NV300-AMB
2U Half Nvidia AGX Orin Military Computer
- Ultra Short Depth 2U Half Rugged Computer
- NVIDIA Jetson AGX Orin 64G LPDDR5 DRAM
- 1 x LAN, 1 x USB2.0, 1 x RS422, 1 x HDMI, 1 x USB 3.1
- IP65 Classified
- DC 12V~30V (Options)
- Operating Temperature: -20℃ to 50℃
- Dimensions: 250 x 325 x 100 mm
- 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
- Order Information
- Download
The NV300-AMB is an ultra-small-form-factor (USFF) MIL-SPEC rugged edge compute solution. Designed using a Modular Open Systems Approach (MOSA) with a modular chassis and architecture design, integrating either the NVIDIA Jetson AGX Orin edge AI system on module (SOM), the NV300-AMB provides the performance and flexibility demanded by emerging autonomous and unscrewed missions, in an ultra-compact and lightweight form factor. The NV300-AMB is engineered to withstand austere environments and is SWaP-optimized for integration and deployment in highly space-constrained platforms.
Military-Grade Performance
The NV300-AMB, built with a heavy-duty aluminum enclosure featuring conduction cooling, advanced EMI shielding, and an integrated EMI filter, ensures superior durability and protection against electromagnetic interference (EMI). It meets the stringent requirements of MIL-STD-461 and MIL-STD-1275E for ground vehicles, making it ideal for high-performance military applications. Equipped with an isolated MIL-STD-461 and MIL-STD-1275E compliant power module and a robust EMI filter, it effectively safeguards against aircraft and ground vehicle voltage surges, spikes, and transients. The combination of EMI shielding and filtering enhances signal integrity, minimizes conducted and radiated emissions, and ensures stable operation in harsh and high-interference environments.
IP65-Rated Protection for Harsh Environments
Designed to withstand extreme conditions, the NV300-AMB features an IP65-rated, rugged aluminum enclosure that offers exceptional resistance to shock, vibration, and environmental hazards. Its conduction-cooled design enhances thermal efficiency, ensuring reliable performance in demanding military and industrial applications. With complete protection against dust ingress and low-pressure water jets, the NV300-AMB delivers optimal functionality even in the most challenging operational settings.
NVIDIA® Jetson AGX Orin
Bring your next-gen products to life with the world’s most powerful AI computers for energy-efficient autonomous machines. Equipped with an NVIDIA Ampere architecture GPU featuring 2048 CUDA® and 64 Tensor Cores, the NV300-AMB, integrated with the NVIDIA Jetson AGX Orin module, delivers up to 275 TOPS of AI performance with power configurable between 15W and 60W. Besides, NVIDIA® Jetson AGX Orin modules have 8X the performance than Jetson AGX Xavier for multiple concurrent AI inference pipelines, plus high-speed interface support for multiple sensors, making them the ideal solution for a new age of robotics.
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Edge AI Platform |
SFF & SWaP |
Open Modular Architecture |
MIL-STD 810 Rugged |
| Integrated with the NVIDIA Jetson AGX Orin (64GB), delivering up to 275 TOPS of AI performance for next-gen autonomous and uncrewed mission-critical applications. | Ultra-compact and lightweight, SWaP-optimized for integration and deployment in highly space-constrained vehicles. | Jetson AGX Orin and SMARC x86-based architecture/processor options. Robust IO and configuration options, including multiple USB 3.0, GbE, serial, display, video capture, GP, GPIO. | Engineered for austere environments. -20°C to +50°C operating temp, passive cooled. Fully sealed. MIL-STD-810H, MIL-STD-461G, MIL-STD-1275E/704F. |
- Detecting Objects in Point Clouds with NVIDIA CUDA-PointPillars
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(Sourced from NVIDIA)
NV300-AMB can generate a point cloud, a data set consisting of points within a coordinate system. Each point in a point cloud holds valuable information, such as three-dimensional coordinates (X, Y, Z), color, classification value, intensity value, and time. Point clouds are primarily produced by 3D Lidar systems, which are extensively used in various NVIDIA Jetson applications, including autonomous driving, perception modules, and 3D modeling. A key application of point clouds is utilizing long-range and high-precision data sets to achieve 3D object detection, which is essential for perception, mapping, and localization algorithms.
