On the effectiveness of accelerating MapReduce functions using the Xilinx Vivado HLS tool
Loading...
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Inderscience Publishers
Abstract
Programming FPGAs requires advanced hardware design skills which limits their adoption in data centres. FPGA vendors have provided high level synthesis (HLS) tools to build register transfer level (RTL) specifications from designs provided in high level languages. We present a suite of C and C++-based hardware accelerators for the Purdue MapReduce benchmark suite and use the Xilinx Vivado HLS tool to compare their performance and resource efficiency to hand-coded RTL code. We show that simple design changes in the high level language-based accelerators can improve results. Using Vivado HLS, five benchmarks match the performance of hand optimised RTL while sort, self join, adjacency list and word count algorithms are about 4.7×, 3×, 2× and 1.3× slower, respectively. © 2016 Inderscience Enterprises Ltd.
Description
Keywords
Fpga, Hardware accelerators, High level synthesis, Hls, Mapreduce, Reconfigurable computing, Vivado, Benchmarking, C++ (programming language), Computer hardware, Field programmable gate arrays (fpga), Integrated circuit design, Reconfigurable architectures, Benchmark suites, Hardware design, Map-reduce, Register transfer level, Resource efficiencies