Fast and Robust Design of CMOS VCO for Optimal Performance

The exponentially growing design complexity with technological advancement calls for a large scope in the analog and mixed signal integrated circuit design automation. In the automation process, performance optimization under different environmental constraints is of prime importance. The analog integrated circuits design strongly requires addressing multiple competing performance objectives for optimization with ability to find global solutions in a constrained environment. The integrated circuit (IC) performances are significantly affected by the device, interconnect and package parasitics. Inclusion of circuit parasitics in the design phase along with performance optimization has become a bare necessity for faster prototyping. Besides this, the fabrication process variations have a predominant effect on the circuit performance, which is directly linked to the acceptability of manufactured integrated circuit chips. This necessitates a manufacturing process tolerant design. The development of analog IC design methods exploiting the computational intelligence of evolutionary techniques for optimization, integrating the circuit parasitic in the design optimization process in a more meaningful way and developing process fluctuation tolerant optimal design is the central theme of this thesis. Evolutionary computing multi-objective optimization techniques such as Non-dominated Sorting Genetic Algorithm-II and Infeasibility Driven Evolutionary Algorithm are used in this thesis for the development of parasitic aware design techniques for analog ICs. The realistic physical and process constraints are integrated in the proposed design technique. A fast design methodology based on one of the efficient optimization technique is developed and an extensive worst case process variation analysis is performed. This work also presents a novel process corner variation aware analog IC design methodology, which would effectively increase the yield of chips in the acceptable performance window. The performance of all the presented techniques is demonstrated through the application to CMOS ring oscillators, current starved and xi differential voltage controlled oscillators, designed in Cadence Virtuoso Analog Design Environment

A Brief Analysis of Gravitational Search Algorithm (GSA) Publication from 2009 to May 2013

Gravitational Search Algorithm was introduced in year 2009. Since its introduction, the academic community shows a great interest on this algorith. This can be seen by the high number of publications with a short span of time. This paper analyses the publication trend of Gravitational Search Algorithm since its introduction until May 2013. The objective of this paper is to give exposure to reader the publication trend in the area of Gravitational Search Algorithm