FPGA Implementation of Matrix Inversion Using QRD-RLS Algorithm

Conference Record of the Thirty-Ninth Asilomar Conference onSignals, Systems and Computers, 2005. Pub Date : 2005-11-01 DOI:10.1109/ACSSC.2005.1600043
M. Karkooti, Joseph R. Cavallaro, C. Dick
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引用次数: 159

Abstract

This paper presents a novel architecture for matrix inversion by generalizing the QR decomposition-based recursive least square (RLS) algorithm. The use of Squared Givens rotations and a folded systolic array makes this architecture very suitable for FPGA implementation. Input is a 4 × 4 matrix of complex, floating point values. The matrix inversion design can achieve throughput of 0.13M updates per second on a state of the art Xilinx Virtex4 FPGA running at 115 MHz. Due to the modular partitioning and interfacing between multiple Boundary and Internal processing units, this architecture is easily extendable for other matrix sizes.
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基于QRD-RLS算法的矩阵反演FPGA实现
本文通过推广基于QR分解的递推最小二乘(RLS)算法,提出了一种新的矩阵反演体系结构。使用平方给定旋转和折叠收缩阵列使该架构非常适合FPGA实现。输入是一个4 × 4的复杂浮点值矩阵。矩阵反转设计可以在最先进的Xilinx Virtex4 FPGA上实现每秒0.13M更新的吞吐量,运行频率为115 MHz。由于多个边界和内部处理单元之间的模块化划分和接口,该体系结构很容易扩展到其他矩阵大小。
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Conference Record of the Thirty-Ninth Asilomar Conference onSignals, Systems and Computers, 2005.
Conference Record of the Thirty-Ninth Asilomar Conference onSignals, Systems and Computers, 2005.
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