Establishing a Novel CAD-Based Paradigm for Design of VLSI Integrated Circuits

Abstract

This paper describes growing and enforcing a novel laptop-aided design (CAD) paradigm for the format of Very-huge-Scale included (VLSI) circuits. This technique integrates the setup standards of sound judgment synthesis, circuit optimization, and elapsed time estimation techniques to provide clients with a unified framework for designing modern VLSI structures. The proposed paradigm consists of machine studying techniques, such as Gaussian techniques and convex programming, to optimize the selection of components and evaluate layout placements. The designed circuit is then expected via simulation, measurement, and evaluation. The proposed CAD paradigm is validated in an 8-bit ripple-convey adder system layout. The results of the take a look at provide robust proof that this novel CAD-primarily based paradigm is a powerful technique for designing modern VLSI systems.