AV400

AI & Level 5 Autonomy Rugged Ampere GPU Server

  • AI & Level 5 Autonomy Rugged Ampere GPU Server
  • Ampere® Altra® Q64-22 (64Core 2.2Ghz 95W), Ampere Altra Max M128
  • Nvidia RTX 6000 ADA, 48GB GDDR6, 18176 CUDA® cores
  • Up to 2TB DDR4 RDIMM ECC
  • 4x U.2 NVMe PCIe Gen 4 (Up to 64TB)
  • 2x M.2 NVMe (OS)
  • I/O: 1xIPMI , 2x10G , 4x1G
  • 3x FHHL Slot Available
  • DC 16V-72V (1000W)

  • 6x GMSL 2.0 inputs
  • RAID PCIe Gen 4.0 Tri-Mode Support RAID 0, 00, 1, 5, 6, 10, 50 and 60

Technical Profile

From Routine to Revolution: A Prelude to Future Narrative

In the domain of AI Visual Inspection, the current version excels in routine tasks but faces challenges when dealing with real-world complexities. A transformative wave is sweeping through this field, driven by the fusion of state-of-the-art Artificial Intelligence (AI), Machine Learning (ML), and powerful high-performance computing.

Imagine this: Robotics Arm dynamically perceive and adapt swiftly, going beyond static programming. The amalgamation of AI and ML algorithms, coupled with advanced cameras and robust servers, propels these controllers into a league of their own. What sets them apart is their intelligent, rapid calculation of optimal actions—no longer confined to predefined scenarios but seamlessly extending into domains such as logistics, manufacturing, agriculture.

This signifies the future of Robotics AI Visual Inspection, emerging as problem-solving virtuosos that embody the remarkable synergy of AI, ML, and high-computing power. It marks the dawn of a new era for autonomy solutions, where the seamless convergence of efficiency and adaptability takes center stage, echoing the unmistakable cadence of innovation.

 

Precision Redefined, Future Aligned

 

AI & Level 5 Autonomy Rugged Ampere GPU Server

Introducing the AV400 by 7StarLake, a groundbreaking leap toward unparalleled precision in dynamic environments. Crafted with the cutting-edge Ampere® Altra® MAX M128-30(128 Cores) and NVIDIA RTX™ 6000 Ada (18176 CUDA-cores), AV400 emerges as a powerhouse designed to deliver peak performance and flexibility, seamlessly navigating hybrid environments. This formidable combination not only guarantees zero-latency processing of ultra-high-speed frame rates from diverse sensor inputs but also excels in adapting to the intricacies of the most demanding high-density AI visual inference workloads.

To fully harness Ampere and NVIDIA’s potent compute-intensive capabilities and elevate real-time awareness and control to unprecedented levels, AV400 utilizes the  REALSENSE technology. This strategic integration maximizes hardware resources efficiently, ensuring a streamlined experience in identifying patterns, extracting insights, and executing swift actions in harsh environments.

In unpredictable settings, AV400 stands as a testament to predictability, showcasing higher speeds, enhanced maneuverability, and increased range. It provides a comprehensive, all-in-one processing solution, reaffirming its commitment to delivering predictable performance even in the face of unpredictable challenges.

 

Block Diagram

HORUS440-R拉線圖

Specifications

System

 

CPUAmpere® Altra® MAX M128-30, 128 Cores, 3.0 GHz

Ampere® Altra® Q64-22, 64 cores, 2.2 GHz

Memory typeUp to 2TB DDR4 RDIMM ECC
ChipsetSoC, integrated with CPU
GPUNVIDIA RTX 6000 ADA Generation 18176 CUDA cores, 48GB GDDR6, 960MB/s
TPMChipset: Infineon, Type: TPM 2.0
IPMIASPEED AST2500 IPMI 2.0
BIOSAMI UEFI BIOS
USB6 USB3.2 Gen1 ports: 4 rear Type-A, 2 via 19-pin header
Ethernet2x 10G Ethernet Ports

4x 1G Ethernet Ports, 1x RJ45 Dedicated IPMI

COM1x RS232
 

Display

GPUASPEED AST2500
ResolutionUp to 1920×1200@60Hz 32bpp
 

Storage

HDD/SSD4x 2.5″ Swappable SSD Tray support U.2, NVMe, PCIe Gen4 x4 up to 64TB (Data)
2x NVMe (OS)
 

Front I/O

Power Button1x
SSD LED indicator1x
Swappable Tray8x
 

Rear I/O

1G LAN4x
IPMI LAN1x
10G LAN2x
VGA1x
USB3.04x
DC-IN1x
 

Power Requirement

Power Input16V ~ 72V DC IN 1000W
 

Physical

Dimension( WxDxH )440 x 400 x 88 mm
Weight11 Kg
ChassisSECC + Aluminum Alloy, Corrosion Resistant
FinishAnodic aluminum oxide (Color Iron gray)
 

Environmental

MIL-STD-810Method 501.5, Procedure I (Storage/High Temperature)

Method 501.5, Procedure II (Operation/High Temperature)

Method 502.5, Procedure I (Storage/Low Temperature)

Method 502.5, Procedure II (Operation/Low Temperature)

Method 503.5, Procedure I (Temperature shock)

Method 507.5, Procedure II (Temperature & Humidity)

Method 509.7 Salt Spray (50±5)g/L

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 500.5, Procedures I and II (Altitude, Operation): 12,192M, (40,000 ft) for the initial cabin altitude (18.8Kpa or 2.73 Psia)

Method 500.5, Procedures III and IV (Altitude, Non-Operation): 15,240, (50,000 ft) for the initial cabin altitude (14.9Kpa or 2.16 Psia)

ReliabilityNo Moving Parts; Passive Cooling.

Designed & Manufactured using ISO 9001/2000 Certified Quality Program.

MIL-STD-461

(Options)

CE102

RE102-4

RS103

MIL-STD-1275(Option)
Operating Temperature-20°C to +60°C
Storage Temperature-40°C to +85°C
Relative Humidity5% to 95%, non-condensing.

Download

Attachment
Datasheet