Name: IV320-RS
Availability: InStock

IV320-RS

Targeting UAV Engagement GPU Computer

A counter-drone visualisation platform incorporating sensor-data fusion
Multi-video data input, including 3G-SDI, HD-SDI, 10G Fiber
Vast communication methods support 4G/5G LTE, WiFi, Bluebooth, LAN
Intel^® 14th. i9-14900T, 24xCore, 5.5 Ghz
NVIDIA^® RTX 4000 Ada SFF (20GB GDDR6, 6,144 CUDA) ;
2 x 2.5G ; Options : 2 x 10G LAN , 4 x POE, 2 x POE 30W ; 2 x POE 60W
Extended Operating Temperature -20°C to +60°C
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: 40G

Special Request :

Optional IP66

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Technical Profile
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A High-Performance GPU Computer for UAV Engagement

In response to the evolving challenges of drone threats, 7StarLake introduces the AV320-RS, a next-generation GPU computing platform engineered for counter-drone visualization and UAV engagement. With sensor-data fusion, AI-driven analytics, and ruggedized performance, the AV320-RS delivers unmatched situational awareness and real-time target tracking for military, defense, and critical infrastructure security.

Cutting-Edge Performance for UAV Threat Detection

The AV320-RS integrates advanced multi-video processing and AI-powered analysis, ensuring precision in drone detection and engagement. Key capabilities include:
✔ Multi-Video Data Input – Supports 3G-SDI, HD-SDI, and 10G Fiber for seamless high-resolution feeds.
✔ Sensor-Data Fusion – Combines radar, RF, EO/IR, and other inputs for comprehensive airspace monitoring.
✔ AI-Driven Threat Classification – Powered by NVIDIA RTX 4000 Ada SFF GPU (20GB GDDR6, 6,144 CUDA cores) for rapid object recognition and 3D visualization.

High-Performance Computing with Unmatched Processing Power

The AV320-RS is built for speed and efficiency, featuring:
◆Intel® 14th Gen i9-14900T (24 cores, 5.5 GHz) – High-speed processing for real-time analytics.
◆NVIDIA RTX 4000 Ada SFF – AI-enhanced visualization for drone engagement.
◆Advanced Connectivity Options – 2x2.5G LAN, with optional 2x10G LAN, 4xPoE, or high-power PoE (30W)

Built for Harsh Environments & Military-Grade Reliability

Designed for extreme operational conditions, the AV320-RS meets MIL-STD-810 standards, ensuring durability and resilience in the field:
◆Extended Operating Temperature: -20°C to +60°C
◆MIL-STD-810 Vibration Resistance: 5.0 Grms acceleration, 0.01257 g²/Hz PSD
◆MIL-STD-810 Shock Resistance: 40G acceleration, Half Sine Wave Impact Protection

Seamless Communication & Network Integration

With its vast connectivity options, the AV320-RS enables real-time data sharing across multiple platforms:
◆4G/5G LTE, WiFi, Bluetooth, and LAN for secure and reliable communication.
◆Integration with counter-drone defense systems for automated response and engagement.

Revolutionizing UAV Threat Mitigation

The AV320-RS is a powerful tool for defense, border security, and infrastructure protection, providing unparalleled computational power and AI-driven threat assessment. Whether deployed for military UAV defense, airport security, or battlefield operations, the AV320-RS ensures rapid, intelligent decision-making in high-risk scenarios.

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. IV320RH 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 IoT

Wide 10 Gigabit Data Uplink Bandwidth Ideal for IoT

Artificial Intelligence and Machine Learning request large amount of data and fast data transmission, 10GbE uplink can support wide bandwidth for AI edge computing and led to less bottlenecks and low latency and improve work efficiency, ensuring peak network efficiency and performance for autonomous driving.

Flexible I/O Port and Expansion Slot

AI edge computer focuses on easy deployment for great variety applications; IV320-RS is equipped with extensive I/O ports including 1x VGA, 2 X 10Giga LAN, 2 X 2.5Giga LAN, 1 x USB, 1 x COM port, especially the I/O is installed with M12 waterproof connector, ready for harsh environment. Furthermore, IV320-RS is equipped with 1 x PCIe 5.0 x 16 / 1 x PCIe4.0 x 4 / 1 x M.2 22110/2280 M-Key PCIe 3.0 x 4 / 2 x MCIO PCIe 4.0 x 4 expansion slot that enable the installation for the connectivity of data transmission of diverse data-intensive applications.

