IV320-RH-KD5

8CH 3G-SDI Nvidia 5000 Ada GPU Computer with Intel^® 13th Raptor Lake-H Processors

Full IP65 sealed enclosure for harsh, wet and dusty environments.
8x Channel 3G-SDI Frame Grabber with low latency
Intel^® 13th Raptor Lake-H, Core i7-13800HE/HRE, 14C, 20T, 5.0Ghz
Up to 64GB DDR5 RAM
NVIDIA® Quadro MXM RTX 5000Ada (16GB GDDR6, 9728 CUDA)
Rugged Waterproof M12/M20 connectors
IP65 2 x 2.5” SATA SSD Easy Swap Tray
Extended Operating Temperature -20°C to +60°C
Wide Range 12V~32V DC-IN
MIL-STD-810 Anti Vibration, Shock

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Technical Profile
Specifications
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Intel CPU: To realize Edge AI technology, the IV320-RH-KD5 leverages Intel®'s 13th generation Raptor Lake processors, which feature increased core counts (especially E-Cores), expanded L2 cache memory, and higher clock speeds, all contributing to enhanced processor performance. The flagship models boast an impressive configuration of up to 8 P-Cores and 16 E-Cores, resulting in a total of 24 cores.

The x86 hybrid architecture includes two types of cores, optimized for different tasks to achieve high efficiency and low power consumption:

P-Core: Based on the Golden Cove architecture, these cores are ideal for high-performance and gaming applications.

E-Core: Based on the Gracemont architecture, these cores excel in low-power and multitasking applications.

AI-driven Tracking for Anti-drone System: The growing presence of commercial and military drones poses a significant threat to critical infrastructure, military installations, and restricted areas. The IV320-RH-KD5 GPU computer, capable of running advanced AI algorithms such as Convolutional Neural Networks (CNNs) and object tracking models, processes incoming data to classify potential drone threats, track their movement in real time, determine precise coordinates, and predict their trajectory. This system can also integrate with a Command & Control (C2) center, transmitting real-time data to support threat assessment and fire control decision-making.

MXM Mezzanine Type Structure to Withstand Uneven Terrain: While driving on uneven terrain, the system needs to be anti-vibration to protect the machine from damage. To achieve this, 7Starlake uses an MXM mezzanine type to create a ruggedized structure for harsh environments. IV320-RH-KD5 is powered by the NVIDIA® Quadro RTX 5000 Ada MXM GPU, featuring 9728 CUDA Cores and 16GB GDDR6 high memory configurations. This GPU is configured with an MXM 3.1 module, ensuring efficient GPU performance. With five channel outputs, including 4x DisplayPort 1.4, the IV320-RH-KD5 supports various applications, offering 4K at 120Hz or 8K at 60Hz with 10-bit color depth. Additionally, the RTX 5000 Ada MXM GPU enhances data-transfer speeds from CPU memory for data-intensive tasks.

SDI (Serial Digital Interface)

AI targeting systems leverage data from computer sensors and various sources to statistically assess potential targets, aggregating information from drone footage, surveillance data, open-source intelligence, and monitored movements and behaviors. This comprehensive approach enables efficient target detection and tracking. Supporting these capabilities, a state-of-the-art embedded hardware system empowers small flying robots to perform real-time onboard computation necessary for object tracking.

In computer vision applications, video processing and display are essential tasks, requiring seamless transmission of video or images from cameras to the host vision system. To achieve this, system designers must select the appropriate video interface standard based on factors like data rates, cable lengths, and power delivery options. HD-SDI and 3G-SDI are widely adopted standards in professional video production and broadcasting environments, supporting resolutions up to 1080p at 30/60Hz and offering data rates up to 3 Gbps. These signals are transmitted via a single 75Ω coaxial cable, making them suitable for applications requiring high fidelity and real-time video transmission, with cable lengths of up to 200m (using RG59/RG6 cables).

