|Sequential Read Speed (MB/s)
|Sequential Write Speed (MB/s)
|Random Read Speed (IOPS)
|Random Write Speed (IOPS)
|TBW (Terabytes Written)
|Built-in SLC Cache
|Toshiba BiCS3 TLC NAND flash
Dimensions and Form
|Physical Dimensions (mm)
|PCIe 3.1 / NVMe 1.3
|0°C to 70°C
|-40°C to 80°C
|Mean time between failure (MTBF)
|1.8 Million hours
|Acceleration Force: 1500G
|Frequency/Displacement 20Hz-80Hz/1.52mm - Frequency/Acceleration 80Hz-2000Hz/20G
|Height of Drop 80cm free fall - Number of Drop 6 face of each unit
|Force ≥ 20N Action Hold 1min/5 times
|Min = 3.14V Max = 3.47V
|Rise time (Max/Min)
|Fall time (Max/Min)
|Idle < 910 mW, L1.2 < 2 mW
|Error Correction Algorithm (ECC)
|Low density parity check with each read operation protecting against data corruption
|All solid state drives have a limited number of program/erase cycles. This feature will read and write to the entire SSD evenly maximizing the lifespan.
|Bad Block Management
|If a sector goes bad, the SSD will automatically reroute the address to a different sector allowing users to get the full use of their SSD.
|Unlike HDD, SSDs cannot overwrite data. With TRIM, the SSD will remove unused data allowing for write operations to happen right away.
|Self monitoring analysis and reporting technology keeps a record of the health of the SSD and notifies the user of an issues further improving data reliability.
|On top of the advertised capacity, there is extra NAND available for internal write operations. This saves wear on the SSD increasing the lifespan of the SSD
|Media Wear Indicator
|When the SSD approaches the end of its lifecycle (5+ years), the user will be notified ahead of time allowing time for safe replacement.
|Predict & Fetch
|Predict and fetch intelligently predicts the operating systems next command and retrieves the data ahead of time thus increasing the speed
**For more detail on the specs sheet please contact email@example.com