A memory aware and multiplierless VLSI architecture for the complete Intra Prediction of the HEVC emerging standard

This work proposes a hardware architecture for the Intra Frame Prediction of the emerging High Efficiency Video Coding (HEVC) standard. The architecture was designed considering all innovative features of the Intra Prediction included in the HEVC, i.e. all modes and all Prediction Units (PU) sizes. Performance and memory accesses are a problem in the HEVC intra prediction and hardware architecture designs are good alternative to solve these issues, especially when energy-efficient solutions are targeted. Buffers and internal memories were used in the designed architecture to decrease the number of external memory accesses. Two independent data paths processing eight samples in parallel and a deep and multiplierless pipeline were designed to increase the throughput. The architecture was synthesized using an IBM 65nm CMOS technology. The results have shown that the architecture is able to process 30 HD720p frames per second and 13 HD1080p frames per second when running at 500 MHz, reducing in 95% the accesses to the external memory.