Description
HGST Ultrastar SSD1600MR HUSMR1680ASS204 800 GB Solid State Drive – 2.5″ Internal – SAS (12Gb/s SAS) – 1100 MB/s Maximum Read Transfer RateHGST Enterprise Storage Experience
HGST leverages decades of proven enterprise storage expertise in Serial Attached SCSI (SAS) design, reliability, firmware, customer qualification and system integration to the new Ultrastar® SSD1600MR solid-state drive (SSD) family. The synergistic relationship between HGST’s new throughput-enhancing SSDs and traditional HDDs provides cost effective, end-to-end enterprise-class storage solutions, delivering reliability, compatibility, capacity, cost and system performance. This combination makes HGST a leading SSD/HDD provider with the experience and technology needed to meet escalating reliability, endurance and performance in the most demanding enterprise environments.
Maximum Performance, Reliability and Endurance
The new Ultrastar SSD1600MR delivers high sequential throughput, up to 1100MB/s read and 700MB/s write (12Gb/s SAS). The Ultrastar SSD1600MR also delivers up to 130,000 read and 30,000 write IOPS, reaching speeds >100 times faster than HDDs and double the speed of current 6Gb/s SSDs, allowing rapid access to “hot” enterprise data for improved productivity and operational efficiency. The new Ultrastar SSD1600MR family offers significant value in terms of IOPS per Watt, while reducing total cost of ownership (TCO) through low power consumption, efficient cooling and reduced space requirements.
The Ultrastar SSD1600MR family combines enterprise-grade MLC NAND flash memory, advanced endurance management firmware and power loss data management techniques to extend reliability, endurance and sustained performance over the life of the SSD. The Ultrastar SSD1600MR family achieves an extraordinary 0.44% annual failure rate (AFR) or two million hour mean-time-between-failure (MTBF). The 1600GB capacity model endures up to 5.8 Petabytes (PB) of random writes over the life of the drive-the equivalent of writing 3.2 Terabytes (TB) per day for five years.