Samsung Partners With IISc for Advanced Nanoelectronics Device Research
Samsung Semiconductor India Research (SSIR) announced a new partnership with the Indian Institute of Science (IISc) to promote research and development in the field of on-chip Electrostatic Discharge (ESD) protection. The partnership seeks to build cutting-edge ESD device solutions to protect ultra-high-speed serial interfaces in advanced Integrated Circuits (ICs) and system-on-chip (SoC) products, a joint statement said on Wednesday.
The related research will be carried out by Prof Mayank Shrivastava’s group at the Department of Electronic Systems Engineering (DESE), IISc. Solutions arising from this research will be deployed in Samsung’s advanced process nodes.
ICs and SoCs are essential for practically any system, from small to big, that we see around us, but they are very sensitive to ESD failures, especially those developed using advanced nanoscale CMOS (Complementary Metal Oxide Semiconductor) technologies.
The majority of IC chip failures and field returns are attributed to ESD failures, it was noted. This is also rare expertise and industries holding the art of designing ESD protection devices and interface concepts lead the market.
“Thus, R&D in ESD technology for highly reliable interfaces and SoCs that operate at low power and high speed is an integral part of the semiconductor innovation effort. IISc is one of the few institutes in the world leading ESD device research”, the statement said.
The research agreement was exchanged by CVP & MD at Samsung Semiconductor India Research, Bengaluru, Balajee Sowrirajan, and IISc Director Prof Govindan Rangarajan, in the presence of delegates from Samsung and IISc.
“We are glad to partner with IISc to boost semiconductor innovation and envisage developing ESD knowledge along with expertise available in IISc. Our goal is also to increase capacity building through training programs at the postgraduate level, opening up opportunities for students to pursue industry internships, and encourage entrepreneurial ventures by young researchers,” said Sowrirajan.
Prof Rangarajan said, “The partnership reinforces our commitment to strengthen industry-academia engagements that can make a significant impact in the coming years.” “We have been collaborating extensively with semiconductor industries worldwide on advanced nanoelectronics technologies, including solutions to ESD reliability threats to advanced SoCs. We have carried out both fundamental and applied research on ESD protection devices, with a strong emphasis on creating practical solutions for the semiconductor industry in a range of technology nodes,” said Prof Shrivastava.
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Scientists have observed whether the meteorites can reach Earth from Mercury. Over thousands of meteorites from Mars and the Moon have been observed, but none have been from Mercury, despite it being a nearby rocky planet. A new study revealed Icarus suggests two meteorites, Ksar Ghilane 022 and Northwest Africa 15915, could belong to Mercurian origin. Such a kind of meteorite can offer a realistic opportunity to study the material of the surface of the planet, if the technical challenges and the cost of sending a spacecraft to Mercury are met.
New Meteorite Samples Show Strong Similarities
As per the new studies reported to Physics.org , Meteorite NWA 7325 and aubrites in the past were considered to be possibly from Mercury. However, the mineral composition of their samples has inconsistencies with the known surface data from the Messenger mission of NASA. Aubrites formed on a planet similar in size to Mercury, lacking spectral and chemical similarities, and further weakened as Mercurian fragments.
Ksar Ghilane 022 and NWA 15915, the new samples, share many traits of Mercury crust, with olivine, oldhamite, pyroxene, and minor albitic plagioclase. The oxygen composition of these matched with the aubrites, signalling a similar planetary origin and putting them among strong Mercurian members.
Key Differences Raise Scientific Questions
There are key differences even after that, and the two meteorites contain very little plagioclase than on the Mercury surface, and are about 4,528 million years older than Mercury’s surface material. If they are from Mercury, there is a possibility that they can represent an ancient crust which is no longer visible on the planet.
Future Missions and Scientific Verification
Relating a meteorite to a particular planet is quite difficult without direct samples. BepiColombo missions are orbiting Mercury currently, and can offer valuable insights to confirm meteorites source. Mercurian meteorites can get valuable insights into the formation, composition and history of the planet. There are further findings to be presented at the Meteoritical Society Meeting 2025 in Australia.
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