The 2U 4-Node density optimized server is designed to resolve data center challenges, with a focus on power availability, location, and cost, and handling of increasingly demanding computing needs, such as HPC and AI workloads.
Fremont, CA: AMAX's HPC and AI Solutions Group has declared a new 2U 4-Node density optimized server, ServMax®AE-2484L, designed for single-phase liquid immersion cooling, improves Power Usage Effectiveness (PUE) by decreasing server power usage by up to 20 percent while boasting the highest CPU compute density in its form factor.
The 2U 4-Node density optimized server is designed to resolve data center challenges, with a focus on power availability, location, and cost, and handling of increasingly demanding computing needs, such as HPC and AI workloads. To accelerate the adoption of immersion cooling technology, AMAX offers modular computing designs, integration into liquid immersion cooling systems, and proof-of-concept architecture.
The ServMaxAE-2484L is the maximum CPU density configuration available today, and it's designed for liquid immersion. The 2U 4-Node server meets and exceeds extreme density specifications with a PUE of 1.05, a 10-20 percent server load reduction, an average power decrease of 50 percent, and a cooling energy cost reduction of up to 95 percent. AMAX's ServMax®AE-2484L designed for immersion cooling systems, is ideal for data centers supporting:
In a single 2U chassis, the 2U 4-Node density optimized server contains eight AMD EPYC processors and supports up to 16TB DDR4 memory. Each node has two, up to 64-core processors and 16 DIMM slots. The ServMax AE-2484L, when used with immersion cooling, allows data center operators to "rack and stack" more servers to accommodate the processing load that the site needs.
The combination of AMAX's ServMaxAE-2484L and immersion cooling system offers substantial cost savings in the construction, operation, and expansion of data centers while also improving rack density, efficiency, cooling power, data center architecture, and location options.