Furthermore, the system allows connection to 8 video input channels, including 8 Channel HD-SDI video channels or 4 Channel 3G-SDI Video Input plus 2 channel SDI sources video output. It generates from 2 up to 4 video output channels while maintaining low latency between input and output channels. The generated output channel provides a Bird's-Eye-View created from 4 SDI input channels, with each output channel selectable into one main channel for enhanced flexibility and functionality.

Full IP65 Sealed Enclosure: The dirt, dust, and moisture in the outdoor environment can damage the system, and as the air moves from high humidity or dusty environments, it might lead to the failure of system operation. IV320-RH-KD5 is full IP65 sealed enclosures which are designed to meet the various requirements of engineers when designing electrical and electronic systems which have to be protected. And protect against low pressure water jets from any direction, as well as condensation and water spray. It’s suitable for most outdoor enclosures.

Ready for AIoT

With its Wide 2.5 Gigabit Data Uplink Bandwidth

To cater to the demands of Artificial Intelligence and Machine Learning, which often require vast amounts of data and swift data transmission, the IV320-RH-KD5 boasts a 1GbE uplink, ensuring ample bandwidth for AI edge computing. This robust bandwidth minimizes bottlenecks, reduces latency, and enhances work efficiency. It guarantees optimal network performance, crucial for applications such as autonomous driving.

Featuring Flexible I/O Ports and Expansion Slot

The IV320-RH-KD5 is designed with versatility in mind, facilitating easy deployment across a wide range of applications. Its extensive array of I/O ports includes 1x MiniDP, 2x Giga LAN, 2x USB, and 4 x COM port, outfitted with M12/M20 waterproof connectors, ensuring readiness for harsh environments. Additionally, the IV320-RH-KD5 is equipped with 2x Full-size mini PCIe slots , enabling seamless integration for diverse, data-intensive applications' connectivity needs.

Appearance

Dimension

System
CPU	Intel^® 13th Raptor Lake Core i7-13800HE/HRE, 14C, 20T, 2.5/5.0GHz, 24M Cache, TDP 45W.
Memory type	Dual DDR5 DIMMs 5200MHz, Up to 64GB
CHIPSET	SoC, integrated with CPU
GPU	NVIDIA^® Quadro RTX 5000Ada - (9728 CUDA Cores)
Storage
HDD/SSD	Dual Reomable 2.5” SATA Tray
Front I/O
X1	1 x GbE with M12 connector
X2	1 x GbE with M12 connector
X3	2 x CAN with M12 connector
X4	2 x COM(RS485) with M12 connector
X5	2 x COM(RS485) with M12 connector
X8	1 x USB3.0 with M20 connector
X9	1 x USB3.0 with M20 connector
X10	1 x Mini DP with waterproof connector
DC-IN	1 x DC-IN 12~36V with M12 connector
HDD LED	1 x HDD LED
Power Button	1 x Power Button w/Indicator LED
Rear I/O
3G-SDI	8 x 3G-SDI with BNC Connector
GND	1 x GND Screw
Operating System
OS	Windows 10/ 11 64bit Enterprise, Linux by request
Physical
Power Requirement	12V~32V DC-IN
Dimension	250 x 325 x 138 mm ( W x D x H )
Ingress Protection	IP65
Operating Temp.	-20°C to +60°C
Storage Temp.	-40°C to +85°C
Relative Humidity	5% to 95%, non-condensing
System Design	Conduction Cooing
Environment
MIL-STD-810 (Compliance)	Method 507.5, Procedure II ( Temperature & Humidity ) Method 516.6 Shock-Procedure V Non-Operating ( Mechanical Shock ) Method 516.6 Shock-Procedure I Operating ( Mechanical Shock ) Method 514.6 Vibration Category 24/Non-Operating ( Category 20 & 24, Vibration ) Method 514.6 Vibration Category 20/Operating ( Category 20 & 24, Vibration ) Method 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 )
Reliability	No Moving Parts; Passive Cooling. Designed & Manufactured using ISO 9001 / 2000 Certified Quality Program
CE/FCC (Compliance)	CE/FCC Compliance

Attachment	Size
IV320-RH-KD5 Performance Test Report.pdf (5.03 MB)	5.03 MB

IV320-RH-KD5

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