AMD® EPYC™ 7003 “MILAN” Series Rugged HPC Server Supporting NVIDIA® RTX A6000/ A4500, 2x 10G and 4x 1G Ethernet and 8~48V DC Input
Imagine an HPC server unleashed from an air-conditioned data center room, roaming freely in the field! RGS-8805GC is just that, a rugged HPC server powered by the AMD EPYC™ 7003 series “MILAN” processor with up to 64-core/ 128-thread unparalleled computing power and 512GB memory capacity. Utilizing a unique partitioned enclosure design, it provides a highly effective airflow for CPU and other components to guarantee a reliable -25°C to 60°C operation for field deployment.
To fuel versatile advanced edge AI applications, RGS-8805GC can host one high-end NVIDIA® RTX A6000 or A4500 GPU which provides up to 38.7 TFLOPS FP32 or 309.7 TFLOPS tensor performance. It comes with a unique enclosure design that creates a sealed tunnel to efficiently dissipate the heat generated from the RTX GPU. RGS-8805GC offers an exceptional balance of CPU and GPU for modern edge AI applications, such as autonomous driving, DL-based vision inspection, and intelligent video analytics.
In terms of I/O connectivity, RGS-8805GC has two 10G Ethernet ports for high-speed data transmission that are backward compatible with 5GBASE-T and 2.5GBASE-T to work with NBASE-T industrial cameras; it has another four Gigabit PoE+ and four USB 3.1 Gen1 ports for connecting additional devices; and four easy-swappable 2.5″ HDD trays for data storage. If that’s not enough, RGS-8805 provides two x16 PCIe slots for installing additional I/O cards such as frame grabber or GMSL image capture cards. Not to mention that RGS-8805GC is one of few HPC servers that accept wide-range DC input, helping it to adapt to versatile deployment environments.
RGS-8805GC addresses the challenge of deploying a CPU/ GPU server to the field, where installation space, operating temperature, and power supply are some of the most commonly faced issues. A rugged HPC system that can be installed outside of an air-conditioned environment and capable of operating in harsh environments opens the door to new AI-assisted edge computing for more advanced telecom infrastructure, factory automation, ADAS, and V2X applications.
|AMD® EPYC™ 7003 “Milan” series server CPU, up to 64-core/ 128-thread
|Integrated graphics in ASPEED AST2500 BMC, supporting 1920×1200 resolution
|4x RDIMM/ LRDIMM slots, supporting up to 512GB DDR4-3200
|Supports TPM 2.0
|2x 10GBASE-T ports by Intel® X550-AT2, supporting NBASE-T (5G/ 2.5G)
|4x GbE ports by Intel I350-AM4
|IEEE 802.3at PoE+ PSE capability on 4x GbE ports
|1x VGA port via ASPEED AST2500 BMC
|4x USB 3.2 Gen1 (5 Gbps) ports
|2x software-programmable RS-232/ 422/ 485 ports
|4x easy-swappable HDD trays for 2.5″ HDD/ SSD installation
|1x M.2 2280 M key socket (PCIe Gen4 x4) for NVMe SSD
1x PCIe x16 slot@Gen4, 16-lanes for RTX A6000/ A4500 installation
2x PCIe x16 slots@Gen4, 8-lanes
|1x M.2 3042/ 3052 B key with dual micro-SIM sockets for 4G/ 5G module
|2x full-size mini PCI Express sockets with USIM support
|2x 4-pin 7.62mm pitch pluggable terminal block for 8 to 48V DC input and ignition control input
|444.4 mm (W) x 350 mm (D) x 88.1 mm (H)
|8.6 Kg (incl. CPU & RDIMM)
Wall-mount with damping brackets (standard)
|-25°C ~ 60°C with 100% CPU/ GPU loading */**
|-40°C ~ 85°C
|10% ~ 90% , non-condensing
|Operating, MIL-STD-810G, Method 514.6, Category 4
|Operating, MIL-STD-810G, Method 516.6, Procedure I, Table 516.6-II
|CE/ FCC Class A, according to EN 55032 & EN 55035
* The CPU and GPU loading tests are applied using Passmark® BurnInTest 9.1 with a 225W CPU. Operating temperature degrades with higher CPU TDP. For detailed testing criteria, please contact Neousys Technology.
**For sub-zero operating temperature, a wide temperature HDD or Solid State Disk (SSD) is required.
AMD® EPYCTM 7003 “MILAN” series rugged HPC server supporting NVIDIA® RTX A6000/ A4500 GPU, 2x 10G and 4x 1G Ethernet and 8 to 48V DC inpu
- PA-600W-ENC: 600W AC/DC power adapter 24V/25A; cord end terminals for terminal block, operating temperature : -20°C to 70°C.