This thesis details on the design of frequency-domain synchronizer to perform coherent sampling for 128-FFT Orthogonal Frequency Division Multiplexing (OFDM) timing recovery. The proposed algorithm focus on timing synchronization include timing acquisition, sampling clock offset (SCO) estimation and pilot tracking scheme for residual SCO. The multiphase all-digital clock management (ADCM) is utilized to adjust sampling phases estimated by timing synchronization, rather than phase-locked or delay-locked loops, and utilize the cross-correlation power between short preambles to estimation the sampling phase error and the SCO. The pilot tracking scheme tracking the gradual phase shifts caused by residual SCO and maintaining the sampling phase error < . The simulation platform is 802.11ad with TGad channel. Performances are measured under the TGad channel. At 1% PER and SCO tolerance range is -300~400-ppm, the SNR loss is only 0.8~1.4 dB in frequency-selective fading. From simulation results, the frequency-domain synchronizer has wide clock offset tolerance.