Title :
A new FPGA architecture for image processing: CYCLOP
Author :
Guermeur, Philippe
Author_Institution :
Lab. d´Electron. et d´Inf., ENSTA, Paris, France
Abstract :
This paper presents CYCLOP, a multi-FPGA board architecture designed to allow real-time implementation of low-level image processing algorithms. A set of such identical boards is to be integrated into a workstation. It offers the users different algorithm implementation possibilities, depending on the trade-off speed area desired: - for applications requiring high speed computation rates, the user will have to consider the possibility to partition his algorithm into several boards (pipeline processing); - another method, illustrated in this paper, will consist in iterating the different steps of the algorithm on a single board. In the latter case, we implement a two-dimensional filtering environment. It is built on a one-dimensional second order recursive filtering unit, whose coefficients can be loaded via the VME bus. We illustrate the filtering performances by an immediate application to the Deriche edge detection algorithm.
Keywords :
edge detection; field programmable gate arrays; image filtering; image processing; pipeline processing; recursive filters; workstations; CYCLOP; Deriche edge detection algorithm; VME bus; field programmable gate array; high speed computation rate; low-level image processing algorithm; multiFPGA board architecture; one-dimensional second order recursive filtering unit; pipeline processing; two-dimensional filtering environment; workstation; Computer architecture; Filtering algorithms; Image processing; Maximum likelihood detection; Nonlinear filters; Partitioning algorithms;
Conference_Titel :
Signal Processing Conference (EUSIPCO 1998), 9th European
Conference_Location :
Rhodes
Print_ISBN :
978-960-7620-06-4
