Hindustan Times ST (Mumbai) - Live
IIT-B researchers develop first-ever indigenous semiconductor memory tech
MUMBAI: Researchers at the Indian Institute of TechnologyBombay (IIT-B) have invented the first-ever indigenous semiconductor memory technology that can be adopted for manufacturing at commercial unit of 180nm node in India.
Memory is a critical aspect of the internet-of-things (IoT), a network of objects embedded with sensors or chips for exchange of data over a wireless network without the intervention of humans. Memories are used to customise chips by giving them user-specific storage of digital data. IoT connects tiny chips, which are all identical but distinguished by an identity (a barcode) stored in the memory. This data is stored within metal-insulator-metal (MIM) memory cells on a silicon intesaid grated circuit memory chip.
At a time when IoT is disrupting the semiconductor industry worldwide, the semiconductor manufacturing ecosystem led by Semi-Conductor Laboratory (SCL), Mohali, department of space, Government of India, had to import the main technology from abroad.
However, a team of researchers at IIT-B led by Udayan Ganguly, professor in the department of electrical engineering, along with SCL have successfully demonstrated a CMOS180nm-based 8-bit memory technology. This technology is adopted for production.
Ideally, silicon chips (like thermometers) should be identical, but manufacturing variations produce tiny offsets (such as errors in temperatures) which are revealed upon testing. This renders a large fraction of chips useless. The technology
designed by the IIT-B team enables storing this tiny offset correction in memory once and applying it to the output afterward to make each imperfect chip perfect.
Using this method, generic chips can now be designed and make application-specific offsets added to make expensive custom chip redundant, saving time and money for the user.
“One out of 100 ideas makes the journey from lab to fab. The exacting process of exceeding 95% yield requires an unrelenting multi-disciplinary team supported by a world-class R&D infrastructure to form an enduring collaboration. Once such successful technology opens possibilities of touching countless lives, in this case, through chips with a tiny memory,” said Ganguly.
This one-time programmable (OTP) memory is based on ultra-thin deposited silicon dioxide instead of the existing gate oxide-based OTP technology. In contrast to the high voltage required by gate oxide breakdown (a popular OTP memory), IIT-B’s memory chip requires less power and chiparea as the need for boosted voltage supply is avoided.
“Memory technology is critical to data security. It is essential for present and future Indian Fabs. To infuse innovation, translating memory technology from research to manufacturing is key to compete globally and serve locally to establish a vibrant semiconductor ecosystem. OTP Memory Technology Adoption for Trimming Application by the joint IIT-B-SCL, Chandigarh team is a pioneering step in this direction. It will be a game changer by enabling secure memory and encryption hardware for the country,” said VK Saraswat, member of NITI Aayog.
The project was initiated by the department of science and technology’s (DST) Intensification of Research in High Priority Area (IRHPA).