scholarly journals High Level Synthesis Optimizations of Road Lane Detection Development on Zynq-7000

2021 ◽  
Vol 29 (2) ◽  
Author(s):  
Panadda Solod ◽  
Nattha Jindapetch ◽  
Kiattisak Sengchuai ◽  
Apidet Booranawong ◽  
Pakpoom Hoyingcharoen ◽  
...  
Keyword(s):  
Low Cost ◽  
Optimization Techniques ◽  
Lane Detection ◽  
High Level Synthesis ◽  
Resource Usage ◽  
Clock Frequency ◽  
Loop Analysis ◽  
Loop Unrolling ◽  
Loop Pipelining ◽  
High Level

In this work, we proposed High-Level Synthesis (HLS) optimization processes to improve the speed and the resource usage of complex algorithms, especially nested-loop. The proposed HLS optimization processes are divided into four steps: array sizing is performed to decrease the resource usage on Programmable Logic (PL) part, loop analysis is performed to determine which loop must be loop unrolling or loop pipelining, array partitioning is performed to resolve the bottleneck of loop unrolling and loop pipelining, and HLS interface is performed to select the best block level and port level interface for array argument of RTL design. A case study road lane detection was analyzed and applied with suitable optimization techniques to implement on the Xilinx Zynq-7000 family (Zybo ZC7010-1) which was a low-cost FPGA. From the experimental results, our proposed method reaches 6.66 times faster than the primitive method at clock frequency 100 MHz or about 6 FPS. Although the proposed methods cannot reach the standard real-time (25 FPS), they can instruct HLS developers for speed increasing and resource decreasing on an FPGA.

Real-Time Image and Video Processing Using High-Level Synthesis (HLS)

2017 ◽  
pp. 390-408
Author(s):  
Murad Qasaimeh ◽  
Ehab Najeh Salahat
Keyword(s):  
Video Processing ◽  
High Performance ◽  
Low Cost ◽  
Optimization Techniques ◽  
High Level Synthesis ◽  
Image And Video Processing ◽  
Digital Hardware ◽  
Processing Algorithms ◽  
Computationally Intensive ◽  
High Level

Implementing high-performance, low-cost hardware accelerators for the computationally intensive image and video processing algorithms has attracted a lot of attention in the last 20 years. Most of the recent research efforts were trying to figure out new design automation methods to fill the gap between the ability of realizing efficient accelerators in hardware and the tight performance requirements of the complex image processing algorithms. High-Level synthesis (HLS) is a new method to automate the design process by transforming high-level algorithmic description into digital hardware while satisfying the design constraints. This chapter focuses on evaluating the suitability of using HLS as a new tool to accelerate the most demanding image and video processing algorithms in hardware. It discusses the gained benefits and current limitations, the recent academic and commercial tools, the compiler's optimization techniques and four case studies.

Real-Time Image and Video Processing Using High-Level Synthesis (HLS)

2018 ◽  
pp. 1004-1022
Author(s):  
Murad Qasaimeh ◽  
Ehab Najeh Salahat
Keyword(s):  
Video Processing ◽  
High Performance ◽  
Low Cost ◽  
Optimization Techniques ◽  
High Level Synthesis ◽  
Image And Video Processing ◽  
Digital Hardware ◽  
Processing Algorithms ◽  
Computationally Intensive ◽  
High Level

Implementing high-performance, low-cost hardware accelerators for the computationally intensive image and video processing algorithms has attracted a lot of attention in the last 20 years. Most of the recent research efforts were trying to figure out new design automation methods to fill the gap between the ability of realizing efficient accelerators in hardware and the tight performance requirements of the complex image processing algorithms. High-Level synthesis (HLS) is a new method to automate the design process by transforming high-level algorithmic description into digital hardware while satisfying the design constraints. This chapter focuses on evaluating the suitability of using HLS as a new tool to accelerate the most demanding image and video processing algorithms in hardware. It discusses the gained benefits and current limitations, the recent academic and commercial tools, the compiler's optimization techniques and four case studies.

scholarly journals Optimization of Advanced Encryption Standard (AES) Using Vivado High Level Synthesis (HLS)

10.29007/x3tx ◽  
2019 ◽  
Author(s):  
Luka Daoud ◽  
Fady Hussein ◽  
Nader Rafla
Keyword(s):  
High Level Synthesis ◽  
Advanced Encryption Standard ◽  
Data Confidentiality ◽  
Maximum Throughput ◽  
Loop Unrolling ◽  
Aes Algorithm ◽  
Hardware Implementations ◽  
High Level ◽  
Dedicated Hardware ◽  
Vivado Hls

Advanced Encryption Standard (AES) represents a fundamental building module of many network security protocols to ensure data confidentiality in various applications ranging from data servers to low-power hardware embedded systems. In order to optimize such hardware implementations, High-Level Synthesis (HLS) provides flexibility in designing and rapid optimization of dedicated hardware to meet the design constraints. In this paper, we present the implementation of AES encryption processor on FPGA using Xilinx Vivado HLS. The AES architecture was analyzed and designed by loop unrolling, and inner-round and outer-round pipelining techniques to achieve a maximum throughput of the AES algorithm up to 1290 Mbps (Mega bit per second) with very significant low resources of 3.24% slices of the FPGA, achieving 3 Mbps per slice area.

A hardware implementation for real-time lane detection using high-level synthesis

2018 ◽  
Author(s):  
Chanon Khongprasongsiri ◽  
Pinit Kumhom ◽  
Watcharapan Suwansantisuk ◽  
Teerasak Chotikawanid ◽  
Surachate Chumpol ◽  
...  
Keyword(s):  
Real Time ◽  
Hardware Implementation ◽  
Lane Detection ◽  
High Level Synthesis ◽  
High Level
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