Central government will soon launch an information technology server and IT hardware production link incentive (PLI) scheme, and also offer additional incentives for manufacturers that incorporate Indian-design intellectual property into their products, Union Minister of State for Electronics and IT Rajeev Chandrasekhar said.
Virtually addressing the VLSI Design Conference 2023, Rajeev Chandrasekhar said the government has announce Future Design Programme, which invests $200 million (approx. Rs. 1,635 crore) in startups that will design or co-design IP, tools or devices for the next generation of applications in India.
Rajeev Chandrasekhar Said :
He further said the Centre is also focus on Digital India RISC-V (DIR-V) programme for next generation microprocessors to achieve commercial silicon and design wins, according to a release by the organisers.
The five-day conference them “Semiconductors Driving Disruptive Innovations in Global Digitalisation” is design to bring together key stakeholders, and represent by engineers, students and faculty, industry professionals, academia, researchers, bureaucrats, and government organisations, it said.
Telangana government’s Principal Secretary of Information Technology Jayesh Ranjan said the state is at the forefront of the startup revolution and has already create a wave of opportunities for innovation and startups across the technology sector and VLSI field, with leading semiconductor companies having their base, and rapidly expanding in Hyderabad.
Satya Gupta, President of VLSI Society of India, highlight the role of VLSI in developing and accelerating the pace of the sector in India and how it shape the growth of startups.
Very-large-scale integration (VLSI) is the process of creating an integrated circuit (IC) by putting together thousands of transistors into a single semiconductor microchip.
A microprocessor is a commonly used VLSI device in the electronics industry.
With scaling reaching its fundamental limits, Satya Gupta said it is time to look at addressing technological challenges at higher levels of abstraction in CMOS-based design and at the same time, look beyond silicon for further performance enhancement, as per release.
CMOS stands for “Complementary Metal Oxide Semiconductor”, which is a technology use to produce integrated circuits.
CMOS circuits are found in many types of electronic components, including microprocessors and batteries.