- GPU acceleration of object detection on video stream using CUDA
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NV300-AMB excels in object detection, a crucial technology for applications such as autonomous driving and intelligent video analytics. Achieving high accuracy in object detection necessitates extensive training with large datasets, a task ideally suited for the parallel computing capabilities of NVIDIA GPUs. These GPUs are specifically designed to efficiently train large neural networks, enabling the rapid and effective generation of datasets for object detection inference.
Object detection plays a pivotal role in computer vision, as well as in image and video processing. Achieving top accuracy and fast detection under varying conditions—such as changes in position, scale, illumination, and noise—poses a significant challenge that cannot be effectively addressed by sequential processing on a single-core General Purpose Central Processing Unit (GPCPU). This post outlines the essentials for leveraging NVIDIA GPUs to implement high-performance object detection pipelines quickly and efficiently, addressing the inherent complexities of real-time object detection in dynamic environments.
(Sourced from NVIDIA)
- Block Diagram
- Appearance
System |
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High performance Processor |
Ampere GPU + Arm Cortex-A78AE CPU + 64GB LPDDR5 + 64GB eMMC 5.1 |
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GPU |
64GB: Two graphics processing cluster (GPC) | eight texture processing clusters (TPC) | 2048 NVIDIA® CUDA® cores | 64 Tensor cores Ray-Tracing cores | 170 Sparse TOPS | Maximum Operating Frequency: 1.3 GHz |
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AI Performance |
64GB: Up to 275 Sparse TOPS (INT8) |
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Memory Type |
Jetson AGX Orin 64GB: 64GB 256-bit LPDDR5 DRAM |
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Expansion Slot |
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Expansion Slot |
1x M.2 Key-B, 1x SIM, 1x MicroSD, 1x 5V Fan 1x I2C, 2x UART, 1x I2S, 2x SPI, 1x CAN 1x Camera Connector (6 CSI camera support) |
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Display |
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Graphics Interfaces |
1x HDMI 2.0 (max resolution 3840x2160) |
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Storage |
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M.2 |
1x M.2 Key-M 256GB SSD 64 GB eMMC 5.1 Flash |
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Ethernet |
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Controller |
2x GLAN |
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Front I/O |
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X1 |
DC12-30 VDC |
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X2 |
1x HDMI with D38999 |
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X3 |
1x USB3.1 with D38999 |
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X4 |
1x GbE LAN with D38999 |
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X5 |
1x USB2.0 + 1x RS422 with D38999 |
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Rear I/O |
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| Ground Screw | 1 | |||
| Debug Access Panel |
1x Reset Button 1x Recover Button 1x USB type-C for Debug 1x USB Type-C for Recovery 1x Boot LED |
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Power Requirement |
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| Power Input | 12V~30VDC | |||
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Operating System |
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| Operating System | Ubuntu 20.04 with JetPack 6.0 | |||
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Physical |
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| Dimension | 250 x 325 x 100 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 | |||
| Ingress Protection | IP65 | |||
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Environmental |
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MIL-STD-461 (Options) |
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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 |
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Reliability |
No Moving Parts; Passive Cooling. Designed & Manufactured using ISO 9001/2000 Certified Quality Program. |
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Operating Temp. |
-20 to 50°C (ambient with air flow) |
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Storage Temp. |
-40 to 85°C |
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Relative Humidity |
5% to 95%, non-condensing. |
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| Attachment | Size |
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| NV300-1LS64-AMB Performance Test Report.pdf (4.93 MB) | 4.93 MB |