7680GB ULTRASTAR DC SN840 SFF-15 15.0MM PCIE TLC RI-1DW/D 0TS1879

$1,062.60

Western Digital Ultrastar DC SN840 WUS4BA176DSP3XZ 7.50 TB Solid State Drive – 2.5″ Internal – U.2 (SFF-8639) NVMe (PCI Express NVMe 3.1) – Storage System, Server Device Supported – 1 DWPD – 14352.38 TB TBW – 3311 MB/s Maximum Read Transfer Rate

SKU: 0TS1879 UPC: Brand: 7680GB Condition: New Categories: , ,

Description

Western Digital Ultrastar DC SN840 WUS4BA176DSP3XZ 7.50 TB Solid State Drive – 2.5″ Internal – U.2 (SFF-8639) NVMe (PCI Express NVMe 3.1) – Storage System, Server Device Supported – 1 DWPD – 14352.38 TB TBW – 3311 MB/s Maximum Read Transfer Rate

Ultrastar NVMe™ Series

Low Latency and Maximum Throughput for High-Transaction Workloads

OVERVIEW

Accelerate Access to Critical Data for Data-Intensive Workloads and Applications

Ultrastar NVMe series SSDs perform at the speed of today’s business needs. Enabling faster intelligence & access to critical data, these SSDs meet the growing digital demands of your business applications.

Performance NVMe Ultrastar DC SN840 SSDs deliver extreme performance & ultra-low latency to the top tier of enterprise storage. With proven dual-port NVMe architecture, these drives are best suited for performance demanding platforms including HPC servers, mission-critical applications and workloads that require superior read/write performance and low latency.

Mainstream NVMe Ultrastar DC SN640 SSDs are optimized for consistent quality of service and low latency for mixed random read/write workloads commonly generated by top enterprise applications such as virtualization, OLTP, NoSQL, web servers, file servers and mail servers. Ultrastar DC SN640 enables a seamless transition from SATA SSDs, delivering high performance for deeper insights & faster results for today’s data intensive applications.

Accelerate Access to Critical Data

Maximum Throughput

Performance NVMe SSDs designed to accelerate data center workloads

Low Latency

Predictable throughput for high-transaction workloads

Design Flexibility

Choice of form factors to support range of data centers requirementss