With the fast proliferation and development of the Internet, the demand for high-speed communication network has grown progressively. The bandwidth of local area network (LAN) already enters the generation of the 10 Gigabit Ethernet recently. In the standard of IEEE 802.3ae, which is defined for the 10 Gigabit Ethernet, 10Gbase-LX4 specification utilizes low-cost laser diodes, optical diodes, and multi-mode or single-mode fibers. 10GBase-LX4 will play an important role in the Ethernet in the near future. In this thesis, first we design a deserializer for 10GBase-LX4 receiver. The deserializer functions as a data type converter. As a high speed data stream came from Clock/Data Recovery is input, the deserializer not only achieves byte-level synchronization by detecting the alignment character, but it also converts the high-speed input stream into lower-speed parallel output. Meanwhile, there are four independent lanes in a 10GBase-LX4 transceiver. Due to the imperfectness of each lane, the data skew between lanes will be observed at the receiver. Thus we design a physical coding sublayer (PCS) interface circuit that achieves multi-lane word alignment and provides the required data pattern to the following Media Access Control (MAC) layer for further processing.