A novice approach to implementation of system on chip based smart CMOS sensor for quantum computing based applications

Abstract

The CMOS-based sensor design technology has evolved with tremendous applications in MSP domain with enhanced characteristic of maximized S/N ratio. This feature has been obtained with the utilization of pixel-based amplification in addition to minimizing the presence of noise at the output of the device. It means that the noise present in the various active devices of the system has been suppressed with the help of SoC-based design technique, i.e., three-level pixel implementation. This system basically supports all the SoC components such as feedback amplifier, buffers, tapered reset device, etc. The CMOS-based smart system has both software and hardware modules which in turn behave as a complete system on chip (SoC). The main application of this system is in the computation and analysis of the mixed signal in the quantum domain. The author presents a novel approach to implementing a smart system using SoC in quantum context that enhances the performance of the system. The simulation of the system has been carried out on LabVIEW with optimum results desired. Some the result has been carried with mathematical modeling based approach using MATLAB software. The minimum S/N ratio of the system is 55 dB with 1920 × 1080 frame readout at 550 Hz. The author is also interested in carrying out the analysis of this system with QCA tool and then presents a comparative analysis of the two systems with better performance.