基于高斯-约当消去的浮点矩阵反演的FPGA实现

J. Arias-Garcia, R. Pezzuol Jacobi, C. Llanos, M. Ayala-Rincón
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引用次数: 40

摘要

本文提出了一种在单精度浮点表示的硬件可重构FPGA中计算矩阵反转的体系结构,其主要单元是高斯-乔丹消去的处理组件。该组件由其他较小的算术单元组成,其组织目的是维护结果的准确性,而无需在内部对浮点数据进行规范化和反规范化。操作和整个单元的实现充分利用了Virtex-5 FPGA中的可用资源。与其他更精细的体系结构相比,该实现的性能和资源消耗得到了改进,这些体系结构的实现对于低成本应用程序来说更复杂。基准测试使用以前在FPGA和软件(如Matlab)中实现的解决方案完成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A suitable FPGA implementation of floating-point matrix inversion based on Gauss-Jordan elimination
This work presents an architecture to compute matrix inversions in a hardware reconfigurable FPGA with single-precision floating-point representation, whose main unit is the processing component for Gauss-Jordan elimination. This component consists of other smaller arithmetic units, organized to maintain the accuracy of the results without the need to internally normalize and de-normalize the floating-point data. The implementation of the operations and the whole unit take advantage of the resources available in the Virtex-5 FPGA. The performance and resource consumption of the implementation are improvements in comparison with different more elaborated architectures whose implementations are more complex for low cost applications. Benchmarks are done with solutions implemented previously in FPGA and software, such as Matlab.
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