Optimization of Processor Architecture for Sobel Real-Time Edge Detection Using FPGA

This paper presents an optimized processor architecture for Sobel edge detection operator on field programmable gate arrays (FPGA). The processor is optimized by the use of several optimization techniques that aim to increase the processor throughput and reduce the processor logic utilization. FPGA...

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Bibliographic Details
Main Authors: Hussin, Fawnizu Azmadi, Osman, Zahraa E. M., Xia, Likun, Zain Ali, Noohul Basheer
Format: Article
Published: 2013
Online Access:http://eprints.utp.edu.my/11946/
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Summary:This paper presents an optimized processor architecture for Sobel edge detection operator on field programmable gate arrays (FPGA). The processor is optimized by the use of several optimization techniques that aim to increase the processor throughput and reduce the processor logic utilization. FPGA offers a high level of parallelism which is exploited by the processor to implement the parallel process of edge detection in order to increase the processor throughput and enable the processor to meet real-time performance constraints. To achieve real-time performance, the proposed processor consists of several Sobel instances that are able to produce massive output pixels in parallel. This parallelism enables data reuse within the processor block which reduces the number of calculations while increasing the processor throughput. Moreover, the processor gains performance with a factor equal to the number of instances contained in the processor block. By the application of the optimization techniques, the proposed Sobel processor is able to meet real-time performance constraints due to its high throughput even with a considerably low clock frequency. In addition, the logic utilization of the proposed processor is low compared to other Sobel processors when implemented on ALTERA Cyclone II DE2-70 board