NV500-DY
NV500-DY
- NVIDIA Jetson THOR T5000 Military Computer
- 2070 FP4 TFLOPS AI Compute powered by Blackwell GPU
- 14-core ARM® Neoverse® CPU
- 128 GB 256-bit LPDDR5X Memory
- 1x QSFP28 (MPO) 100GbE
- Operating Temperature: -20℃ ~ 60℃
- MIL-STD-810 Vibration Method 514.6: ◎Acceleration: 5.0 Grms
- MIL-STD-810 Vibration Method 514.6: ◎PSD : 0.01257 g2/Hz
- MIL-STD-810 Shock Method 516.6 : ◎Wave Form: Half Shine Wave
- MIL-STD-810 Shock Method 516.6 : ◎Acceleration: 75G
- Technical Profile
- Specifications
- Introduction
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Powered by an NVIDIA Blackwell GPU delivering up to 2,070 FP4 TFLOPS of AI compute and a 14-core ARM® Neoverse® CPU, the NV500-DY military computer is purpose-built for advanced AI surveillance and autonomous operations. Its 128 GB 256-bit LPDDR5X memory and 100GbE QSFP28 connectivity enable real-time fusion and processing of high-bandwidth sensor data from radar, LiDAR, EO/IR, and multi-camera systems. Designed to operate reliably in harsh environments, the system supports mission-critical applications such as persistent ISR, autonomous ground vehicles, perimeter security, and mobile command-and-control, while meeting MIL-STD-810 requirements for environmental resilience, shock, and vibration across a wide operating temperature range of –20°C to +60°C.
- Next-Gen Edge AI Powered by Jetson Thor
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Powered by the NVIDIA Jetson Thor T5000 module, which delivers up to 2,070 FP4 TFLOPS of AI compute, the NV500-DY easily handles demanding workloads like agentic AI, high-speed sensor processing, autonomous robotics, and automated heavy-duty operations. As modern edge deployments typically run multiple concurrent pipelines such as detection, tracking, and segmentation, the efficient use of its 128 GB memory is essential to maintaining stable, real-time performance under strict power and thermal constraints in mission-critical environments.
Strengths of NVIDIA Jetson Thor T5000:
- AI Performance: 2070 TFLOPS
- GPU: 2560-core NVIDIA Blackwell architecture with fifth-gen Tensor Cores, Multi-Instance GPU (MIG) with 10 TPCs
- GPU Max Frequency: 1.57 GH
- CPU: 14-core Arm® Neoverse® V3AE 64-bit CPU, 1 MB L2 cache per core, 16 MB shared system L3 cache
- Memory: 128 GB 256-bit LPDDR5X, 273 GB/s
- Display: 4 x shared HDMI2.1, 1 x DisplayPort 1.4a Power: 40W–130W
- Arm® Neoverse® V3AE CPU for AI Edge Performance
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Engineered for extreme AI edge computing, the NV500-DY Military Jetson THOR T5000 Computer delivers deterministic, high-throughput performance for mission-critical applications, powered by an Arm® Neoverse® V3AE 64-bit processor. The 14-core CPU, featuring 1 MB of L2 cache per core and a 16 MB shared system L3 cache, delivers up to a 60% performance uplift over the Arm Cortex-A78AE while integrating hardware-based safety mechanisms. This architecture is ideal for AI-accelerated autonomous systems, robotics workloads, and advanced driver-assistance systems (ADAS). The NV500-DY further enables low-latency data access and sustained compute efficiency, supporting real-time analytics, sensor fusion, and complex control workloads at the tactical edge.
- Extensive and Versatile I/O Capabilities
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The NV500-DY is purpose-built with extensive and versatile I/O capabilities to meet the evolving demands of military and defense applications. At the network edge, high-speed connectivity is delivered through 1× QSFP28 and 1× 5GbE RJ45, ensuring reliable, low-latency data exchange in mission-critical environments. Beyond networking, the platform offers a comprehensive external interface set—including two USB 3.1 Type-C ports, two USB 3.2 Type-A ports, HDMI, and DisplayPort—to support modern peripherals, displays, and visualization systems. Internally, the NV500-DY further enhances system integration with a rich array of headers including dual 13-pin CAN header and dual 6-pin automation headers, enabling seamless customization, control, and long-term operational reliability across diverse military deployments.
