With complexities of Systems-on-Chip rising almost daily, the system designers have been searching for new methodology that can handle the complexities with increased productivity and decreased times-to-market. The obvious solution that comes to mind is increasing the level of abstraction. However the system designers care about are system architectures, Hardware/Software (HW/SW) performance, and the communication protocols. Furthermore, the electronic system level (ESL) design methodology can satisfy the requests on complex design with relative high simulation speed well performance evaluation. We can use it in the iterative design process rather than just in the early system architecting phase. In this thesis, we implement a transaction level model (TLM) Network-on-Chip platform with SystemC. The basic modules: variable wrapper, 5-ports switch, transmission link and heterogeneous peripherals. In addition to NoC platform, we also implement the H.264 encoder as the system application, and apply a design methodology at ESL to do design modeling, design space exploration and performance evaluation. We base on it to establish abstract model between the sequential executable codes and the register transfer level (RTL) description. We are able to evaluate performance in relatively short time, obtain important information and complete the design more instinctively. Finally, the NoC platform will run the whole system simulation to verify the functional model and collect the dynamic information on the transmission link and IPs to analysis the bottle-neck of the system.