Western Digital Ships Client SSDs Based on 512 Gb 3D TLC NAND Chips

Saturday, May 20th, 2017 - SSDs, Teknologi

Western Digital Ships Client SSDs Based on 512 Gb 3D TLC NAND Chips

Last week Toshiba demonstrated the operation of its XG-series SSDs NVMe PCIe SSD based on the company’s 64-layer 512 Gb 3D NAND chips. What was left unnoticed is that Western Digital made several other important announcements regarding these ICs. First, WD said that it has started to ship both client and datacenter SSDs based on these chips commercially. Second, WD said that the vast majority of 3D NAND flash it produces this year would be 64-layer 3D NAND.

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64-Layer 3D NAND Is Here

As reported, both Western Digital and Toshiba started to ship samples of their co-developed 64-layer BiCS 512 Gb 3D TLC NAND chips to their customers earlier this year. The two companies did not formally announce any details about these chips except the most basic ones, so we still do not have any official information regarding the interface speed.

Western Digital’s presentation at the ISSCC reveals that the 512 Gb 3D TLC NAND IC is a dual-plane design with a 132 mm2 die size. From density standpoint, Western Digital’s 512 Gb 3D TLC NAND IC is a little bit behind Samsung’s 64-layer 512 Gb 3D TLC flash chip (which has a die size of 128.5 mm2, according to the company’s presentation at the same conference) that is also a dual-plane IC. Die size and density is one of the important metrics when it comes to the cost of any IC (others are yield, process technology, architecture, etc.) and for many reasons manufacturers do not openly publish it.

Meanwhile, the difference between die sizes of 512 Gb 3D TLC NAND chips from Samsung and Toshiba/Western Digital is so small that it is not going to have a significant impact on costs.

3D NAND Die Size Comparison
 IMFTSamsungWD/Toshiba
1st Gen2nd Gen1st Gen2nd Gen3rd Gen4th
Gen
1st Gen2nd Gen3rd Gen
Die Capacity256 Gb384 Gb256 Gb512 Gb128 Gb86
Gb
256 Gb512 Gb256 Gb256 Gb 512 Gb
# Layers3264243248644864
OrganizationMLCTLCTLCTLCMLCTLCMLCTLC
ArchitectureFG with CMOS under Memory ArrayCharge trap flash (CTF)
Die Size168.2 mm²59 mm²?133 mm²84.3 mm²99.8 mm²128.5 mm²105.1 mm²~80 mm²132 mm²

Die size is only one metric that can indicate the cost of a memory chip. Process, yields and some other peculiarities are other important factors. For example, the ICs have many differences when it comes to their manufacturing method. As reported, the current etching tools cannot “drill holes” in a structure that contains ~60 or ~70 wordline layers simply because it is too thick. Therefore to keep using the current tools, makers need to either make the structure thinner or use two separate structures interconnected using the so-called string stacking technology.

To build their new BiCS 3D TLC NAND chips, Western Digital and Toshiba process two wafers, then stack one above another and connect their NAND strings (enabling NAND controller to see the IC as a single component with a unified address space and manage it appropriately). This requires extremely high precision when placing one wafer atop of each other. In addition, use of the string stacking technology requires Toshiba and Western Digital to process two wafers (with over 32 layers each) to assemble one wafer with 64 active layers of NAND.

By contrast, to make its 64-layer 3D NAND ICs, Samsung decided to make the structure of its 3D flash memory ICs thinner by making wordline layers (as well as the dielectrics between them) thinner. The move naturally increases the electrical resistance of the wordlines and degrades their retention, which required Samsung to introduce a set of technologies that mitigate the effects of thinner wordlines and dielectrics. The advantage of this approach is that Samsung only has to process one wafer, albeit using a complex process technology.

Western Digital and Toshiba naturally do not disclose costs of their 512 Gb 3D TLC NAND, but WD claims that it has achieved a bit cost crossover for its 64-layer 3D NAND compared to its 128 Gb 2D TLC NAND made using the 15 nm process technology. This means that it is cheaper to build one 512 Gb 3D TLC chip than it is to build four 128 Gb 2D TLC chips, which is not exactly surprising. What is more important is that Western Digital expects 75% of its 3D NAND bits produced this year to use the 64-layer design, which may be an indicator that yields and complexities are in line with its expectations (i.e., string stacking works okay).

WD Ships Client SSDs Featuring 64-Layer 3D NAND ICs

Both Western Digital and Toshiba have been shipping 48-layer and 64-layer 256 Gb 3D NAND chips to their customers for several quarters now. Such ICs are used for removable storage, mobile storage and some other applications. Meanwhile, the 64-layer 512 Gb 3D TLC flash is the first 3D NAND that Western Digital grades for SSDs. Now, a good news is that the company has already started shipments of such drives.

“We commenced shipments of our 64-layer 3D NAND in client SSD form-factor, and we expect to further expand the usage of this industry-leading technology across our product portfolio during the remainder of calendar 2017,” said Michael Cordano, Chief Executive Officer of Western Digital, during an earnings conference call with investors and financial analysts.

Western Digital has not disclosed the controller it uses for its 3D NAND-based SSDs as well as its performance numbers, but since we are talking about initial shipments (presumably to OEMs), we would expect the drive performance to be aimed squarely at OEM customers.

Sources: Western Digital, PCMag, The Memory Guy, TechInsights.

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