Title :
A Frame-Parallel 2 Gpixel/s Video Decoder Chip for UHDTV and 3-DTV/FTV Applications
Author :
Jinjia Zhou ; Dajiang Zhou ; Jiayi Zhu ; Goto, Satoshi
Author_Institution :
Grad. Sch. of Inf., Waseda Univ., Kitakyushu, Japan
Abstract :
The first single-chip design that supports real-time H.264/Advanced Video Coding decoding of 8k (7680×4320) 60 frames/s is realized. It also supports multiview decoding for up to 32720p views or 161080p views. To significantly improve the throughput and reduce the memory bandwidth requirement, frame-level parallelism is exploited for the proposed design. First, a frame dependency protection scheme enables frame-parallel decoding, by reusing multiple replicas of an existing design. This results in a system throughput of 2 Gpixels/s, at least 3.75 times better than previous chips. Moreover, a reference window synchronization scheme and a 2-level hybrid caching structure are proposed to achieve 44% memory bandwidth reduction of motion compensation, by utilizing frame-level data reuse. The bandwidth reduction results in 22% Dynamic Random-Access Memory power saving of the whole decoder.
Keywords :
decoding; digital television; video codecs; video coding; 3-DTV application; FTV application; UHDTV application; advanced video coding; dynamic random access memory; frame dependency protection; frame parallel video decoder chip; real-time H.264 video coding; single chip design; two level hybrid caching; Bandwidth; Decoding; Delays; Parallel processing; Random access memory; Throughput; Video coding; 3-D TV; H.264/Advanced Video Coding; H264/Advanced Video Coding; Super High Version; VLSI; VLSI.; application-specified integrated circuit (ASIC); ultrahigh definition television (UHDTV); video decoder;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2014.2385780
