Intel® Optane™ SSD 900P Series

280GB, 1/2 Height PCIe x4, 20nm, 3D XPoint™

Specifications

Performance Specifications

Reliability

Supplemental Information

Package Specifications

Advanced Technologies

Drivers and Software

Latest Drivers & Software

Downloads Available:
All

Name

Intel® Memory and Storage Tool (GUI)

Intel® Memory and Storage Tool CLI (Command-Line Interface)

Intel® SSD Firmware Update Tool

Intel® Rapid Storage Technology Driver Installation Software with Intel® Optane™ Memory (8th and 9th Gen Platforms)

Support

Launch Date

The date the product was first introduced.

Sequential Bandwidth - 100% Read (up to)

Speed with which the device is able to retrieve data that forms one contiguous, ordered block of data. Measured in MB/s (MegaBytes per Second)

Sequential Bandwidth - 100% Write (up to)

Speed with which the device is able to record data into one contiguous, ordered block of data. Measured in MB/s (MegaBytes per Second)

Random Read (8GB Span) (up to)

Speed with which the SSD is able to retrieve data from arbitrary locations in the memory, within 8GB of LBA (Logical Block Address) range on the drive. Measured in IOPS (Input/Output Operations Per Second)

Random Write (8GB Span) (up to)

Speed with which the SSD is able to record data to arbitrary locations in the memory, within 8GB of LBA (Logical Block Address) range on the drive. Measured in IOPS (Input/Output Operations Per Second)

Random Read (100% Span)

Speed with which the SSD is able to retrieve data from arbitrary locations in the memory, across the entire span of the drive. Measured in IOPS (Input/Output Operations Per Second)

Random Write (100% Span)

Speed with which the SSD is able to record data to arbitrary locations in the memory, across the entire span of the drive. Measured in IOPS (Input/Output Operations Per Second)

Power - Active

Active Power indicates typical power consumption of the device when operating.

Power - Idle

Idle Power indicates typical power consumption of the device when idle.

Vibration - Operating

Operating Vibration indicates the tested capability of the SSD to withstand the reported vibration in the operating state and remain functional. Measured in G-force RMS (Root Mean Square)

Vibration - Non-Operating

Non-Operating Vibration indicates the tested capability of the SSD to withstand the reported vibration in the non-operating state and remain functional. Measured in G-force RMS (Root Mean Square)

Shock (Operating and Non-Operating)

Shock indicates the tested capability of the SSD to withstand the reported shock in both operating and non-operating states and remain functional. Measured in G-force (Max)

Max Operating Temperature

This is the maximum operating temperature allowed as reported by temperature sensors. Instantaneous temperature may exceed this value for short durations. Note: Maximum observable temperature is configurable by system vendor and can be design specific.

Endurance Rating (Lifetime Writes)

Endurance rating indicates the expected data storage cycles to be expected over the life of the device.

Mean Time Between Failures (MTBF)

MTBF (Mean Time Between Failures) indicates the expected elapsed operating time between failures. Measured in hours.

Uncorrectable Bit Error Rate (UBER)

Uncorrectable Bit Error Rate (UBER) indicates the number of uncorrectable bit errors divided by the total number of transferred bits during a tested time interval.

Warranty Period

Warranty document for this product is available on https://supporttickets.intel.com/warrantyinfo.

Form Factor

Form factor indicates the industry standard size and shape of the device.

Interface

Interface indicates the industry standard bus communication method employed by the device.

Enhanced Power Loss Data Protection

Enhanced Power Loss Data Protection prepares the SSD for unexpected system power loss by minimizing data in transition in temporary buffers, and uses on-board power-loss protection capacitance to provide enough energy for the SSD firmware to move data from the transfer buffer and other temporary buffers to the NAND, thus protecting system and user data.

Hardware Encryption

Hardware encryption is data encryption done at the drive level. This is used to ensure that the data stored on the drive is secured from unwanted intrusion.