Tuesday, August 2nd 2022

SK hynix Develops World's Highest Stacked 238-Layer 4D NAND Flash

SK hynix Inc. announced today that it has developed the industry's highest 238-layer NAND Flash product. The company has recently shipped samples of the 238-layer 512Gb triple level cell (TLC) 4D NAND product to customers with a plan to start mass production in the first half of 2023. "The latest achievement follows development of the 176-layer NAND product in December 2020," the company stated. "It is notable that the latest 238-layer product is most layered and smallest in area at the same time."

The company unveiled development of the latest product at the Flash Memory Summit 2022 in Santa Clara. "SK hynix secured global top-tier competitiveness in perspective of cost, performance and quality by introducing the 238-layer product based on its 4D NAND technologies," said Jungdal Choi, Head of NAND Development at SK hynix in his keynote speech during the event. "We will continue innovations to find breakthroughs in technological challenges."
Since development of the 96-layer NAND product in 2018, SK hynix has introduced a series of 4D products that outperform existing 3D products. The company has applied charge trap flash and peri under cell technologies to make chips with 4D structures. 4D products have a smaller cell area per unit compared with 3D, leading to higher production efficiency.

The product, while achieving highest layers of 238, is the smallest NAND in size, meaning its overall productivity has increased by 34% compared with the 176-layer NAND, as more chips with higher density per unit area can be produced from each wafer.

The data-transfer speed of the 238-layer product is 2.4Gb per second, a 50% increase from the previous generation. The volume of the energy consumed for data reading has decreased by 21%, an achievement that also meets the company's ESG commitment.

The 238-layer products will be first adopted for client SSDs which are used as PC storage devices, before being provided for smartphones and high-capacity SSDs for servers later. The company will also introduce 238-layer products in 1 Terabit (Tb) next year, with density doubled compared to the current 512Gb product.
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15 Comments on SK hynix Develops World's Highest Stacked 238-Layer 4D NAND Flash

#1
lexluthermiester
And here's the first answer to Micron's new design NAND. Looks like a solid answer. NAND market future is looking better.
Posted on Reply
#2
Minus Infinity
232 layers last week, 244 this week, I'm predicting a nice 256 layer product in the next month.

Anyway layers smayers, we want affordable 4TB+ SSD's. Sucks to see 4TB @ over 2.5x the 2TB price still.
Posted on Reply
#4
80251
Can 5D parts be far behind!?
Posted on Reply
#5
KapiteinKoek007
80251Can 5D parts be far behind!?
sure, they just have to implement the 5th dimension, time, shouldnt be a problem. :)
Posted on Reply
#6
lexluthermiester
80251Can 5D parts be far behind!?
Only if they claim and utilize a quantum state process for storage. And let's be fair, that is possible. The laws of physics do not exclude such a thing.
Posted on Reply
#7
80251
If anyone claims storage parts in the 5th dimension they'll have to answer to these guys and gals:

I hope I'm not in trouble (again)! My apologies to the mods in advance. I have a rare condition, humorous tourettes.
Posted on Reply
#8
KapiteinKoek007
80251If anyone claims storage parts in the 5th dimension they'll have to answer to these guys and gals:

I hope I'm not in trouble (again)!
Saw it, incase it gets modded haha
Posted on Reply
#9
zlobby
KapiteinKoek007Saw it, incase it gets modded haha
Witneeeeessss!
Posted on Reply
#10
R-T-B
Minus Infinity232 layers last week, 244 this week, I'm predicting a nice 256 layer product in the next month.

Anyway layers smayers, we want affordable 4TB+ SSD's. Sucks to see 4TB @ over 2.5x the 2TB price still.
Layers is how you do that. More improves density and reliability.

The 4D terminology on the other hand, is a bit weird. You don't go from three dimensions to 4. These aren't time traveling flash chips.... (well technically they are, but just one way, and very slowly) :laugh:
Posted on Reply
#11
zlobby
R-T-BLayers is how you do that. More improves density and reliability.

The 4D terminology on the other hand, is a bit weird. You don't go from three dimensions to 4. These aren't time traveling flash chips.... (well technically they are, but just one way, and very slowly) :laugh:
Going up a dimension or two from our 3+1 spacetime, time itself also stops being 'moving'. Just as our familiar XYZ are 'just there, sitting idly'. Funky, eh?
Posted on Reply
#12
R-T-B
zlobbyGoing up a dimension or two from our 3+1 spacetime, time itself also stops being 'moving'. Just as our familiar XYZ are 'just there, sitting idly'. Funky, eh?
I wouldn't know, I've yet to get a time machine or dimensional portal.
Posted on Reply
#13
lexluthermiester
R-T-BThe 4D terminology on the other hand, is a bit weird. You don't go from three dimensions to 4. These aren't time traveling flash chips.... (well technically they are, but just one way, and very slowly) :laugh:
I think that's what the marketing is trying to implicate, that this NAND operates at an accelerated speed and can do more in less time. Calling it "4D NAND" is scientifically lacking in every way, but from practical "human" perspective the term has some meaning.
Posted on Reply
#14
zlobby
R-T-BI wouldn't know, I've yet to get a time machine or dimensional portal.
(Most of us) Have a powerful machine in our heads. With some inference and deduction we can do extremely powerful stuff, incl. imagine dimensions (dragons).

Here, have a tessaract
Posted on Reply
#15
R-T-B
zlobby(Most of us) Have a powerful machine in our heads. With some inference and deduction we can do extremely powerful stuff, incl. imagine dimensions (dragons).

Here, have a tessaract
No I'd rather not.
Posted on Reply
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