AV800-S4L4
IP65 Military GPU Server, Sapphire Rapids Gold 5411N (24C/48T)
- IP65 Ultra Rugged Military Xeon® SP GPU Server
- Intel® Sapphire Rapids® Xeon® Scalable 5411N (24 Cores, 48 threads)
- NVIDIA Ada Lovelace L4 Tensor Core GPU Integrated (7424 CUDA and 30.3 TFLOPS, 24GB GDDR6)
- 512GB RDIMM ECC DDR5-5600 MHz
- 2 x 8TB U.2 NVMe for Fast & Mass Storage with SED
- MIL-STD-810 Compliance
- MIL-STD-461 EMI Filtering Compliance
- Conformal Coating Support
- Trusted Platform Module (TPM) 2.0 support
- Technical Profile
- Specifications
Technical Profile
- Introduction
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The AVR800-S4L4 is a ruggedized AI inference platform designed specifically for advanced inference acceleration applications such as voice, video, image, and recommendation services. This platform is powered by the NVIDIA Ada Lovelace L4 Tensor Core GPU, which features 30.3 TFLOPS in FP32 and 485 TOPs in INT8 PCIe Gen 4 x 16 high speed bus for real-time inference based on trained neural network models.
In addition to the powerful GPU, the AVR800-S4L4 is equipped with an Intel® XEON® Sapphire Rapids processor and two U.2 NVMe slots for fast storage access. This combination of stunning inference performance, a powerful CPU, and expansion capability makes the AVR800-S4L4 the perfect ruggedized platform for versatile edge AI applications.
The AVR800-S4L4 utilizes 7STARLAKE's Open Modular, Scalable Architecture and provides an optimized cooling solution for the NVIDIA Ada Lovelace L4 Tensor Core GPU, ensuring stable system operation in harsh environments. Whether it's for high-demand radar systems, ELINT/ESM operations, or other challenging environments, the AVR800-S4L4 can withstand tough conditions while delivering top-notch AI performance. With Trusted Platform Module (TPM) 2.0 support, the rugged GPU server ensures data integrity and cybersecurity at the edge, making it the ideal server platform for next-generation defense operations.
- Intel® Xeon® Scalable Performance with VMware 8.x Support
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Intel® Xeon® Sapphire Rapids delivers exceptional performance for demanding workloads such as database management, virtualization, and cloud computing. It features robust security and virtualization technologies, including Intel® Boot Guard, Intel® Trusted Execution Technology, Intel® AES-NI, Intel® Software Guard Extensions (SGX), and full support for VMware v8 and above. The platform also includes Intel® Virtualization Technology (VT-x), Directed I/O (VT-d), and Extended Page Tables (EPT).
Supporting DDR5-5600 ECC memory for enhanced reliability and Intel® Hyper-Threading Technology for improved processing efficiency, this processor is built for next-gen harsh environments. For space-constrained applications, the Intel® Xeon® Sapphire Rapids integrates the Platform Controller Hub C741 chipset, streamlining system design.
- MIL-STD 810 / MIL-STD 461 Standards
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With optimized Size, Weight, and Power (SWaP) and full compliance with MIL-STD-810 and MIL-STD-461 standards, the AVR800-S4L4 is purpose-built for mission-critical operations in extreme environments. It delivers reliable performance under temperature extremes, shock, vibration, and exposure to sand, dust, salt fog, and humidity. Its compact, rugged design ensures stable operation even in the most demanding field conditions.
MIL-STD-810 defines a comprehensive set of environmental tests developed by the U.S. Department of Defense to validate equipment durability in challenging climates and terrains—including altitude, thermal shock, rain, and mechanical stress. Complementing this, MIL-STD-461 certification ensures robust protection against electromagnetic interference (EMI), voltage transients, and electrostatic discharge. The AVR800-S4L4’s sealed chassis further protects internal components from moisture, dust, and corrosive agents, delivering long-term reliability in harsh, unpredictable deployments.
