A monolithic accelerometer with integrated capacitance to digital readout circuit in 0.18um CMOS MEMS process is proposed to demonstrate sensor to bit integration. The sensing range of the accelerometer is designed from -5g to 5g and the variation of the capacitance is from 441.2fF to 470fF. The sensitivity of the accelerometer is 2.88fF/g. The capacitance value of the sensing range is readout by the capacitance to pulse-width circuit to readout. The capacitance to pulse-width circuit of the sensitivity is 6.94us/pF which is equivalent to 20ns/1bit. Therefore, without any analog to digital module, the output signal can be directly interface to digital signal process. In order to get the accurate value of monolithic front-end circuits, the computer aided design flow for MEMS and IC integration is used to co-simulate the monolithic circuits with the accelerometer and to provide comprehensive analysis of the difference between the simulation and the measurement results.