This thesis describes the design of a 10 Gbps, 15 dB dynamic range optical receiver in UMC 40 nm CMOS process. It also has the advantage of low power consumption, and has the best performance in terms of dynamic range at 10 Gbps operation. The optical receiver consists of a transimpedance amplifier, a post limiting amplifier and an automatic gain controlled circuit. Typically, a shunt-shunt feedback amplifier is utilized in transimpedance amplifier (TIA) design. However, under the circumstance of large input photo current, it may result in output signal distortion. Although this problem can be circumvented by reducing the feedback resistor of TIA, it may induce a higher open loop dominant pole of TIA. Thus the phase margin will be degraded and may cause stability issue. To overcome the aforementioned problem, an automatic gain controlled circuit which dynamically adjusts the feedback resistor and voltage gain of TIA core amplifier is adopted in this design. It stabilizes the open loop gain of TIA and phase margin, so as to improve system stability under wide dynamic range operation. The experimental prototype is operated under 1.2 V supply, and achieves an energy efficiency of 3.6 pJ/bit. For bit error rate of less than 10-12, the input sensitivity is -15 dB. Chip size is 0.334 mm2.