AVR800-S4L4 Edge AI Inference NVIDIA Ada Lovelace L4 & Xeon® SP Gold 5411N

AVR800

AVR800-S4L4 is 7STARLAKE ruggedized AI inference platform specifically designed 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 outdoor use, manufacturing plants, or other challenging environments, the AVR800-S4L4 can withstand tough conditions while delivering top-notch AI performance. Overall, the AVR800-S4L4 is an ideal solution for customers looking for a ruggedized AI inference platform that can handle a variety of edge computing applications with ease.

Specifications
System

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

GPU

TESLA Ada Lovelace L4 Tensor Core GPU
TFLOPS 30.3
CUDA Cores 7424

Memory

24 GB GDDR6, 300 GB/sec

Graphics Output

1x VGA ASPEED AST2500 Resolution Up to 1920×1200@60Hz 32bpp
Resolution Up to 1920×1200@60Hz 32bpp

Storage
HDD/SSD 2 x 8TB U.2 NVMe SSD with SED

Side I/OX1(2 x 10GbE RJ45) 1x Amphenol TVS07RF13-35SN (22PIN) Nickel Plated
X2(VGA) 1 x Amphenol TVS07RF‐11‐35SN (13PIN) Nickel Plated
X3(USB3.0) 1 x Amphenol USB3FTV7ANF312 Nickel Plated
X4(USB3.0) 1 x Amphenol USB3FTV7ANF312 Nickel Plated
X5(USB3.0) 1 x Amphenol USB3FTV7ANF312 Nickel Plated
X6(USB3.0) 1 x Amphenol USB3FTV7ANF312 Nickel Plated
X7(10GbE SFP+) 1 x Amphenol LCFTV20NNN Nickel Plated
X8(10GbE SFP+) 1 x Amphenol LCFTV20NNN Nickel Plated
X9(IPMI) 1x Amphenol RJFTV6A7SA1N Nickel Plated
X10(DC-IN) 1 x Amphenol TVS07RF‐15‐4P (4PIN) Nickel Plated
Button 1 x Power Switch with Dedicated LED
Dedicated LED 2 x Red/Green LEDs ( SSD)
Hardware Trusted Platform Module (TPM) 2.0 , Silicon Root Trust (RoT) -NIST 800-193 Compliant
Features UEFI Secure Boot/ Secure Firmware Updates

Power Requirement
DC-DC 18 to 36V (300W max) MIL-STD 461

Applications, Operating System

Applications

C4ISR, Commercial and Military Platforms Requiring Compliance to MILSTD-810 Process Control, where Harsh Temperature, Shock, Vibration, Altitude, Dust and EMI Conditions

Operating System

Windows 10 64Bit, Windows Server 2019 64bit, Windows 2016 64bit, Hyper-V Server 2016 R2, Ubuntu16.04.3 LTS/17.10/18.04.1LTS, Fedora 25/26, RedHat Linux EL 6.8/6.9/7.3/7.4/7.6, VMware ESXi 6.5u1, Vmware ESXi 6.7U2 VMware 8.x

Physical

Dimension 500x 154 x316 mm (D x H x W)
Estimated Weight 15Kg (33.06lbs)
Chassis Aluminum Alloy, Corrosion Resistant
Finish Anodic aluminum oxide
Cooling Natural Passive Convection/Conduction Cooling. No Moving Parts
Ingress Protection
Ingress Protection IP65

Environmental
Operating Test MIL-STD-810 Test

Low air pressure
Method 500.5 Procedure 2  Operation/Air Carriage 4572m (15.000 ft)
Low Temperature
Method 502.5 Procedure 2  -20°C, 4 hours, ±3°C
High Temperature
Method 501.5 Procedure 2  +55°C, 4 hours, ±3°C
Humidity
Method 507.5  85%-95% RH without condensation, 24 hours/cycle, conduct 10 cycle
Vibration
Method514.6  5-500Hz, Category 24  Vertical 7.7Grms, 40mins x 3axis Operation/Air Carriage 4572m (15.000 ft)
Shock
Method 516.6 20 Grms, 11ms, 3 axes

Non-Operating Tests

Low Temperature
Method 502.5  -33°C, 4 hours, change rate:≦20°C/ Hour -15°C, 72hours (By request)
High Temperature
Method 501.5 +71°C, 4 hours, change rate:≦20°C/ Hour 6 Procedure 1 +68°C, 240 hours (By request)
Vibration Method
514.6 5-500Hz, Vertical 7.7Grms, 40mins x 3axis
Shock
Method 516.6 20 Grms, 11ms, 3 axes
Salt Fog
Method 509.7 Salt Spray (50±5)g/L

EMC compliance

MIL-STD-461 :
Conducted Emissions Power Leads
CE102 basic curve 10kHz – 30MHz
Conducted Emissions Electric Field
RE102-4 1.5HMz – 30MHz – 5GHz
Radiated Susceptibility RS103
1.5 MHz – 3GHz, 50 V/m equal for all frequencies 2MHz – 80MHz, 50 V/m equal for all frequencies
Electric Field
80MHz – 3GHz, 50 V/m equal for all frequencies 3GHz – 5GHz, 50 V/m equal for all frequencies
Electrostatic Discharge
EN 61000-4-2 Air DISCHARGE: 8 Kv, Contact discharge : 6kV
Electromagnetic compatibility
EN61000-4-4 Signal and DC Net: 1 kV
EN61000-4-5 Lead vs. ground potential 1Kv, ignal und DC Net: 1kV Radio disturbance EN55022 Class A
EN61000-4-3 10V/m
EN 61000-4-5 Lead vs. ground pote

MIL-STD-1275:
Steady State 20V~33V
Surge Low 20V~33V
Surge High 18V/500ms

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