San Francisco, CA, August 17, 2016 --(PR.com
)-- TYAN, an industry-leading server platform design manufacturer and subsidiary of MiTAC Computing Technology Corporation, exhibits its latest NVMe optimized server and storage platforms this week at IDF 2016 at the Moscone Center in San Francisco, California. Featuring high IOPS (input/output operations per second) and storage density, TYAN delivers high performance with support for up to 4x NVMe in 1U GT62B-B5539, 1U GT62B-B7076 and 2U TN70B-B7086 storage platforms for enterprise, data center and cloud environment deployments. The 4U-quad-socket Intel® Xeon® processor E7-8800/4800 v3/v4-based FT76-B7922, targeting high performance computing market, is also displayed at IDF 2016.
“In order to address data intensive workloads in need of higher performance for storage, TYAN takes full advantage of Intel® NVMe technology to highlight hybrid storage configurations. TYAN server solutions with NVMe support can not only boost storage performance over the PCIe interface but provide storage flexibility for customers through scale-out architecture,” said Danny Hsu, Vice President of MiTAC Computing Technology Corporation's TYAN Business Unit.
TYAN’s GT62B-B5539 server platform features Intel® Xeon® processor D-1500, a low-power server SoC architecture, up to 16 cores, and 10x 2.5” hot-swap drive bays with support for four NVMe drives. The platform is designed to deliver the best balance of performance and power consumption for the storage market. Additionally, TYAN showcases Intel® Xeon® processor E5-2600 v3/v4-based storage platforms for the SMB, enterprise and private cloud segment-the TN70B-B7086 provides a cost-effective storage expansion with support for 6x standard PCI-E x8 slots and 12x 3.5”/2.5” hot-swap drive bays with 4 of the bays supporting NVMe drives. The GT62B-B7076 supports 10x 2.5” hot-swap drive bays with 4 of the bays supporting NVMe drives. Both TN70B-B7086 and GT62B-B7076 are equipped with OCP and storage mezzanine slots, which allows customers benefit from the maximum I/O flexibility.