Combining a 48-layer 3D flash process and TSV technology has allowed Toshiba Memory Corporation to successfully increase product programming bandwidth while achieving low power consumption. The power efficiency[5] of a single package is approximately twice[6]that of the same generation BiCS FLASH™ memory fabricated with wire-bonding technology. TSV BiCS FLASH™ also enables a 1-terabyte (TB) device with a 16-die stacked architecture in a single package.
Toshiba Memory Corporation will commercialize BiCS FLASH™ with TSV technology to provide an ideal solution in respect for storage applications requiring low latency, high bandwidth and high IOPS[7]/Watt, including high-end enterprise SSDs.
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General Specifications (Prototype) |
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| Package Type | NAND Dual x8 BGA-152 | |||||||
| Storage Capacity | 512 GB | 1 TB | ||||||
| Number of Stacks | 8 | 16 | ||||||
| External Dimension | W | 14 mm | 14 mm | |||||
| D | 18 mm | 18 mm | ||||||
| H | 1.35 mm | 1.85 mm | ||||||
| Interface | Toggle DDR | |||||||
| Interface Max. Speed | 1066Mbps | |||||||
Note:
[1] Source: Toshiba Memory Corporation, as of July 11, 2017.
[2] A structure stacking Flash memory cells vertically on a silicon substrate to realize significant density improvements over planar NAND Flash memory, where cells are formed on the silicon substrate.
[3] Through Silicon Via: the technology which has vertical electrodes and vias to pass through the silicon dies for connection in a single package.
[4] “Toshiba Develops World’s First 16-die Stacked NAND Flash Memory with TSV Technology”
http://toshiba.semicon-storage.com/ap-en/company/news/news-topics/2015/08/memory-20150806-1.html
[5] The rate of data transfer rate per power unit. (MB/s/W)
[6] Compared with Toshiba Memory Corporation’s current products.
[7] Input Output per Second: The number of data inputs and outputs for processing through an I/O port per second. A higher value represents better performance.
