This work focus on the uplink of Cloud Radio Access Network (C-RAN) [3]. By adopting per-user successive interference cancellation (SIC) at the central processor, the whole system saved much computing power in turns of simplicity of system architecture. To exploit the correlation of the signal received at each Remote Radio Head (RRH) and to fully utilized the fronthaul capacity, we adopt a practical Wyner-Ziv coder at the fronthaul compression. We propose a flow of algorithm to consecutively compress and reconstruct all the users’ messages. We rearrange the mathematical form of the signal at RRH so that it fits the Quadratic Gaussian noisy side information problem, which can be solved by applying the residual-based Wyner-Ziv coder devel- oped in [8]. Besides, the per-user SIC scheme reduces the system complexity significantly compared to joint compression and decoding. The Wyner-Ziv coder consists of two successive quantizer, made of LDPC and LDGM codes and can be applied to arbitrarily distributed side information. Finally, we plot the achievable rate region obtained from information theory and also transmissible region from simulation, and show how much we approach to the theory.