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  • Engineering Course

VLSI AND MICROELECTRONICS

  • 6 Colleges

Candidates with an Master's in Microelectronics and VLSI Design have many essential abilities needed to integrate circuit design and those that apply to electronic system engineering.

About VLSI and Microelectronics

System architects, circuit designers, device engineers, software developers, and process engineers all contribute to microelectronics education, a collaborative, multidisciplinary endeavor. By focusing on these categories, India, which has VLSI (Very Large Scale Integration) design and software development skills, might gain a more significant portion of the industry. VLSI / CAD (Computer-Aided Design) research focuses on developing new algorithms and design processes that enable VLSI designers to create more accurate, faster, smaller, and power-efficient integrated circuits. One of the main reasons for the VLSI surge in recent years has been researched in VLSI/CAD. Current industrial practice abounds with applications of such research. Signal Processing applications are also being developed. Students will explore micro and nanoscale semiconductor process technologies ranging from 0.35m to 65nm CMOS process technologies for various VLSI System-On-Chip implementations during the course.

What is VLSI and Microelectronics?

Candidates with an M.Tech in Microelectronics and VLSI Design have many essential abilities needed to integrate circuit design and those that apply to electronic system engineering. Candidates get a foundation for examining system integration features and studying device attributes, making it a better platform for researching the field of electrical systems and devices. Students gain experience in areas such as business, communication, and teamwork, as well as areas of mathematics and science. Candidates will receive an in-depth understanding of technology fields such as integrated circuit device design, integrated microelectronics device processing, and advanced devices such as photonics through this curriculum. They are imbued with skills that enable them to take on leadership roles in their field of specialization, build a questionnaire, and maintain a critical mindset when examining and experimenting with challenges from a practical standpoint. The curriculum of the program is structured into three sections: theory, laboratory practice, and projects. Candidates with a strong interest in mathematics and science will assess data and develop techniques to achieve the necessary outcomes. The degree focuses primarily on microelectronic technology, with advanced secondary disciplines such as Engineering Ethics, Mathematics, and Reliability Engineering thrown in for good measure. Because the course in Microelectronic and VLSI Design program provides a cutting-edge for analyzing the workings of systems integration and discrete attributes of a device, it becomes a good platform for applicants who wish to pursue research in the future. Graduates get the opportunity to put their system design, clip design, and testing skills to the test. The classroom study covers most of the subjects, including microelectronics technology, Engineering Ethics, Mathematics, and Reliability Engineering, among others, strengthening the student's foundation in preparation for future higher education in the discipline.

Eligibility and Career in VLSI and Microelectronics

The M.Tech in Microelectronics and VLSI Design is a two-year full-time degree in VLSI Design engineering. A Bachelor's degree in B.Tech or B.E. with a minimum aggregate mark of 50% and above from a recognized university listed under UGC/AIU is required for eligibility. The course is organized across semesters, allowing students to practice their research skills. Graduates of the school have a wide range of options to select from, including research and development, innovation, electronic technology, and the information and communication sector. They can work as Device Engineers, Application Engineers, Process Development Engineers, and other related positions.

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