Specifications
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System |
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Processor |
Intel® Xeon® Sapphire Rapids Processor Gold 5411N(Frequency 1.9GHz, Turbo Boost Frequency up to 3.9GHz), 20 Core, 40 Thread Support, 45MB Smart Cache TDP 165W |
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Memory type |
512GB RDIMM ECC DDR5 5600MHz |
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| Chipset | Intel C741 | |
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GPU |
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NVIDIA |
Ada Lovelace L4 Tensor Core GPU |
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| CUDA Cores | 30.3 | |
| Memory | 24GB GDDR6, 300 GB/sec 60Hz 32bpp | |
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Storage |
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| HDD/SDD | 2 x 8TB U.2 NVMe SSD with SED | |
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Side I/O |
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X1(2 x 10GbE) |
1 x Amphenol TV07RW13-35SN (22PIN) |
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X2 (VGA) |
1 x Amphenol TV07RW‐13‐98S (10PIN) |
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X3 (4 x USB2.0) |
1 x Amphenol TV07RW13-35SB (22PIN) |
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X4 (DC-IN) |
1 x Amphenol TV07RW‐13‐04P (4PIN) |
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X5 (2 x 1GbE) |
1 x Amphenol TV07RW13-35SN (22PIN) |
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Dedicated LED |
2 x Red/Green LEDs (SSD) |
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Hardware |
Trusted Platform Module (TPM) 2.0 , Silicon Root Trust (RoT) -NIST 800-193 Compliant |
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| Feature | UEFI Secure Boot/ Secure Firmware Updates | |
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Power Requirement |
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| Power Input | DC-DC 18 to 36V (300W max) MIL-STD 461 | |
| Applications | ||
| Applications | C4ISR, Commercial and Military Platforms Requiring Compliance to MIL-STD-810 Process Control, where Harsh Temperature, Shock, Vibration, Altitude, Dust and EMI Conditions | |
| OS Support List A | Windows 10 64bit Enterprise, Windows 10 64bit Pro Workstations, Windows 10 IoT 64bit Enterprise, Windows 11 64bit Enterprise (OR001), Windows 11 64bit Pro Workstations (OR001), Windows 11 IoT 64bit Enterprise (OR001), Windows Server 2019 64bit, Windows Server 2022 64bit |
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| OS Support List B | RHEL 8.5 64bit, RHEL 8.6 64bit, RHEL 9.0 64bit, RHEL 9.2 64bit, CentOS 8.5. 64bit, Oracle 8.5 64bit, Oracle 8.6 64bit, Rocky Linux 8.5 64bit, openSUSE Leap 15.4 64bit, SLES 15 SP3 64bit, Ubuntu 22.04 64bit Server, Ubuntu 21.10 64bit Server. |
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| VMware | VMWare ESXi 7.0u3d x64, VMWare ESXi 8.0x64 | |
| Physical | ||
| Dimension | 450 x 154 x 316 mm (D x H x W) | |
| Weight | 18 kg (39.68lbs) final weights is dependent on specific configuration | |
| Chassis | Aluminum Alloy, Corrosion Resistant | |
| Finish | Anodic aluminum oxide | |
| Cooling | Conduction Cooling with Air Force smart fan Ingress Protection | |
| Ingress Protection | IP65 | |
| MIL-STD-810 | ||
| MIL-STD-810 Test |
Method 501.5, High Temperature (High Storage Temperature): +74°C per MIL-STD-810G/501.5/I for 7 cycles Method 501.5, High Temperature (Low Operation Temperature): +55°C per MIL-STD-810G/501.5/II for 3 cycles Method 502.5, Low Temperature (Low Storage Temperature): -46°C for 72 hours per MIL-STD-810G/502.5/I Method 502.5, Low Temperature (High Operation Temperature): -33°C per MIL-STD-810G/502.5/II Vibration (C-130(J/K) aircraft): Test duration 400 minutes per axis (x,y,z), simulating 120 flight hours including 20 landings and takeoffs Vibration (Functional Vibration): Vibration experienced on Ford F-550 in neutral gear Vibration (Tactical Transportation test Not Operational) : Test duration: 120 minutes per axis to simulate 500,000 km driving distance. Shock (Road Transportation): 10 Grms, 11 ms, 3 (X, Y, Z) axes, Sawtooth Pulse Immersion (Method 502.5): Test according to IEC 60529/ IP65 |
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| MIL-STD-461 | ||
| MIL-STD-461 Test |
CE102 (Conducted Emissions /Power Leads): 10KHz to 10MHz (Figure CE102-1) CS101 (Conducted Susceptibility / Power Leads): 30Hz to 150KHz (Figure CS101-1: Curve #2) CS114 (Conducted Susceptibility, bulk cable injection): 10KHz to 200MHz, curves 3&4 (10 kHz to 2 MHz: Curve #3 2MHz to 200MHz: Curve #4) CS115 (Conducted Susceptibility, bulk cable injection): impulse excitation (5A) CS116 (Conducted Susceptibility Damped sinusoidal transients, cables and power leads): 10KHz to 100MHz (10A) RE102 (Radiated Emissions electric filed): 2MHz to 18GHz (Figure RE102-4) RS103 (Radiated Susceptibility electric filed): 2Mhz to 18GHz, 50V/m (2MHz to 100MHz: 50V/m , 100MHz to 18GHz: 50V/m) CS118 (Personnel borne electrostatic discharge): Personnel borne electrostatic discharge |
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