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Intel SSDPE2KE016T801 internal solid state drive U.2 1600 GB PCI Express 3.1 TLC 3D NAND NVMe
Intel SSDPE2KE016T801, 1600 GB, U.2, 3200 MB/s
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Product Information
| Information | |
|---|---|
| Manufacturer | Intel |
| Product code | 126232324 |
| EAN | 00735858385398 |
| Manufacturer part number | SSDPE2KE016T801 |
| Category | SSD S-ATA |
| Features | |
|---|---|
| SSD form factor | U.2 |
| Memory type | TLC 3D NAND |
| NVMe | Y |
| Hardware encryption | Y |
| Read speed | 3200 MB/s |
| Write speed | 2080 MB/s |
| Random read (4KB) | 643000 IOPS |
| Random write (4KB) | 199000 IOPS |
| Random read (100% span) | 643000 IOPS |
| Random write (100% span) | 199000 IOPS |
| Read latency | 77 µs |
| Write latency | 18 µs |
| End-to-End Data Protection | Y |
| Enhanced Power Loss Data Protection technology | Y |
| SSD temperature monitoring | Y |
| Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
| Market segment | Server |
| SSD ARK ID | 140103 |
| Harmonized System (HS) code | 84717070 |
| Temperature monitoring and logging | Y |
| Storage | |
|---|---|
| SSD capacity | 1600 GB |
| Ports & interfaces | |
|---|---|
| Interface | PCI Express 3.1 |
| Design | |
|---|---|
| Component for | Server/workstation |
| Network | |
|---|---|
| Security algorithms | 256-bit AES |
| Performance | |
|---|---|
| Mean time between failures (MTBF) | 2000000 h |
| Export Control Classification Number (ECCN) | 5A992C |
| Commodity Classification Automated Tracking System (CCATS) | G162706 |
| Power | |
|---|---|
| Power consumption (read) | 14 W |
| Power consumption (write) | 14 W |
| Power consumption (idle) | 5 W |
| Brand-specific features | |
|---|---|
| Intel High Endurance Technology (HET) | Y |
| Intel® Rapid Start Technology | N |
| Intel® Remote Secure Erase | N |
| Processor special features | |
|---|---|
| Intel® Smart Response Technology | N |
| Operational conditions | |
|---|---|
| Operating temperature (T-T) | 0 - 55 °C |
| Maximum operating temperature | 55 °C |
| Operating vibration | 2.17 G |
| Non-operating vibration | 3.13 G |
| Operating shock | 1000 G |
| Non-operating shock | 100 G |
| Operating / non-operating shock | 1000G (0.5ms) |
| Weight & dimensions | |
|---|---|
| Width | 15 mm |
| Weight | 139 g |
| Other features | |
|---|---|
| Power consumption (active) | 14 W |
| Drive capacity | 1600 GB |
| Launch date | Q2'18 |
| SSD endurance rating | 12.25PBW |
| SSD hardware encryption | AES 256 bit |
| SSD power consumption (active) | 14W |
| SSD power consumption (idle) | 5W |
| SSD shock | 1000G (0.5ms) |
| SSD weight | 139 g |
| Sequential reading | 3200 MB/s |
| Sequential writing speed | 2080 MB/s |
| Status | Launched |
| Last change | 63903513 |
| Product family | Data center SSD |
| Product series | Intel® SSD DC P4610 Series |
| Product codename | Cliffdale Refresh |
Product Description
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.
High Endurance Technology (HET)
High Endurance Technology (HET) in SSD's combines Intel® NAND Flash Memory silicon enhancements and SSD system management techniques to help extend the endurance of the SSD. Endurance is defined as the amount of data that can be written to an SSD during its lifetime.
Temperature Monitoring and Logging
Temperature Monitoring and Logging uses an internal temperature sensor to monitor and log airflow and device internal temperature. The logged results can be accessed using the SMART command.
End-to-End Data Protection
End-to-End Data Protection ensures integrity of stored data from the computer to the SSD and back.
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.
High Endurance Technology (HET)
High Endurance Technology (HET) in SSD's combines Intel® NAND Flash Memory silicon enhancements and SSD system management techniques to help extend the endurance of the SSD. Endurance is defined as the amount of data that can be written to an SSD during its lifetime.
Temperature Monitoring and Logging
Temperature Monitoring and Logging uses an internal temperature sensor to monitor and log airflow and device internal temperature. The logged results can be accessed using the SMART command.
End-to-End Data Protection
End-to-End Data Protection ensures integrity of stored data from the computer to the SSD and back.