AV800
Military Rugged GPU Server, Tesla T4/L4 GPU & Intel® Xeon® D-2183IT, MIL-461 18V~36V DC
- Intel® Xeon® Skylake-D D-2183 IT (16C, 3.00 GHz)
- NVIDIA TELSA T4/L4 GPU Integrated
- MIL-STD-810 Thermal, Shock, Vibration, Humidity
- 512GB DDR4-2666 MHz
- 2x10GbE, 2xGbE , IPMI Support
- NVMe for Fast & Mass Storage
- IP65 Rating with DTL38999
- MIL-STD 461 EMI 18V~36V DC-In
- Dimension : 405 x 316 x 154 mm (DxWxH)
- Extended Temperature -20°C to +55°C
Special Request :
- Optional IP66
- Technical Profile
- Specifications
- Thermal Solution
- Download
The AV800 is a ruggedized AI inference platform specifically designed to support the NVIDIA® Tesla® T4 GPU and powered by the Intel® Xeon® Skylake-D D-2183IT processor. Built on 7StarLake’s open, modular, and scalable architecture, the AV800 features an optimized thermal design for the Tesla T4, ensuring stable and reliable operation in harsh environments. In addition to GPU acceleration, the platform includes an M.2 NVMe slot for high-speed storage access. With a powerful CPU, strong expansion capabilities, and exceptional inference performance, the AV800 is an ideal ruggedized solution for diverse edge AI applications.
The AV800 ruggedized AI inference platform is designed for advanced inference acceleration workloads, including voice, video, image, and recommendation services. Equipped with the NVIDIA® Tesla® T4 GPU, it delivers up to 8.1 TFLOPS of FP32 performance and 130 TOPS of INT8 performance, enabling real-time inference for trained neural network models.
- IT Block Diagram
- Features
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Computing Features
-Xeon D2183IT (2.0GHz, 16 cores, 32 threads)-4 x DDR4 2400Mhz RIMM ECC (up to 512GB)-Nvidia Tesla T4 GPU (2560 CUDA, 16GB GDDR6)-1 x M.2 2280 M-key (SATA/PCIe 3.0x4 NVMe)-2 x 2.5” SATA SSD (Easy Swappable)
I/O and Expansion Options
-X1: Two 10GbE LAN with D38999 connector-X2: One VGA with D38999 connector-X3: Two USB 3.0 with D38999 connector-X4: One DC-in with D38999 connectorEnvironment
-MIL-STD-461 18V-36V DC Power Module-MIL-STD-810/461 compliantOperates up to extended temp -20°C to +55°C
- Advanced thermal solution
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The system features an internal conduction cooling design in which copper heat pipes transfer heat from the CPU and GPU to an external dual-sided aluminum heat sink. In addition, an actively controlled system fan and a dedicated power fan operating in turbo mode further enhance thermal dissipation. Together, these cooling solutions are engineered to ensure superior system performance and stable operation in harsh and mission-critical environments.
- Edge AI Inference, NVIDIA Tesla T4 & INTEL XEON D2187NT
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The NVIDIA® T4 is a single-slot, low-profile, 6.6-inch PCI Express® Gen3 universal deep learning accelerator based on the NVIDIA® TU104 GPU. Designed to accelerate a broad range of workloads—including high-performance computing, deep learning training and inference, machine learning, data analytics, and graphics—the T4 is built on the NVIDIA Turing™ architecture. Packaged in an energy-efficient 70-watt PCIe form factor, it is optimized for mainstream computing environments and features multi-precision Turing Tensor Cores along with new RT Cores.
The T4’s multi-precision capabilities enable breakthrough AI performance across a wide range of applications, delivering up to 8.1 TFLOPS of FP32 performance, 65 TFLOPS of FP16 performance, 130 TOPS of INT8, and 260 TOPS of INT4, making it ideal for real-time inference and compute-intensive AI workloads.
- Ultra-High Performance Intel® Xeon® Performance with VMware Support
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Skylake D: The Intel® Xeon® processor D-2183IT product family is Intel’s 64-bit system on a chip (SOC) and the first Intel® Xeon® SoC based on Intel® 14 nm silicon technology. This lineup offers hardware and software scalability from two up to sixteen cores, making it the perfect choice for a broad range of high-performing, low-power solutions that will bring intelligence and Intel® Xeon® reliability, availability, and serviceability (RAS) to the edge. For applications where space is a premium, an integrated Platform Controller Hub (PCH) technology and Intel® Ethernet in a ball grid array (BGA) package offer an inspiring level of design simplicity. The Intel® Xeon® processor Skylake DE product family is offered with a seven-year extended supply life and 10-year reliability for Internet of Things designs.
- Design to Meet MIL-STD 810 & MIL-STD461
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The AV800 is designed to meet strict size, weight, and power (SWaP) requirements and to withstand harsh environments, including temperature extremes, shock/vibe, sand/dust, and salt/fog.
The AV800 is MIL-461/1275 EMI/EMC compliant rugged Edge AI Inference server. It passes numerous environmental tests including Temperature, Altitude, Shock, Vibration, Voltage Spikes, Electrostatic Discharge and more. The sealed compact chassis shields circuit cards from external environmental conditions such as sand, dust, and humidity.
