Enterprise Solutions for AMD EPYC™ 9005 Series Processors
Out-of-the-box performance and density leadership for the growing demands of AI-enabled, business-critical data center workloads.
Increased transistor density alongside a reduction in power consumption
Dedicated “Zen 5” & “Zen 5c” cores increase compute density
An L3 cache increase helps to reduce latency in data-intensive operations
Memory capacity up to 9TB in a 2 DIMM per channel configuration
Dual socket configuration adds a significant amount of I/O connectivity
Disaggregated compute architecture possible via Compute Express Link
Servers and motherboards by GIGABYTE are tested to ensure peak performance for demanding workloads while supporting the latest GPU and CXL technology.
AMD and GIGABYTE have maintained a healthy relationship that values shared knowledge and open communication in order to launch products in tandem.
Keeping pace with the challenges for next gen technology, well designed GIGABYTE boards provide users the signal integrity for fast PCIe 5.0 speeds.
With 192 CPU cores per socket, GIGABYTE's 4-node servers support up to 1,536 CPU cores, allowing a far greater number of concurrent tasks to be done.
Our broad portfolio of products tailored to applications allow customers to only select server features they require while doing so at a lower TCO.
HPC and AI applications are diverging but much of their hardware still overlaps. They rely on high compute performance from CPU and/or accelerators to process large volumes of data or do run simulation and modeling. For the amount of data they too need high speed or high capacity storage paired with fast networking for clusters.
Predictable performance and scalability matter in cloud computing. Having dedicated virtual CPU cores is also a necessity, along with a high core count CPU that delivers greater compute density. And this includes both scale-up and scale-out environments.
Businesses and institutions rely on mission-critical workloads so the IT infrastructure should also reflect it. Enterprise-based servers need to be secure for privacy and data protection, reliable for continuous operation, and adaptable for the ever evolving business needs.