2U4N/DP/AMD EPYC/64DDR4 8X1GBE/24 X 2.5 BAY /2 X 2200W PSU H261-Z60

$4,084.47

Gigabyte H261-Z60 Barebone System – 2U Rack-mountable – Socket SP3 – 2 x Processor Support – AMD Chip – 128 GB DDR4 SDRAM DDR4-2666/PC4-21300 Maximum RAM Support – 16 Total Memory Slots – ASPEED AST2500 Graphic(s) – 6 2.5″ Bay(s) – Processor Support (EPYC) – Gigabit Ethernet – 2 USB 3.0 Port(s) – 2 x 2200 W – 1 Year

SKU: H261-Z60 UPC: Brand: 2U4N/DP/AMD Condition: New Categories: , ,

Description

Gigabyte H261-Z60 Barebone System – 2U Rack-mountable – Socket SP3 – 2 x Processor Support – AMD Chip – 128 GB DDR4 SDRAM DDR4-2666/PC4-21300 Maximum RAM Support – 16 Total Memory Slots – ASPEED AST2500 Graphic(s) – 6 2.5″ Bay(s) – Processor Support (EPYC) – Gigabit Ethernet – 2 USB 3.0 Port(s) – 2 x 2200 W – 1 Year

AMD EPYC™ Processors

The New x86 Option

AMD’s return to the CPU segment delivers a whole new value proposition to the x86 world. Built on GIGABYTE’s extensive design expertise across a range of chipset platforms, this AMD EPYC™ platform is already receiving acclaim for its high specification:

  • Memory
  • I/O
  • Network connectivity

This platform is intended as an alternative for builders in the x86 space and packs a real punch in flexibility and expansion options.

CPU Key Features

  • Memory Optimization
    Memory speed of up to 2666MHz (at 1DPC)
    Total memory capacity of 4TB supported
  • PCIe Lanes
    Up to 128 lanes in both 1P and 2P offerings providing the highest expandability options of any x86 platform
  • Cores / Power
    CPU power is managed at the core level, meaning that power is allocated only for specific workload needs
  • Security
    Proprietary AMD security on chip

Comprehensive I/O

Both single- and dual-socket CPUs come equipped with 128x PCIe lanes, providing extensive I/O options. This is a huge improvement in I/O vs. incumbent x86 offerings.
Increased I/O allows for flexibility in extending your storage, networking or compute to a level previously unattainable with standard server motherboards.
In addition, the integrated nature of the processor – designed as a system-on-chip (SoC) – means that there is no need for a separate PCH and less additional switches needed for expansion lanes.