This FAQ will look at a lesser-known but commercially available RAM technology called resistive random-access memory (RRAM) ...

Weebit Nano secures a license agreement with Texas Instruments December 29, 2025 -- Weebit Nano Limited (ASX:WBT) (Weebit or Company), a ...

In modern CPU device operation, 80% to 90% of energy consumption and timing delays are caused by the movement of data between the CPU and off-chip memory. To alleviate this performance concern, ...

Resistive random-access memory (RRAM) is a highly attractive form of RAM, as it promises low-power usage with stable long-term storage, even in the absence of external power. Finding the right ...

Neuromorphic computing aims to replicate the functional architecture of the human brain by integrating electronic components that mimic synaptic and neuronal behaviours. Central to this endeavour are ...

Magneto-resistive random access memory (MRAM) is a non-volatile memory technology that relies on the (relative) magnetization state of two ferromagnetic layers to store binary information. Throughout ...

According to Infineon, its next-generation Aurix microcontroller will use embedded non-volatile memory, specifically resistive random access memory (RRAM), instead of embedded flash (eFlash), and it ...

Coughlin Associates and Objective Analysis released their 2024 report on emerging non-volatile memories, A Deep Look at New Memories. These memories include magnetic random access memory, MRAM; ...

Artificial Intelligence (AI) and Machine Learning (ML) applications are driving increased demand for high-performance, low-power memory solutions across consumer, medical, and industrial markets.

RAM consists of a grid of memory cells, each capable of storing a small amount of data, typically one bit (binary digit) or a few bits. These cells are organized into rows and columns, forming a ...

An analog-based chip that enables processing "in memory." Invented at the Peking University in 2025 for matrix equation solving, resistive RAM (RRAM) speeds up the massive amounts of multiply-and-add ...