This paper presents a 50-Gb/s optical receiver (ORX) chipset, consisting of a transimpedance amplifier (TIA) and a clock and data recovery (CDR) circuit in a 45-nm silicon-on-insulator CMOS. The proposed inverter-based TIA employs hybrid shunt-series peaking inductors to extend the bandwidth (BW). A baud-rate CDR is proposed to reduce the sampling phases and clocking power by half. To optimise the ORX for in- package integration, a compact-size digital loop is adopted in each channel, and the clock is recovered by phase interpolation from a shared reference. A complete optical-to-electrical (OE) link is built by integrating the proposed ORX with a high-speed Silicon Photonics (SiP) photodetector (PD). Measurements show that the proposed TIA has a transimpedance gain of 53 dB Ω and a BW of 27 GHz. By integrating it with the SiP PD, the OE front-end (PD+TIA) achieves an input sensitivity of -7.7 dBm at 50 Gb/s and BER < 10-12. It features a power efficiency of 1.61 pJ/bit at a data rate of 64 Gb/s. The complete 50 Gb/s ORX achieves data recovery at a quarter rate of 12.5 Gb/s with an output jitter of 1.6 psrms, and has a 3.125 GHz clock with phase noise of -115.22 dBc/Hz at an offset frequency of 1 MHz.