The Gen 4 PCIe SDS-3U-4a is a cutting-edge and feature-packed rugged server platform designed to deliver exceptional performance and versatility. It offers options for Dual or Single-Socket AMD EPYC™ 7003 Series Processors, enabling powerful GPU or FPGA accelerated computing, along with support for U.2/U.3 NVMe storage.
One of the standout features of the SDS-3U-4a is its market-leading number of native PCIe Gen 4 x16 slots. With up to 7 x16 PCIe 4.0 expansion slots, this server platform offers unmatched expandability and customization options. It empowers users to integrate additional accelerators, networking cards, or other high-performance devices to meet specific computing requirements.
Designed with edge computing in mind, the SDS-3U-4a combines power and efficiency in a compact form factor. Its 3U height and 20″ depth allow it to function as a standalone hyperconverged PCIe Gen 4 server, delivering optimal performance in limited space. Additionally, it can serve as the core CPU and memory resources for a scale-out, rack-level solution, providing expandable and composable capabilities for demanding workloads.
The SDS-3U-4a boasts impressive storage options, with support for 8 or 16 U.2/U.3 SATA/SAS/NVMe drives. This allows for ample storage capacity and high-speed data access, ensuring efficient data handling and processing.
Other notable features of the SDS-3U-4a include system monitoring capabilities, AC or DC power supply options, and a resource-expanded BIOS for large-scale expansion and device enumeration. It is also guaranteed to operate seamlessly with all OSS expansion products, providing a reliable and flexible server solution.
In summary, the Gen 4 PCIe SDS-3U-4a is a professional-grade rugged server platform that offers exceptional performance, expandability, and adaptability. With its powerful AMD EPYC™ 7003 Series Processors, native PCIe Gen 4 x16 slots, and support for GPU or FPGA accelerated computing, it is perfectly suited for demanding edge computing applications where space and performance are critical factors.