- MIL-STD-810 Military-Grade Ruggedization
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Built for deployment in harsh operational environments, the NV500-DY is designed to meet MIL-STD-810 military standards for shock, vibration, and environmental resilience. Its ruggedized design supports reliable operation across a wide temperature range from -20°C to 60°C, ensuring stable performance in demanding field conditions. This combination of high-end compute capability and military-grade durability makes the NV500-DY a robust platform for next-generation defense and aerospace edge AI applications.
- Block Diagram
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- Appearance
|
System |
|
|---|---|
|
High performance Processor |
14-core Arm® Neoverse®-V3AE 64-bit CPU 64 KB I-Cache, 64 KB D-Cache 1 MB L2 cache per core 16 MB shared system L3 cache |
|
GPU |
2560-core NVIDIA Blackwell architecture GPU with 96 fifth-gen Tensor Cores Multi-Instance GPU (MIG) with 10 TPCs |
|
AI Performance |
2070 TFLOPS (FP4—Sparse) |
|
Memory Type |
128 GB 256-bit LPDDR5X, 273 GB/s |
|
Expansion Slot |
|
|
Expansion Slot |
M.2 Key E slot with x1 PCIe Gen5 (populated with WiFi and Bluetooth module) |
|
Display |
|
|
Graphics Interfaces |
1x HDMI 2.0 (max resolution 3840x2160) 1x Type C DP mode |
|
Storage |
|
|
M.2 |
1x M.2 Key M slot with x4 PCIe Gen5 (populated with 1 TB NVMe) |
|
Ethernet |
|
|
Controller |
2x GbE RJ-45 (OOB on board, one port is NCSI) 1x QSFP for 4x25GbE |
|
Front I/O |
|
|
Power Button |
1x Power button |
|
Phoenix Jack |
9~28 V DC-IN |
|
Networking I |
1x QSFP28 (4x 15GbE) |
|
USB |
2x USB3.1 Type-C |
|
Display |
1x HDMI 2.0b 1x Display port 1.4a |
|
Networking II |
1x 5GbE RJ45 connector |
|
USB |
2x USB3.2 Type-A |
|
Access I/O |
|
|
Debug |
1x USB Type-C1 |
|
Recovery |
1x Recovery Button |
|
Reset |
1x Reset Button |
|
Inner I/O |
|
|
2x 13-pin CAN header 2x 6-pin automation header 2x 5-pin JTAG connector 1x 4-pin fan connector—12 V, PWM, and Tach 2x 5-pin audio panel header 2-pin RTC backup battery connector |
|
|
Power Requirement |
|
|
Power Input |
40W~ 130W |
|
Operating System |
|
|
Operating System |
Ubuntu 24.04 with JetPack 7.X |
|
Physical |
|
|
Dimension |
250 x 250 x 118 mm (W x D x H) |
|
Weight |
TBD |
|
Chassis |
Aluminum AL6061 |
|
Heatsink |
Aluminum Alloy, Corrosion Resistant. |
|
Finish |
Anodic Aluminum Oxide (Color). |
|
Cooling |
Natural Passive Convection/ Conduction. No Moving Parts |
|
Environmental |
|
|
MIL-STD-461 (Optional) |
|
|
EMC |
CE102 Basic Curve, 10kHz - 30 MHz RE102-4, (1.5 MHz) -30 MHz - 5 GHz RS103, 1.5 MHz - 5 GHz, 50 V/m Equal for All Frequencies |
|
Reliability |
No Moving Parts; Passive Cooling. Designed & Manufactured using ISO 9001/2000 Certified Quality Program. |
|
Operating Temp. |
-20 to 60°C |
|
Storage Temp. |
-40 to 85°C |
|
Relative Humidity |
5% to 95%, Non-Condensing. |
