Artificial Neural Network and Genetic Algorithm Based Hybrid Intelligence for Performance Optimization of Novel Inverted Funnel Shaped Fin Shaped Field Effect Transistor with Gate Stack High-k Dielectric

Author:

Kaur Gurpurneet1,Gill Sandeep Singh2,Rattan Munish3

Affiliation:

1. I. K. Gujral Punjab Technical University, Jalandhar 144603, Punjab, India

2. National Institute of Technical Teachers Training and Research, Chandigarh 160019, Punjab, India

3. Guru Nanak Dev Engineering College, Ludhiana 141006, Punjab, India

Abstract

Today, Fin shaped Field Effect Transistors (FinFETs) are the foundation of the sub-nanometer technology node. The semiconductor industry endorses it in low-power (LP) and high-performance (HP) applications due to its better electrostatic control and exceptional scalability. In this paper, the structure of an inverted funnel-shaped FinFET device with a high-k stacked gate has been optimized using integrated Artificial Neural Network (ANN) and genetic algorithm (GA) approach. The comparative analysis of rectangular FinFET, trapezoidal FinFET and proposed novel shaped FinFET has also been explored. The electrical and analog performance parameters of the novel device present better performance results with respect to the other two transistors. In ANN training, the three datasets have been created by varying the metrics such as equivalent oxide thickness (EOT) and dielectric constant (k) of novel shaped FinFET device in Technology computeraided design simulator (TCAD). The amalgamation technique of ANN and GA optimization provides diminished Subthreshold Swing (SS), reduced off-current (IOFF), enhanced on-current (ION) and improved current ratio (ION/IOFF) corresponding to the optimal value of EOT and k. The new structure designed and simulated with the optimal amount of EOT and k results in outstanding performance parameters. The device metrics values, SS of 62.1 mV/dec, IOFF of 6.56×10-11, ION of 3.938×10-5 and ION/IOFF of 5.95×105 indicate that optimized device has suppressed Short Channel Effects (SCEs). The average deviatION of 3.48% between the value of ANN-GA optimized results obtained through MATLAB and TCAD simulated performance parameters justify the effectiveness of proposed FinFET.

Publisher

American Scientific Publishers

Subject

Electrical and Electronic Engineering,Electronic, Optical and Magnetic Materials

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