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Micron Ships World's First 176-Layer 3D NAND Flash Memory

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Micron today announced that it has begun volume shipments of the world's first 176-layer 3D NAND flash memory, achieving unprecedented, industry-pioneering density and performance. Together, Micron's new 176-layer technology and advanced architecture represent a radical breakthrough, enabling immense gains in application performance across a range of storage use cases spanning data center, intelligent edge and mobile devices.

"Micron's 176-layer NAND sets a new bar for the industry, with a layer count that is almost 40% higher than our nearest competitor's," said Scott DeBoer, executive vice president of technology and products at Micron. "Combined with Micron's CMOS-under-array architecture, this technology sustains Micron's industry cost leadership."





Representing Micron's fifth generation of 3D NAND and second-generation replacement-gate architecture, Micron's 176-layer NAND is the most technologically advanced NAND node in the market. Compared with the company's previous generation of high-volume 3D NAND, Micron's 176-layer NAND improves both read latency and write latency by more than 35% — dramatically accelerating application performance. Featuring approximately 30% smaller die size than best-in-class competitive offerings, Micron's 176-layer NAND's compact design is ideal for solutions using small form factors.

Groundbreaking technology arms diverse markets with the fullest power of flash

"Micron's 176-layer NAND enables breakthrough product innovation for our customers," said Sumit Sadana, executive vice president and chief business officer at Micron. "We are deploying this technology across our broad product portfolio to bring value everywhere NAND is used, targeting growth opportunities in 5G, AI, cloud and the intelligent edge."

With its versatile design and unrivaled density, Micron's 176-layer NAND serves as an essential building block in technologists' toolboxes across a broad array of sectors, including mobile storage, autonomous systems, in-vehicle infotainment, and client and data center solid-state drives (SSDs).

Micron's 176-layer NAND offers improved quality of service (QoS2), a critical design criterion for data center SSDs. This can accelerate data-intensive environments and workloads such as data lakes, artificial intelligence (AI) engines and big data analytics. For 5G smartphones, the enhanced QoS can enable faster launching and switching across multiple apps, creating a more seamless and responsive mobile experience and enabling true multitasking and full use of 5G's low-latency network.

Micron's fifth generation of 3D NAND also features an industry-leading maximum data transfer rate at 1,600 megatransfers per second (MT/s) on the Open NAND Flash Interface (ONFI) bus, a 33% improvement. The increased ONFI speed leads to faster system bootup and application performance. In automotive applications, this speed will power near instant-on response times for in-vehicle systems as soon as engines are turned on, enhancing the user experience.

Micron is working with industry developers to quickly integrate the new products into solutions. To simplify firmware development, Micron's 176-layer NAND offers a single-pass programming algorithm, enabling easier integration and speeding time to market.

Micron achieves unparalleled density and cost leadership with novel architecture

With the slowing of Moore's Law, Micron's innovation in 3D NAND is critical to ensuring that the industry can keep pace with growing data requirements. To achieve this milestone, Micron has uniquely combined its stacked replacement-gate architecture, novel charge-trap and CMOS-under-array (CuA) techniques. Micron's team of 3D NAND experts achieved rapid advancements with the company's proprietary CuA technique, which constructs the multilayered stack over the chip's logic — packing more memory into a tighter space and substantially shrinking the 176-layer NAND's die size, yielding more gigabytes per wafer.

In tandem, Micron has improved scalability and performance for future NAND generations by transitioning its NAND cell technology from legacy floating gate to charge-trap. This charge-trap technology is combined with Micron's replacement-gate architecture, which uses highly conductive metal wordlines instead of a silicon layer to achieve unparalleled 3D NAND performance. Micron's adoption of this technology will also enable the company to drive aggressive, industry-leading cost reductions.

Applying these advanced techniques, Micron has increased endurance, which is particularly beneficial in write-intensive use cases — from black boxes in aerospace to video surveillance recording. In mobile storage, 176-layer NAND's replacement-gate architecture results in 15% faster mixed workload performance to power ultra-fast edge computing, enhanced AI inference, and graphic-rich, real-time multiplayer gaming.

Availability

Micron's 176-layer triple-level cell 3D NAND is in volume production in Micron's Singapore fab and now shipping to customers, including through its Crucial consumer SSD product lines. The company will introduce additional new products based on this technology during calendar 2021.

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Big SSD's comes and prices of smaller volumes will cut down when mass production and sales of devices with this new NAND release. I love this!
 
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Are they going to label it MLC176?
 
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Are they going to label it MLC176?
I was going to ask a similar question. Is this MLC, TLC or QLC? MLC & TLC would be good, but QLC? No Thank you. Such would be a very hollow achievement.

EDIT; Nevermind, it was right at the end of the article:
Micron's 176-layer triple-level cell 3D NAND
This is solid good news. Hopefully they will also manufacture MLC versions as well for higher durability products.
 
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The cell type is independent of the stack layers.
Sure, that's why they name them slc, mlc, tlc, qlc etc.
mlc176 makes sense, unless you don't care about layers and just call them all mlc.
 
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Sure, that's why they name them slc, mlc, tlc, qlc etc.
mlc176 makes sense, unless you don't care about layers and just call them all mlc.

Again, number of vertical layers is independent of cell type. Completely. You can have 176 layer SLC, MLC, or TLC, QLC, etc. Your call. More layers actually helps lower cell programming types be possible in the same space.
 
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Let's review...

If it's Triple-Level Cell(TLC) 3D NAND, how would your suggestion of " MLC176 " make any sense at all?
WUT!
How is 3D, triple layer now, maybe it's time you review.
 
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WUT!
How is 3D, triple layer now, maybe it's time you review.
Or perhaps your ability to read english needs improvement? Maybe you don't understand the difference between SLC, MLC, TLC and QLC? If it's the " 3D " aspect throwing you off, maybe you have yet to understand that normal NAND is made with the cell laid out flat where-as 3D-NAND is made with the cell that has a presence in the z-axis as well? Regardless, your above description is fundamentally, conceptually and technically flawed.
 
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Or perhaps your ability to read english needs improvement? Maybe you don't understand the difference between SLC, MLC, TLC and QLC? If it's the " 3D " aspect throwing you off, maybe you have yet to understand that normal NAND is made with the cell laid out flat where-as 3D-NAND is made with the cell that has a presence in the z-axis as well? Regardless, your above description is fundamentally, conceptually and technically flawed.
There you go again with your typical argumentative style of belittling and being pompous.
 
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There you go again with your typical argumentative style of belittling and being pompous.

This isn't being pompous man. You are just wrong. We are suggesting you educate yourself here, as nicely as we can put it. I mean literally the article you are reading is the only source we need to prove you are wrong. You need not even leave TPU.

triple layer now

Triple Level Cell. Not Triple Layer Cell.
 
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