Low-Power and Memory-Aware Approximate Hardware Architecture for Fractional Motion Estimation Interpolation on HEVC

Nowadays, current video coding standards like the High Efficiency Video Coding (HEVC) implement several complex coding tools, like the Fractional Motion Estimation (FME). An alternative to improve performance and save power is allying the hardware acceleration with approximate computing solutions, focusing on such complex tools. In this work, we present a low-power and memory-aware hardware architecture for the HEVC FME interpolator, proposing the development of two novel hardware designs for the interpolation filters, called Approximate Unified FME Filters (AUFF). These solutions exploit the usage of approximate computing at both algorithmic and data levels, leading to a reduction in dissipated power and memory bandwidth. The proposed design is capable of real-time interpolation of UHD (Ultra High Definition) 4K and 8K videos when synthesized using a 40 nm standard-cell library, with a power dissipation ranging from 22.04 to 62.06 mW.