H12DST-B CSV-217BHQ+-R2K22BP DP SATA 2U 4 NODES 2.5 CTO ONLY AS -2124BT-HTR

$5,384.29

Supermicro A+ Server 2124BT-HTR Barebone System – 2U Rack-mountable – Socket SP3 – 2 x Processor Support – AMD Chip – 4 TB DDR4 SDRAM DDR4-3200/PC4-25600 Maximum RAM Support – 16 Total Memory Slots – Serial ATA/600 Controller – ASPEED AST2500 Graphic(s) – 6 2.5″ Bay(s) – Processor Support (EPYC) – Ethernet – 2 USB 3.0 Port(s) – 2 x 2200 W

SKU: AS -2124BT-HTR UPC: Brand: H12DST-B Condition: New Categories: , ,

Description

Supermicro A+ Server 2124BT-HTR Barebone System – 2U Rack-mountable – Socket SP3 – 2 x Processor Support – AMD Chip – 4 TB DDR4 SDRAM DDR4-3200/PC4-25600 Maximum RAM Support – 16 Total Memory Slots – Serial ATA/600 Controller – ASPEED AST2500 Graphic(s) – 6 2.5″ Bay(s) – Processor Support (EPYC) – Ethernet – 2 USB 3.0 Port(s) – 2 x 2200 W

Highest Performing 2U Twin Architecture with 4 or 2 Nodes

Supermicro BigTwin PowerStick Design

A power supply with integrated system cooling fans designed for an ultra-dense multi-node infrastructure in a compact package for up to 2600-watt power delivery at Titanium Level (96%) efficiency, the enabling technology for the BigTwin to support the highest TDP Intel® Xeon® Scalable processors and AMD EPYC™ processors with up to 24 DIMM slots per node.

Supermicro SIOM – Most Flexible, Cost-Optimized Server I/O

The Supermicro® Super I/O Module (SIOM) delivers up to 50% of I/O cost savings and freedom to select networking options from 1Gb/s to100Gb/s through a Supermicro optimized form factor that is easy to scale, service and manage across a broad range of Supermicro server and storage systems. The SIOM also enables a higher degree of system integration and increased capacity by saving PCI-E slots that are traditionally reserved for add on cards. With SIOM you choose your onboard I/O.

Resource Saving for Best Efficiency and TCO

Supermicro’s Twin architecture is designed with power and cost efficiency in mind. The BigTwin reduces power consumption with shared cooling and power design, leveraging redundant high efficiency power supplies. Maximum compute in a 2U system enables data center footprints to be reduced by 50% compared to standard 2U servers with equivalent performance.