Optimized register level transfer mechanism for ASIC-based memscomputing

Abstract

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Micro-electromechanical system-based semiconductor sensor systems typically need a reliable on-chip analog readout circuit to identify and process changes in physical properties. To improve the mobility, robustness, reliability and performance (in terms of power consumption and speed) of the sensor system, the remaining parts of the post-processing logic, such as the digital data processor (or part of it), can also integrated into the chip. Cost and integration are always important considerations in both analog and digital designs, but they become even more important; the subsystem of data processing must be squeezed into a very small space near the structure of the micro-electromechanical system (MEMS) sensor. The paper introduces a new Buffalo-based register-transfer level (BRTL) method that aims to improve the efficiency and reliability of the system of digital data processing for MEMS sensor post-processing algorithm. Initially, the memcomputing system was designed with the needed functional processing elements. Then, a novel Buffalo-based register-transfer level design is modelled in the MEMS architecture. The digital data transmission process is performed to estimate the reliability of the proposed BRTL model. Finally, the performance of the proposed model can be validated.