Weebit Nano Achieves Results at Forefront of ReRAM Market
Tests conducted by French research institute Leti
This is a Press Release edited by StorageNewsletter.com on May 10, 2019 at 2:08 pmWeebit Nano Ltd, an Israel-based semiconductor company seeking to develop and commercialise the next generation of memory technology, announces that its Silicon Oxide (SiOx) ReRAM technical parameters have been confirmed at the forefront of the market.
This builds on the recent process optimisation milestones where the company announced it had reached market level retention in October 2018, and market level endurance and voltages in January 2019.
The key parameters for a non-volatile memory are retention and endurance. Tests on the latest batch of wafers conducted by Leti, the French research institute in the field of micro-electronics, have shown improvement on the previous results, demonstrating retention of over 10 years at 130-150o°C – at the forefront of ReRAM technologies. These results at high temperatures broaden the range of potential commercial applications for the company’s ReRAM technology, most notably automotive applications.
In addition, the latest batch showed single cells demonstrating endurance of a million cycles, exceeding flash performance.
Coby Hanoch, CEO, Weebit Nano, said: “Improving technical parameters is an ongoing task. As announced previously, we demonstrated market competitive retention, endurance and voltage levels early this year. We are now very proud to have improved the endurance and the retention at high temperatures, placing us at the forefront of the ReRAM market. These capabilities in our ReRAM chips also opening new potential markets such as automotive. This is a significant step forward for the company. We will continue to optimise parameters, responding to feedback from potential customers as part of our ongoing dialogue with them. This will be done in parallel to the work on productisation, as these two tasks go hand-in-hand.“
Weebit Nano is continuing to optimise its technology as it moves towards production on 300mm wafers and will report further technical achievements as they are made.