Performance efficient FPGA implementation of parallel 2-D MRI image filtering algorithms using Xilinx system generator

Abstract

Currently, Field Programmable Gate Array (FPGA) goes beyond the low-level line-by-line hardware description language programming in implementing parallel multidimensional image filtering algorithms. High-level abstract hardware-oriented parallel programming method can structurally bridge this gap. This paper proposes a first step toward such a method to efficiently implement Parallel 2-D MRI image filtering algorithms using the Xilinx system generator. The implementation method consists of five simple steps that provide fast FPGA prototyping for high performance computation to obtain excellent quality of results. The results are obtained for nine 2-D image filtering algorithms. Behaviourally, two Virtex-6 FPGA boards, namely, xc6vlX240Tl-1lff1759 and xc6vlX130Tl-1lff1156 are targeted to achieve; lower power consumption of (1.57 W) and down to (0.97 W) respectively at maximum sampling frequency of up to (230 MHZ). Then, one of the nine MRI image filtering algorithms, has empirically improved to generate an enhanced MRI image filtering with moderate lower power consumption at higher maximum frequency.