In this thesis, we study OFDMA downlink channel estimation based on the Industrial Technology Research Institute (ITRI) system designed for 5G cellular communications operating at 38 GHz. We simulate the channel estimation method with MATLAB and implement on digital signal processor (DSP) to analysis the performance. For the channel estimation method, we first use least-square (LS) estimator on pilot subcarriers because of its low computational complexity, then we do one time moving average (MA) to reduce noise power. After that we estimate the delay parameters and find correlation function with exponential power delay profile (PDP). Based on correlation function, we do linear minimum-mean square error (LMMSE) filtering to estimate the channel frequency responses at other data subcarriers. Finally we do linear interpolation between two pilot locations in time. We verify our channel estimation program in additive white Gaussian noise (AWGN) channel and multipath channel for ITRI systems. Regarding DSP implementation, the platform we used is TCI6638K2K of Texas Instrument (TI). We implement in fix point and use the library of math and fast RTS supported by TI. We reduce the cycle time and memory by sharing memory and paralleling the code. In the last, we successfully combine our algorithm with ITRI proof-of-concept platform. In this thesis, we first introduce the standard of the OFDMA and the ITRI downlink transmission specification. Then we describe channel estimation method we use. Next, we introduce DSP implementation environment and optimization of program. Finally, we do the simulation and implementation and discuss the performance in each transmission condition.