头头体育滚球官网 www.compressmachine.com Samsung on Tuesday introduced its sixth-generation V-NAND memory, which in a bid to further improve capacity and density, features over 100 active layers. To make V-NAND with over 100 layers viable from performance point of view, the company had to use new circuit design technology. The new memory features 10% lower latencies and consumes 15% lower amount of power when compared to Samsung's previous-generation V-NAND.

Samsung’s 6th Generation V-NAND features up to 136 layers as well as charge trap flash (CTF) cells. The new memory uses one stack and does not use technologies like string stacking to build over 100 layers. In order to ensure minimal errors and low latencies, Samsung had to use a new speed-optimized circuit design. The latter enables the new 3D TLC 256 Gb chips to offer below 450 microseconds (μs) latency for write operations and below 45 μs for read operations, which is 10% faster when compared to 5th Generation V-NAND, according to Samsung. Meanwhile, the latest V-NAND also features lower power consumption than its predecessors.

It is noteworthy that the new 256 Gb 136-layer V-NAND devices use 670 million holes, down from 930 million holes with the previous generation, which means that the new chips need fewer process steps and are easier to manufacture. What is important is that Samsung plans to use its 136-layer architecture with speed-optimized circuit design to build V-NAND devices with over 300 layers by mounting three of the current stacks on top of each other (thus tripling a chip’s capacity).

Initially, Samsung will offer 256 Gb 3D TLC 136-layer V-NAND devices that will first be used for Samsung’s 250 GB SSDs. Later this year Samsung intends to release 512 Gb 136-layer V-NAND devices that will be used for other drives as well as eUFS storage solutions.

Speaking of the 256 GB 6th Gen V-NAND SSD, it is important to point out that it uses Samsung’s new controller marked as the S4LR030/S94G4MW2.

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Source: Samsung

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  • GreenReaper - Tuesday, August 06, 2019 - link

    If they only need that big a circuit board, you have to wonder if it'd be better just to cut the case in half!

    Also... I know you're working from releases for pipeline stories, but is it truly necessary to note that "it's noteworthy", or "important to point out"? If a particular fact wasn't truly notable or important, presumably you just wouldn't mention it at all? Picky, I know, but it bugs me. :-/
    Reply
  • s.yu - Tuesday, August 06, 2019 - link

    If we pack a 2.5" form factor full of flash memory it should far exceed 10TB. Reply
  • raywin - Tuesday, August 06, 2019 - link

    and your budget Reply
  • FunBunny2 - Tuesday, August 06, 2019 - link

    good point. I've always wondered why, at least Enterprise, SSD don't do that. there are sufficient address lines, and power shouldn't be an issue, after all if you load chassis with a dozen or so SSD, you'll draw about the same power. Reply
  • Jorgp2 - Tuesday, August 06, 2019 - link

    The idea is that with insane capacities on a SATA interface, is that your per GB bw goes way down Reply
  • 29a - Tuesday, August 06, 2019 - link

    If they cut the case size in half it wouldn't be compliant with the 2.5" hdd form factor. Reply
  • Valantar - Tuesday, August 06, 2019 - link

    Yeah, that would make laptop use near impossible. Even mounting in most desktop brackets would be loose and weird. Reply
  • beginner99 - Wednesday, August 07, 2019 - link

    Laptop yes is a problem but desktop? I mean you don't even need a mounting spot you can just tape the 2.5 drives somewhere. it's not like ssds need decoupling or need to be mounted especially secure. Reply
  • Azurael - Wednesday, August 07, 2019 - link

    The OEM market seems to consist almost exclusively of m.2 drives now, whether SATA or NVMe. Of the remaining market for 2.5" SATA SSDs, how many do you think end up in desktops? I'd hazard a guess that the overwhelming majority of 2.5" SATA SSDs sold in 2019 are retrofitted into older notebooks which came with HDDs and require a standard full length 2.5"/9.5mm height form factor. Samsung isn't going to make a different version of the drive to fulfill the wishes of a tiny proportion of the market for the device. If you need one, you could always design and 3D print your own. Reply
  • sing_electric - Wednesday, August 07, 2019 - link

    I'm REALLY not sure that that's the case - the vast majority of cheap notebooks are purchased by people who wouldn't think of upgrading no matter what - and mid-to-high end notebooks have been SSD based for many years now (and in the past 5-ish years, many low-end notebooks like Chromebooks came with eMMC, not a HDD). On the business side, many companies that have repair contracts (which would specify a like-for-like replacement of a broken component), and the ones that don't are probably equally loathe to spend extra cash on an older machine (for a probably junior-level employee).

    My bet is that most 2.5" SATA drives go in desktops BY FAR, since they've got the space and a lot of SSDs come with 2.5"-3.5" adapters. If you're making a system to look decent on a spec sheet, "500GB SSD" is cheaper to do if its a 2.5" SATA drive than if its a m2 one, and if you're building a higher-end system, 2.5" drives are a great way to add secondary, slower storage (e.g. for media) while the OS and apps reside on faster, NVME storage.
    Reply

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