Visible light communication (VLC) is an alternative of wireless communication and it transmits signals by LEDs illumination. In this paper, we modulate signals by OFDM technology to mitigate the inter symbol interference (ISI) caused by multipath effect and encode transmitted signals by QPSK. The sampling frequency is 200 MHz and the size of FFT and CP period is 64 point and 8 samples. Hence, the OFDM symbol period is 360 ns in the VLC system that we simulate. We simulate the VLC system in different room sizes. In the simulation of special room(7.73 m, 6.6 m, 2.8 m), a bit error rate (BER) of 10-5 to 10-6 is achieved under the 〖SNR〗_e = 15 dB. The OFDM baseband signal is used to modulate the LED intensity, and therefore the signals on the time domain will be only real value. Hence, we can use the real FFT (RFFT) to reduce operation. This paper presents the single-path delay feedback (SDF) architecture for the FFT with real input samples. We take the advantage of Hermitian symmetry to save the computation and hardware complexity. The proposed N-point real FFT SDF architecture is based on the hybrid data-path SFG which is used to increase the hardware utilization and to reduce latency. With the proper scheduling in the stage 3 of the RFFT SDF architecture, we can use delay element efficiently by hardware sharing. Therefore, the proposed SDF architecture only requires (4 log_2⁡N-6) real adders, (log_8⁡N-3/2) complex multipliers and (9N/8-1) real delay elements. The hardware complexity is fewer than several real FFT multi-path delay commutator (MDC) architecture and complex FFT SDF architecture.