Toshiba develops quad level cell NAND
- ผู้เขียน:Ella Cai
- ปล่อยบน:2017-06-29
‘Multi-bit cell flash memories store data by managing the number of electrons in each individual memory cell,’ says Toshiba, ‘achieving QLC technology posed a series of technical challenges, as increasing the number of bit-per-cell by one within same electron count requires twice the accuracy of TLC technology.’
Shipment of prototypes to SSD and SSD controller vendors for evaluation and development purposes started in early June.
The QLC 3D flash memory enables a 1.5-terabyte (TB) device with a 16-die stacked architecture in a single package – the industry’s largest capacity.
Toshiba already mass produces 64-layer 256Gb/32GB devices.
Toshiba has also developed prototype samples of 96-layer 3D NAND using triple-level cell (TLC) technology. Samplesare scheduled for release in the second half of 2017 and mass production is targeted for 2018.
The 96-layer process is expected to deliver 512Gb devices and to use 4-bit-per-cell (quadruple-level cell, QLC) technology, in the near future.
This 96-layer TLC chip will be manufactured at Yokkaichi in Fab 5, the new Fab 2, and Fab 6, which will open in summer 2018.
The prototype chip stores 768Gb/96GB of data using the same process technology as is used for 64-layer 3D NAND.
Shipment of prototypes to SSD and SSD controller vendors for evaluation and development purposes started in early June.
The QLC 3D flash memory enables a 1.5-terabyte (TB) device with a 16-die stacked architecture in a single package – the industry’s largest capacity.
Toshiba already mass produces 64-layer 256Gb/32GB devices.
Toshiba has also developed prototype samples of 96-layer 3D NAND using triple-level cell (TLC) technology. Samplesare scheduled for release in the second half of 2017 and mass production is targeted for 2018.
The 96-layer process is expected to deliver 512Gb devices and to use 4-bit-per-cell (quadruple-level cell, QLC) technology, in the near future.
This 96-layer TLC chip will be manufactured at Yokkaichi in Fab 5, the new Fab 2, and Fab 6, which will open in summer 2018.