Analysis and optimization of x265 encoder

Author

Qiang Hu ; Xiaoyun Zhang ; Zhiyong Gao ; Jun Sun

Author_Institution

Inst. of Image Commun. & Network Eng., Shanghai Jiao Tong Univ., Shanghai, China

fYear

2014

Firstpage

502

Lastpage

505

Abstract

x265 is an open-source encoder project which aims to deliver the world´s fastest and most computationally efficient HEVC encoder. Although x265 has been developed efficiently with many optimization techniques, it is still not able to encode HD videos in real time even at its faster setting. In this paper, we deeply investigate the encoding framework and computational complexity of x265, and find that RDO process is the most time consuming part. Then, an efficient prediction scheme is proposed which includes decreasing the number of RDO times, early skip detection and fast intra mode decision. Experimental results show that the proposed method improves the speed of x265 from 19.86fps to 37.76fps for HD test sequences, i.e., 47.44% complexity reduction, with only 1.37% BDBR coding performance loss.

Keywords

computational complexity; high definition video; image sequences; optimisation; prediction theory; rate distortion theory; video coding; BDBR coding performance loss; HD test sequences; HD video encoding; HEVC encoder; RDO process; bjontegaard delta bitrate; computational complexity reduction; early skip detection; fast intra mode decision; high definition video coding; open-source encoder project; prediction scheme; rate-distortion optimization; x265 encoder optimization; Computational complexity; Encoding; High definition video; Prediction algorithms; Real-time systems; Video coding; HEVC; Mode Decision; RDO; Real Time; x265;

fLanguage

English

Publisher

ieee

Conference_Titel

Visual Communications and Image Processing Conference, 2014 IEEE

Type

conf

DOI

10.1109/VCIP.2014.7051616

Filename

7051616