Press release
Micron Unveils World’s First 1.5TB microSD Card and Automotive Functional Safety-Certified Memory to Fuel Data at Intelligent Edge
Embedded solutions and partnerships bring Micron’s 176-layer NAND and 1α DRAM innovations to industrial and automotive markets NUREMBERG, Germany, June 21,
About this update from Micron Technology, Inc.
[{"type":"text","content":"Embedded solutions and partnerships bring Micron’s 176-layer NAND and 1α DRAM innovations to industrial and automotive markets\nNUREMBERG, Germany, June 21, 2022 (GLOBE NEWSWIRE) -- Embedded World – Micron Technology, Inc. (Nasdaq: MU), today announced expansions to its embedded product portfolio and ecosystem partnerships to deliver powerful solutions optimized for complex memory and storage demands at the intelligent edge. The company is sampling to customers the world’s highest-capacity microSD card, the i400, at an unprecedented density of 1.5 terabytes (TB). This card is designed for industrial-grade video security with the world’s first 176-layer 3D NAND, also pioneered by Micron. To better provide its high-performance, ruggedized solutions to the industrial market, Micron is also adding partners to its Industrial Quotient (IQ) partner program. Additionally, the company is announcing it has received the first International Organization of Standardization (ISO) 26262 Automotive Safety Integrity Level (ASIL) D certification of memory for its low-power double data rate 5 (LPDDR5) DRAM, which is based on its first-to-market 1α (1-alpha) process node. With next-generation advanced driver-assistance systems (ADAS) applications requiring increasing levels of autonomy and safety, this certification validates that Micron’s LPDDR5 meets strict functional safety standards and positions it to enable innovations that will unleash full autonomy in intelligent vehicles. As 5G, artificial intelligence (AI) and the internet of things (IoT) converge at the edge, the world is experiencing an explosion of devices across autonomous vehicles, video security, smart factories, energy infrastructure, robotics, industrial transport, health care and more. ABI Research estimates 25 billion connected IoT devices by 2026,1 each generating enormous amounts of mission-critical data. This data increasingly needs to be stored, managed and analyzed at the edge — where it is created — for actionable real-time insights. Facilitating these tasks requires industrial-grade memory and storage capable of processing massive data sets in harsh conditions, from high temperatures to shock and vibrations. “With edge devices generating critical insights for everything from public safety to vehicle autonomy to manufacturing operations, today’s smart applications cannot a...