Accelerating colour space conversion on reconfigurable hardware
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摘要
Colour space conversion is very important in many types of image processing applications including video compression. This operation consumes up to 40% of the entire processing power of a highly optimised decoder. Therefore, techniques which efficiently implement this conversion are desired. This paper presents two novel architectures for efficient implementation of a Colour Space Converter (CSC) suitable for Field Programmable Gate Array (FPGAs) and VLSI. The proposed architectures are based on Distributed Arithmetic (DA) ROM accumulator principles. The architectures have been implemented and verified using the Celoxica RC1000 FPGA development board. In addition, they are platform independent and have a low latency (eight cycles). The first architecture has a throughput of height, while the second one is fully pipelined and has a throughput of one and capable of sustained data rate of over 234 mega-conversions/s.
论文关键词:Colour space conversion,Field programmable gate array,Distributed arithmetic
论文评审过程:Received 27 June 2004, Revised 25 March 2005, Accepted 30 March 2005, Available online 18 August 2005.
论文官网地址:https://doi.org/10.1016/j.imavis.2005.03.006