MRAM-Info is a news hub and knowledge center born out of keen interest in MRAM memory technologies.
MRAM is a next-generation memory technology, based on electron spin rather then its charge. Often referred to as the "holy-grail of memory", MRAM is fast, high-density and non-volatile and can replace all kinds of memories used today in a single chip.
Ambiq's Apollo4 System-on-Chip family, with its onboard MRAM memory, has received the Flash Memory Summit 2020's Best of Show Award for the Most Innovative AI Application.
Ambiq's Apollo4 SoC was recognized for its low power package integrated with MRAM for high performance.
Everspin Technologies announced its Q3 2020 financial results, with revenues of $10.1 million, up 10% from Q3 2019 ($9.2 million) but down $14% from Q2 2020 ($11.8 million). The company's net less was $3.9 million.
Looking at the balance sheet, Everspin reports a cash flow of $1 million in the quarter - this was the first quarter ever for Everspin to have a positive cash flow.
pMTJ STT-MRAM developer Avalanche Technology announced that it is providing its MRAM Persistent SRAM (P-SRAM) products for industrial touch screen applications developed by M2I corporation.
M2I is using Avalanche’s 4Mbit High Performance MRAM chips for its its popular TOP Human Machine Interface products used in industrial automation systems.
High-performance STT-MRAM developer Numem announced that it has been selected for a NASA AI project, for which the company will supply its Numem NuRAM MRAM-based Memory. Numem says its memory enables a 2-3x smaller memory area and 20x to 50x lower standby power compared to SRAM.
The project, titled “DNN Radiation Hardened Co-processor as companion chip to NASA’s upcoming High-Performance Spaceflight Computing Processor” will develop a reconfigurable DNN Engine with multiple compute units which can support a wide range of DNN models and frame rates.
Researchers from the National Taiwan University developed an ultra-high performance MTJ, using a superlattice barrier and half-metallic magnets. The so-called superlattice-MTJ can be the basis of a new class of STT-MRAM (which the researcher call SS-MRAM) that achieves ultra-low power RA and write operations, high writing speed and unlimited endurance.
SS-MRAM adopts a superlattice barrier that replaces the MgO layer used in common STT-MRAM. The MgO layer is unstable and also suffers from a very large RA which results in high power consumption for writing operations. The superlattice has higher spin polarization than MgO and so the SS-MARM can provides not only ultra-high MR ratio but also ultra-low RA for high-speed and low power writing.
pMTJ STT-MRAM developer Avalanche Technology announced that its new industrial-grade Serial (SPI) P-SRAM (Persistent SRAM) memory devices are now available. The Serial (SPI) memory devices are designed to be drop-in replacements to Cypress F-RAM and Everspin Toggle MRAM memory products.
The Series (SPI) series supports up to 50MHz clock rate in 1Mb and 4Mb density options, in two packages - 8-pin SOIC and 8-pin WSON. These use Avalanche's 40nm pMTJ STT-MRAM chips.
A team of researchers from the National Tsing Hua University (NTHU) in Taiwan have discovered that by adding a layer of platinum only a few nanometers thick, one can switch the pinned magnetic moments at MRAM cells at will. This was never achieved before, and can lead to faster and more efficient MRAM devices.
The platinum layer is placed between the two layers of the MRAM device - the upper layer, a freely flipping magnet used for data computation and the bottom layer that consists of a fixed magnet, responsible for data storage. Due to spin-orbit interactions, the electric current drives the collective motion of electron spins first. The spin current then switches the pinned magnetic moment effectively and precisely.