Intra coding of the latest video coding standard, High Efficiency Video Coding (HEVC) is an extension of that in H.264/AVC, which is more efficient than inter coding when video resolution becomes higher since it is hard to perform motion estimation well in a limited area when strong motion exists. In addition, HEVC adopted quad-tree based coding unit (CU) which is similar to the role of macroblock (MB) in H.264, had achieved much higher coding efficiency. However, the significant increase of complexity due to the advanced encoding structure cannot be neglected. In this paper, a Hadamard cost based fast intra CU depth decision algorithm is proposed to reduce the computational complexity. In HEVC intra coding, the Hadamard cost of each mode is calculated in rough mode decision (RMD) to preselect a few candidate modes before full rate-distortion optimization. The proposed algorithm utilizes the minimum Hadamard cost to develop the criterion of early CU splitting and termination. The threshold is modeled by the sequence characteristic parameters and QPs. The experimental results show that the proposed fast algorithm saves at most 51.47% encoding time saving, and 41% encoding time compared with HM 15.0.