Title :
A memory efficient motion estimator for three step search block-matching algorithm
fDate :
8/1/2001 12:00:00 AM
Abstract :
This paper describes a memory efficient array architecture with data-rings for the 3-step hierarchical search block-matching algorithm (3SHS). With the efficient data-rings and memory organization, the regular raster-scanned data flow and comparator-tree structure can be used to simplify control scheme and reduce latency, respectively. In addition, we utilize the three-half-search-area scheme and circular addressing method to reduce external memory access and memory size, respectively. The results demonstrate that the array architecture with a memory efficient scheme requires a smaller memory size and low I/O bandwidth. It also provides a high normalized throughput solution for the 3SHS
Keywords :
VLSI; cellular arrays; data compression; digital storage; image matching; integrated memory circuits; motion estimation; search problems; video coding; VLSI; array architecture; cellular array; circular addressing method; comparator-tree structure; data compression; efficient data-rings; external memory access reduction; hierarchical search block-matching algorithm; high normalized throughput; latency REDUCTION; low I/O bandwidth; mean absolute differences; memory efficient array architecture; memory efficient motion estimator; memory organization; memory size reduction; raster-scanned data flow; three step search block-matching algorithm; video compression; Bandwidth; Consumer electronics; Delay; Image storage; Memory architecture; Motion estimation; Throughput; Transform coding; Video compression; Videoconference;
Journal_Title :
Consumer Electronics, IEEE Transactions on
