The Successive Over-Relaxation Method in Reconfigurable Hardware

Gauss-Sidel and Successive Over Relaxation Iterative Methods for Solving System of Fuzzy Sylvester Equations

In this paper, we present Gauss-Sidel and successive over relaxation (SOR) iterative methods for finding the approximate solution system of fuzzy Sylvester equations (SFSE), AX + XB = C, where A and B are two m*m crisp matrices, C is an m*m fuzzy matrix and X is an m*m unknown matrix. Finally, the proposed iterative methods are illustrated by solving one example.

The Jacobi Method in Reconfigurable Hardware

Linear equations provide useful tools for understanding the behavior of a wide variety of phenomena— from science and engineering to social sciences. A number of techniques have arisen to find the solution of these systems; examples are Jacobi, Gauss-Seidel, Successive Over Relaxation, and Multigrid. In this paper, we present an accelerated version of the Jacobi algorithm by implementing it on ...

FPGA Implementation of JPEG and JPEG2000-Based Dynamic Partial Reconfiguration on SOC for Remote Sensing Satellite On-Board Processing

This paper presents the design procedure and implementation results of a proposed hardware which performs different satellite Image compressions using FPGA Xilinx board. First, the method is described and then VHDL code is written and synthesized by ISE software of Xilinx Company. The results show that it is easy and useful to design, develop and implement the hardware image compressor using ne...

A Distributed Method for Reconfiguration of 3-D Homogeneous Structure

A distributed reconfiguration method is proposed for a 3-D reconfigurable structure, composed of many identical mechanical units. The method aims to enable the structure to transform itself into desired structure from an arbitrary initial configuration. The proposed method is implemented in such a way that each unit has identical software as well as hardware, so that any unit can play any role ...

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