In this paper, we focus on forward and reverse transmission of non-cooperative multi-cellular time-division duplexing (TDD), large-but-finite MIMO system that the number N of antennas per base station (BS) are large (more than 100) and the number of user terminals per cell are also . This system we consider channel estimation, pilot contamination, path loss and antenna correlation for each link. We simulate achievable rates with beamforming (BF)/regularized zero-forcing (RZF) linear precoders and minimum-mean-square -error(MMSE) on uncorrelated channels from previous work and more realistic system. Through raising signal-to-interference plus noise ratio (SINR) that is limited by pilot contamination, we derive better performance. The other we consider using time-shifted protocol to compare with the previous simulation. We derived that through time-shifted protocol to grouping the cells can reduce the inter-cell interference caused by pilot contamination. At the beginning, we introduce MIMO system and Massive MIMO system. Second, we described large-but-finite MIMO system which is the system we simulation. Finally, using the methods mentioned above, deriving simulation results.