This temperature is specified for automotive grade 1 Non-Volatile Memories (NVMs) and this achievement demonstrates the suitability of Weebit ReRAM for use in microcontrollers and other automotive components, as well as high-temperature industrial and IoT applications.
The qualification, using Weebit’s demo chips manufactured by its R&D partner CEA-Leti, was performed based on JEDEC industry standards for NVMs. These standards impose rigorous testing of many silicon dies blindly selected from three independent wafer lots.
Most chips for consumer and industrial applications need to be qualified for up to 10 years at temperatures between zero and 85 degrees Celsius. Advanced automotive components are more stringent, requiring qualification at higher temperatures for 10 years or longer, with zero failures.
All the Weebit dies successfully passed the entire set of qualification tests at 125 degrees Celsius for 10 years retention, demonstrating the quality and repeatability of Weebit’s embedded ReRAM IP for applications requiring high-temperature reliability.
Coby Hanoch, CEO of Weebit Nano, said, “This achievement is part of an ongoing process through which we are extending the qualification of our ReRAM technology to even higher temperatures, longer retention and higher endurance levels. In our discussions with Tier-1 foundries and semiconductor companies, we’re seeing increased interest in our ReRAM for automotive and industrial applications. Proving the resilience of Weebit ReRAM at such high temperatures will continue to move these discussions forward. We believe ReRAM to be a better choice for automotive and industrial applications not only because of its high temperature performance, but also its low complexity, cost effectiveness, and other advantages such as tolerance to radiation and electromagnetic interference.”
According to Simone Bertolazzi, PhD. Principal Technology & Market Analyst, Memory at Yole Intelligence, part of Yole Group, “Embedded ReRAM is a promising candidate for automotive applications, demonstrating better performance metrics than flash, such as programming time, endurance, and power consumption. Thanks to the involvement of major foundries and leading automotive MCU suppliers, the volume of embedded ReRAM wafers is expected to rise at a CAGR >80% between 2022 and 2028.”
The Weebit ReRAM demo chip comprises a full sub-system for embedded applications, including the Weebit ReRAM module, a RISC-V microcontroller (MCU), system interfaces, memories and peripherals. The ReRAM module includes a 128Kb 1T1R ReRAM array, control logic, decoders, IOs (Input/Output communication elements) and error correcting code (ECC).
It is designed with patent-pending analogue and digital circuitry running smart algorithms that significantly enhance the memory array’s technical parameters.
