Coding- And Energy-Efficient Fme Hardware Design

Hybrid video standards rely on encoding prediction residues. To improve coding efficiency of inter-frame prediction, interpolated samples may be generated in fractional positions i.e., between neighbor pixels in the reference frame. However, performing Fractional Motion Estimation (FME) increases the overall encoder complexity. Since portable mobile devices are increasingly used to capture and reproduce videos, energyefficient FME hardware accelerators are of utmost importance. In this work, we propose and evaluate a coding- and energy-efficient hardware design strategy for FME. Such strategy addresses the main weaknesses of the architectures found in the literature. The architecture designed as case study can achieve 2160p@120fps for the HEVC 8 x 8 FME. We also provide an insightful area and power breakdown of the synthesized design, to drive the design of FME hardware towards further energy improvements.