Interpolation Algorithm Optimization and Hardware Design for Motion Compensation for H.264

Motion compensation plays an important role in the H.264/AVC video coding standard,the fractional pixel motion compensation is one of the most complicated part.So it is especially important to improve the fractional pixel operation time,reduce the complexity of the algorithm.In this paper,the original fractional pixel interpolation algorithm is improved,the traditional six tap FIR filter is changed to the fourth tap FIR filter to calculate half pixel,and pipeline structure is used for FPGA design,so the hardware can handle 12 pixels one time.The architecture is described in Verilog and synthesized into the Xilinx Virtex6 FPGA device.The simulation results show that the proposed half pixel interpolation algorithm can be operated at the frequency of 213 MHz,with clock recycles are reduced to 36.At the same time,the hardware complexity is reduced obviously.