Hardware Acceleration for Finite Element Electromagnetics: Efficient Sparse Matrix Floating-Point Computations with Field Programmable Gate Arrays

机译：有限元电磁器的硬件加速：具有现场可编程门阵列的高效稀疏矩阵浮点计算

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Custom hardware acceleration of electromagnetics computations leverages favorable industry trends, which indicate reconfigurable hardware devices such as field programmable gate arrays (FPGAs) may soon outperform general purpose CPUs. We present a new striping method for efficient sparse matrix-vector multiplication implemented in a deeply pipelined FPGA design. The effectiveness of the new method is illustrated for a representative set of finite element matrices.

机译：电磁自定义硬件加速度计算利用有利的行业趋势，指示可重新配置的硬件设备，如现场可编程门阵列（FPGA）可能很快优于通用CPU。我们提出了一种新的稀疏矩阵矢量乘法的新条带化方法，实现了深深流水线设计。示出了新方法的有效性，用于代表性的有限元矩阵。

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《Biennial IEEE Conference on Electromagnetic Field Computation》|2006年||共1页
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Yousef El Kurdi; Warren J. Gross; Dennis Giannacopoulos;
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中图分类 TM15-53;
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1. Hardware Acceleration for Finite-Element Electromagnetics: Efficient Sparse Matrix Floating-Point Computations With FPGAs [J] . Yousef El-Kurdi, Dennis Giannacopoulos, Warren J. Gross IEEE Transactions on Magnetics . 2007,第期

机译：有限元电磁的硬件加速：FPGA的高效稀疏矩阵浮点计算
2. An efficient sparse matrix format for accelerating regular expression matching on field-programmable gate arrays [J] . Jiang Lei, Tan Jianlong, Tang Qiu Security and Communications Networks . 2015,第1期

机译：一种有效的稀疏矩阵格式，用于加速现场可编程门阵列上的正则表达式匹配
3. The Use of Field-Programmable Gate Arrays for the Hardware Acceleration of Design Automation Tasks [J] . Neil J.Howard, Andrew M.Tyrrell, Nigel M.Allinson VLSI Design . 1996,第2期

机译：将现场可编程门阵列用于设计自动化任务的硬件加速
4. Hardware Acceleration for Finite Element Electromagnetics: Efficient Sparse Matrix Floating-Point Computations with Field Programmable Gate Arrays [C] . Yousef El Kurdi, Warren J. Gross, Dennis Giannacopoulos Biennial IEEE Conference on Electromagnetic Field Computation . 2006

机译：有限元电磁器的硬件加速：具有现场可编程门阵列的高效稀疏矩阵浮点计算
5. Constraint programming techniques for generating efficient hardware architectures for field programmable gate arrays. [D] . Shah, Atul Kumar. 2010

机译：约束编程技术，用于为现场可编程门阵列生成高效的硬件架构。
6. Gas Sensors Characterization and Multilayer Perceptron (MLP) Hardware Implementation for Gas Identification Using a Field Programmable Gate Array (FPGA) [O] . Fayçal Benrekia, Mokhtar Attari, Mounir Bouhedda 2013

机译：使用现场可编程门阵列（FPGA）进行气体识别的气体传感器特性和多层感知器（MLP）硬件实现
7. Hardware Acceleration for Finite-Element Electromagnetics: Efficient Sparse Matrix Floating-Point Computations With FPGAs [O] . El-Kurdi, Yousef, Giannacopoulos, Dennis D., Gross, Warren J. 2018

机译：有限元电磁的硬件加速：FPGA的高效稀疏矩阵浮点计算

Hardware Acceleration for Finite Element Electromagnetics: Efficient Sparse Matrix Floating-Point Computations with Field Programmable Gate Arrays

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