This abstract explores the design challenges and innovations associated with nano-electronic VLSI, including short-channel effects, leakage power, variability, reliability, and thermal management. An advanced nanoelectronics VLSI system generally discusses the integration of nanoscale devices and materials into highly complex, very-large-scale integration (VLSI) circuits to overcome the limitations of traditional CMOS scaling. Advancement in nanoelectronics and VLSI technology have enabled the development of compact, high-speed, and low-power embedded system. That are smaller in size, faster in operation, and consume less power. This project Presents and Advanced Nan-electronic VLSI system design designed using a PIC16F873A microcontroller for intelligent control and monitoring application. The PIC16F873A microcontroller is used as the main control unit, MAX232 enables serial communication, ULN 2803 functions as a relay driver, and HCPI-800J provides electrical isolation and signal conditioning. The Proposed system highlights effective integration of hardware and software , makings its well suited for automation and control application . The role of advanced fabrication processes , including extreme ultra-violet (EUV ) lithography and 3D integration is for enabling next – generation VLSI systems.
Chaudhri et al. (Fri,) studied this question.