A team of researchers from IIT-Guwahati has made a key breakthrough in memory chips.

The researcher team made a fundamental contribution to memory architectures by preventing redundancy in data values and improving slow and frequent writes in multi-core processor systems.

Ready for a challenge? Click here to take our quiz and show off your knowledge!

The breakthrough will solve problems in multi-core processor-based systems that need an equally large on-chip memory to commensurate the data demands of the ever-growing applications, preventing energy consumption to ensure the temperature remains under the thermal design power (TDP) budget.

โ€œThe application data access patterns are not uniformly distributed and hence leads to several orders of writes to certain memory locations compared to others,โ€ said professor Hemangee K Kapoor, Department of CSE, IIT Guwahati

โ€œSuch heavily written locations become prone to wear-out and thus prevents the use of complete memory device without error corrections,โ€ he said.

Ready for a challenge? Click here to take our quiz and show off your knowledge!

Artificial Intelligence (AI) and Machine Learning (ML) are used as tools to solve several real-time problems.

โ€œHowever, they involve enormous computations on huge datasets. Building close to memory accelerators to process the data are efficient in performance as well as energy,โ€ the researchers said.

The findings of their research have been published in several reputed peer-reviewed journals.

Kapoor said the team is also working on extending them to off-chip main memory.

โ€œThe future challenges are to handle lifetime enhancement in presence of encryption methods used to secure the Non-volatile memory and to handle temperature and process technology-driven disturbance errors introduced when the cells are read or written,โ€ he added.