Intel® SSD DC P4610 Series - 1.6TB - U.2 15mm Form Factor - Part ID: SSDPE2KE016T801

Manufacturer: Intel
1.6TB, 2.5in PCIe 3.1 x4, 3D2, TLC More details...
Price: $435.00
Save to my Wish List Tell a friend

Share this product:

Intel® SSD DC P4610 Series - 1.6TB - U.2 15mm Form Factor - Part ID: SSDPE2KE016T801
Intel® SSD DC P4610 Series - 1.6TB - U.2 15mm Form Factor - Part ID: SSDPE2KE016T801
Product Details
Intel® Solid-State Drive DC P4610 Series

Built from the success of its cloud-inspired predecessor – the Intel® SSD DC P4600 Series – and architected with 64-layer TLC Intel® 3D NAND Technology, the Intel® SSD DC P4610 Series delivers performance, quality of service (QoS), and capacity improvements to further optimize storage efficiency, enabling data centers to do more per server, minimize service disruptions, and efficiently manage at scale. Built on NVMe* specification 1.2, these PCIe* SSDs are available in 1.6TB, 3.2TB, 6.4TB, and 7.68TB in the U.2 2.5” (15mm) form factor.

Features At-a-Glance

  • 1.6TB, 3.2TB, 6.4TB, and 7.68TB
  • 128k Sequential Read/Write – up to 3200/3200 MB/s
  • Random 4KB R/W: Up to 654K/220K IOPs
  • End-to-end data protection from silent data corruption, uncorrectable bit error rate < 1 sector per 1017 bits read
  • PCIe* 3.1 x4, NVMe* 1.2
Form Factor
  • U.2 2.5in x 15mm (for serviceability, hot-plug, and density)
  • Intel® 3D NAND Technology, 64-layer, TLC
  • Up to 3 DWPD (JESD219 workload)
  • Up to 15 Watt
  • 5-year limited warranty

1Test and System Configuration: Processor: Intel® Xeon® Gold 6140 CPU @ 2.30GHz, DRAM: DDR4 – 32GB, OS: Linux* Centos* 7.3 kernel 4.8.6/4.15.rc1, Intel® SSD DC P4610 Series, firmware version VDV10140. Intel BIOS Patch rev13 was used -
2Source - Intel. End-to-end data protection refers to the set of methods used to detect and correct the integrity of data across the full path as it is read or written between the host and the SSD controller and media. Claim is based on average of Intel drive error rates vs. average of competitor drive error rates. Neutron radiation is used to determine silent data corruption rates and as a measure of overall end-to-end data protection effectiveness. Silent errors were measured at run-time and at post-reboot after a drive “hang” by comparing expected data vs actual data returned by drive. The annual rate of data corruption was projected from the rate during accelerated testing divided by the acceleration of the beam (see JEDEC standard JESD89A).

All information provided is subject to change at any time, without notice. Intel may make changes to manufacturing life cycle, specifications, and product descriptions at any time, without notice.

The information herein is provided "as-is" and Colfax International does not make any representations or warranties whatsoever regarding accuracy of the information, nor on the product features, availability, functionality, or compatibility of the products listed.
Previous Item   Next Item

Customer Account:

Talk to Us for all your questions / RFQs

Recently Viewed Products