According to researchers at IIT Roorkee, they have made a breakthrough in memory device technology which, they said, usher in a new technological revolution.
A team of scientists from the Department of Physics and Centre for Nanotechnology has developed a high-density, energy-efficient, and four-logic state memory device named Magnetoelectric Random Access Memory (MeRAM).
The device could provide a massive progress in the overall computing processes and memory-intensive tasks like video and multimedia signal processing, pattern recognition, virtual reality, artificial intelligence and machine learning.
“MeRAM has immense potential to be used in future memory chips for almost all electronic applications, including smartphones, tablets, computers, microprocessors, and for large data storage,” Davinder Kaur Walia, a professor at the Department of Physics and Centre for Nanotechnology, said.
The device was constructed in the Functional Nanomaterials Research Laboratory using magnetron sputtering technique, she said.
The major advantage MeRAM has over existing technologies is that it combines extraordinary low energy with very high density, high-speed reading and writing times, and non-volatility–the ability to retain data when no power is applied, Walia said.
“The world is rapidly moving towards faster, smaller and quantum technologies which have created an ever-increasing demand for small and more efficient devices and technology.
Our focus was to achieve a four-logic state as we knew that then we will be able to create a device which could probably usher in a new technological revolution,” she said.
“To achieve this, we used a new material called Ferromagnetic Shape Memory Alloys (FSMA) and the concept of the composite barrier were chosen which helps us in achieving the goal of distinguishable memory logic states. The current ultimate memory cell has shown a tremendous improvement of nearly 140 percent in the memory functions,” she added.