PRESS RELEASE
13th September, Taipei - GIGABYTE announces the release of its first high-density servers to adopt Intel's Xeon® Scalable architecture. Leveraging GIGABYTE's renowned precision-engineered high-density designs, these updated server offerings extract maximum performance from Intel's latest generation platforms. GIGABYTE's 2U, 4-node and 2U, 2-GPU node rear-access systems, supported by comprehensive storage options, offer some of the most dense compute devices on the market today.
GIGABYTE's design team has developed a series of systems incorporating both the advancements of Intel's Xeon Scalable family and the unique precision design features that GIGABYTE is recognized for.
What's New?
High Density Add-On Slots - GIGABYTE leads the way in terms of add-on slots for Intel Xeon Scalable systems in the market.
With 4-nodes, these designs provide 2x OCP slots and options for either:
- 8x Low-Profile, or
- 4x Low-Profile and 2x Dual-slot GPU
- 'Direct Board Connection' technology: reduces cabling and improves thermal dynamics
- 'Token Ring' Cabling: reduces the number of ToR switch connectors (and cost), and allows for 'daisy-chain' connection if any one rack fails
- Multi-Node Management: unified management for all nodes in a particular rack
- Optimal thermal design with double fan rack wall
In addition, GIGABYTE's systems continue to ship with:
- Tool-less design for ease of installation and management
- IPMI and Redfish compatibility as standard
What's Inside? A closer look at the tray:
GIGABYTE's H261-3C0/N80 2U GPU Server Tray
"GIGABYTE continues to push the boundaries of commercial servers", said Etay Lee, GM, GIGABYTE. "By combining Intel's most advanced server CPUs, with GIGABYTE's in-house design know-how that enables these industry-leading-density systems, GIGABYTE is addressing the needs of the even the most demanding enterprise users".
Rear-Access View
H231-G20 2U, 2xGPU Server (Rear Access View)
H261 2U, 4xNode Server (Rear Access View)
About GIGABYTE
Visit b2b.gigabyte.com for more information.