, and Smoothing algorithms) and develop a baseline system architecture for accelerating these Junctions in RCC hardware. We then present detailed design data for the most compute intensive (Euler) function. Based on this analysis, we show that an RCC-based CFD accelerator - compared to conventional processors - promises dramatic improvement in sustained compute speed at better price-performance ratios coupled with much lower overall power consumption.

机译：计算流体动力学（CFD）应用程序是设计复杂机械系统（如喷气发动机和燃气轮机）的关键工具。 CFD应用程序使用密集的浮点计算，并且通常在高性能计算（HPC）系统上运行。我们分析了三个计算最密集的函数（Euler，Viscous和Smoothing算法），并开发了基准系统体系结构来加速RCC硬件中的这些连接。然后，我们介绍最计算密集型（Euler）功能的详细设计数据。根据此分析，我们表明，与传统处理器相比，基于RCC的CFD加速器有望以更高的性价比来显着提高持续计算速度，并降低总功耗。

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《International Conference on Engineering of Reconfigurable Systems and Algorithms(ERSA'03); 20030623-20030626; Las Vegas,NV; US》|2003年|P.222-231|共10页
会议地点 Las Vegas NV(US);Las Vegas NV(US)
作者
William D. Smith; Austars R. Schnore;
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作者单位

Computational Systems Lab GE Global Research Niskayuna, NY, U.S.A.;

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原文格式 PDF
正文语种 eng
中图分类一般性问题;
关键词
computational fluid dynamics; re-configurable computing applications;

机译：计算流体动力学；可重构计算应用;

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专利

1. Towards an RCC-Based Accelerator for Computational Fluid Dynamics Applications [J] . WILLIAM D. SMITH, AUSTARS R. SCHNORE Journal of supercomputing . 2004,第3期

机译：迈向基于RCC的计算流体动力学应用加速器
2. GiMMiK-Generating bespoke matrix multiplication kernels for accelerators: Application to high-order Computational Fluid Dynamics [J] . Wozniak Bartosz D., Witherden Freddie D., Russell Francis P., Computer physics communications . 2016,第Null期

机译：GiMMiK生成用于加速器的定制矩阵乘法内核：在高阶计算流体动力学中的应用
3. Computational fluid dynamics applications to improve crop production systems. (Special Section: Computational fluid mechanics in agro-food industry.) [J] . Bartzanas T., Kacira M., Zhu H., Computers and Electronics in Agriculture . 2013,第Null期

机译：计算流体动力学应用改进作物生产系统。（特别部分：农业食品工业计算流体力学。）
4. Towards an RCC-based Accelerator for Computational Fluid Dynamics Applications [C] . William D. Smith, Austars R. Schnore International conference on engineering of reconfigurable systems and algorithms . 2003

机译：朝着计算流体动力学应用的基于RCC的加速器
5. Computational Fluid Dynamic Modeling of a Baffled-Tube Ram Accelerator with Inclined Baffles [D] . Dumas, Jesse 2018

机译：带有折流板的折流板柱塞式加速器的计算流体动力学建模
6. Computational Fluid Dynamics Modelling of Microfluidic Channel for Dielectrophoretic BioMEMS Application [O] . Wan Shi Low, Nahrizul Adib Kadri, Wan Abu Bakar bin Wan Abas -1

机译：介电生物MEMS应用微流控通道的计算流体动力学建模
7. GiMMiK—Generating bespoke matrix multiplication kernels for accelerators: Application to high-order Computational Fluid Dynamics [O] . Wozniak Bartosz D., Witherden Freddie D., Russell Francis P., 2016

机译：GiMMiK-生成用于加速器的定制矩阵乘法内核：在高阶计算流体动力学中的应用
8. AGARD Fluid Dynamics Panel Symposium on Applications of Computational Fluid Dynamics in Aeronautics:Proceedings of a Symposium Held at Aix-en-Provence,France on April 7-10, 1986. [R] . mccroskey, w. j. 1986

机译：aGaRD流体动力学研讨会计算流体动力学在航空领域的应用：1986年4月7日至10日在法国普罗旺斯地区艾克斯举行的研讨会论文集。

Towards an RCC-based Accelerator for Computational Fluid Dynamics Applications

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