- 7STARLAKE Inference Optimized GPU Server
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System |
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|---|---|
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Processor |
Intel® Xeon® D-2183IT, 100W, Skylake 6th Gen, 16C, Freq. 2.2/3.0 GHz, 22MB Smart cache. |
| Memory type | 4 x DIMMs Up to 512GB ECC RDIMM DDR4-2666MHz |
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Chipset |
SoC, integrated with CPU |
|
GPU |
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NVIDIA |
TESLA T4 |
|
Turning Tensor Cores |
320 |
|
CUDA Cores |
2560 |
|
Memory |
16 GB GDDR6, 300 GB/sec |
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Graphics Output |
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1x VGA |
ASPEED AST2500 |
|
Resolution |
Up to 1920x1200@60Hz 32bpp |
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Storage |
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HDD/SSD |
1x M.2 2280 M key NVMe socket (PCIe Gen3 x4) for NVMe SSD installation 2 x 2.5" SSD (Easy Swappable) |
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Side I/O |
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X1 ( 2 x 10GbE Ethernet)) |
1x Amphenol TV07RW-13-35S (22PIN) |
|
X2(VGA) |
1 x Amphenol TV07RW‐13‐98S(10PIN) |
|
X3(USB3.0x2) |
1 x Amphenol TV07RW-13-35SB(22PIN) |
|
X4 (DC-IN) |
1 x Amphenol TV07RW‐13‐04P (4PIN) |
|
Button |
1 x Power Switch with Dedicated LED |
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SSD Tray |
2 x Dual 2.5" HDD/SSD Easy Swap Tray |
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Dedicated LED |
1 x Red LED(OVHT),1 x Green LEDs(SSD) |
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Power Requirement |
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Power Input |
DC-DC 18 to 36V (300W max) MIL-STD 461 |
| Mechanical and Environment | |
| Dimension (DxWxH) | 405 x 316 x 154 mm |
| Weight | 15Kg (33.06lbs) |
| Chassis | Aluminum Alloy, Corrosion Resistant |
| Finish | Anodic aluminum oxide |
| Cooling | Natural Passive Convection/Conduction. No Moving Parts |
| Ingress Protection | IP65 |
| Applications, Operating System | |||||||
|---|---|---|---|---|---|---|---|
| Applications | Military Platforms Requiring Compliance to MIL-STD-810 where Harsh Temperature, Shock, Vibration, Altitude, Dust and EMI Conditions. | ||||||
| Operating System | Windows 10 64Bit, Windows Server 2008 R2, Windows Server 2012 R2, Windows Server 2016, Ubuntu14.04, Fedora 20/23, RedHat Linux EL 7.1/7.2, VMware ESXi 6.0, ESXi 6.5 | ||||||
| Environmental | |||||||
| Operating Test | MIL-STD-810G Test | ||||||
| Method 502.5, Procedure II ( Operation/Low Temperature ) | |||||||
| Method 501.5, Procedure II ( Operation/High Temperature ) | |||||||
| Method 507.5, Procedure II ( Temperature & Humidity ) | |||||||
| Method 514.6 Vibration Category 24/Non-Operating ( Category 20 & 24, Vibration ) | |||||||
| Method 516.6 Shock-Procedure V Non-Operating ( Mechanical Shock ) | |||||||
| Method 516.6 Shock-Procedure I Operating ( Mechanical Shock ) | |||||||
| Non-Operating Test | Method 502.5, Procedure I ( Storage/Low Temperature ) | ||||||
| Method 502.5, Procedure II ( Operation/Low Temperature ) | |||||||
| Method 501.5, Procedure I ( Storage/High Temperature ) | |||||||
| Method 514.6 Vibration Category 24/Non-Operating ( Category 20 & 24, Vibration ) | |||||||
| Method 514.6 Vibration Category 20/Operating ( Category 20 & 24, Vibration ) | |||||||
| Method 516.6 Shock-Procedure V Non-Operating ( Mechanical Shock ) | |||||||
| Method 516.6 Shock-Procedure I Operating ( Mechanical Shock ) | |||||||
| Method 509.7 Salt Spray (50±5)g/L | |||||||
| EMC compliance |
MIL-STD-461 CE102 basic curve, 10kHz - 30 MHz RE102-4, (1.5 MHz) -30 MHz - 5 GHz RS103, 1.5MHz to 18GHz, 50V/m equal for all frequencies EN 61000-4-2: Air discharge: 8 kV, Contact discharge: 6kV EN 61000-4-4: Signal and DC-Net: 1 kV EN 61000-4-5: Leads vs. ground potential 1kV, Signal und DC-Net: 0.5 EN 55022, class A EN 61000-4-3: 10V/ |
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| Designed to Meet Items ( Options ) |
CS101, CS114, CS115, CS116CE106, RE103, RS101MIL-STD-1275 (Options)Steady State: 20V~33VSurge Low: 18V/500msSurge High: 100V/500ms |
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| Operating Temperature | -20°C to 55°C | ||||||
| Storage Temperature | -40°C to 85°C | ||||||
Patented Thermal Architecture
7starlake guarantees reliable and supreme solutions for industrial and military applications. All of our selected components are of authentic industrial grade, and have verified their stability and durability through a series of Wide-range Temperature tests.
| Attachment | Size |
|---|---|
| AV800 System test report _20210810_N_6.pdf (1.8 MB) | 1.8 MB |
| 7Starlake_AVR800-X1A_QTP_2022 Dec.pdf (3.96 MB) | 3.96 MB |
| 7StarLake_MIL-STD-461G_Test Report_AV800_s.pdf (3.26 MB) | 3.26 MB |
| 7StarLake_MIL-STD-810_Test Report_AV800.pdf (5.95 MB) | 5.95 MB |
| 7StarLake_MIL-STD-810_Low Pressure (Altitude) and Sand and Dust_Test Report_AV800.pdf (2.49 MB) | 2.49 MB |