MXM Mezzanine Type Structure to Withstand Uneven Terrain

Accordion content 2.

While driving on uneven terrain, the system should be anti-vibration to protect the machine from damage; 7Starlake uses MXM mezzanine type to make the ruggedized structure for harsh environment. IV320-RS is driven by NVIDIA® Quadro RTX A4500/A2000 MXM GPU with 5888/3,328 CUDA Cores 16GB/8GB GDDR6 high memory configurations. The GPU is arranged with MXM 3.1 module providing efficient GPU performance. With five channel outputs, including 4x DisplayPort 1.4a, 1x DVI, IV320RH supports various application, 4K at 120Hz or 8K at 60Hz with 10-bit color depth. RTX A2000 MXM GPU improves data-transfer speeds from CPU memory for data-intensive tasks with support for PCI Express Gen 4.

Intel CPU Features: To realize Edge AI technology, IV320-RS is driven by Intel® 13th generation Raptor Lake which builds upon by increasing core count (primarily E-Cores), expanding L2 cache memory, and raising clock speeds to ultimately enhance processor performance. This results in an impressive configuration of up to 8 P-Cores and 16 E-Cores, culminating in a total of 24 cores within flagship offerings.

The x86 hybrid architecture consists of the following two core types, with the CPU activating different cores based on various usage applications to achieve high efficiency and low power consumption:

P-Core: Adopts the Golden Cove architecture which is suitable for high-performance and gaming applications.

E-Core: Adopts the Gracemont architecture which is suitable for low-power and multitasking applications.

System
CPU	Intel^® 14th Raptor Lake-R Core i9-14900T, 24C, 32T, 1.1/5.5GHz, 36M Cache, TDP 35W Intel^® 13th Raptor Lake Core i9-13900TE, 24C, 32T, 1.0/5.0GHz, 36M Cache, TDP 35W
Memory type	DDR5 4400MHz UDIMM Up to 128GB, ECC/Non-ECC
CHIPSET	Intel^® R680E Chipset
GPU	NVIDIA^® RTX A4500 MXM /RTX 5000 Ada MXM
Expansion Slot	1 x PCIe 5.0 x 16 1 x PCIe4.0 x 4 1 x M.2 22110/2280 M-Key PCIe 3.0 x 4 2 x MCIO PCIe 4.0 x 4
Display
Display	1 x VGA (option) 1 x DP
Storage
SATA	2 x 2.5” SSD, Hot Swappable SSD/HDD slot 2 x 2.5” SSD Internal
M.2	1 x 22110/2280 M key (PCIe 3.0 x 4)
Ethernet
Ethernet	2 x 2.5G Ethernet Ports 2 x 10G Ethernet Ports
TPM
TPM	Onboard TPM2.0
Front I/O
X1	1 x VGA (Option 1 x DP)
X2,X3	(Each) 1 x 10Giga LAN with POE(60W) , M12 waterproof connector
X4,X5	(Each) 1 x 2.5Giga LAN with POE(30W) , M12 waterproof connector
X6	1 x USB, with M12 waterproof connector
X7	1 x COM, with M12 waterproof connector
Switch	1x IP65 power button
SSD	2x 2.5” Easy swap SSD Tray
Rear I/O
Power	12V DC-IN ( Option 48VDC for EN50155)
Others	Antenna
Power
Power input	12V DC-IN (Option 48VDC for EN50155)
Operating System
OS	Windows^® 10 64-bit / Linux (Support by request)
Physical
Dimension	250 x 325 x 100 mm (W x L x H)
Weight	12KG
Chassis	Aluminum Alloy
Heatsink	Heatsink Aluminum Alloy, Corrosion Resistant
Environmental
Green Product	RoHS, WEEE compliance
Operating Temp.	-20°C to +60°C
Storage Temp.	-40°C to +85°C
Relative Humidity	5% to 95%, non-condensing
MIL-STD-810 Specifications (Operating)
Method 502.5	Low Temperature -20°C, 4 hours, ±3°C
Procedure 2	Low Temperature -20°C, 4 hours, ±3°C
Method 501.5	High Temperature +55°C, 4 hours, ±3°C
Procedure 2	High Temperature +55°C, 4 hours, ±3°C
Method 507.5	Humidity 85%-95% RH without condensation, 24 hours/ cycle, conduct 10 cycles.
Method 514.6	Vibration 5-500Hz, Vertical 2.20Grms, 40mins x 3axis.
Method 516.6	Shock 20 Grms, 11ms, 3 axes.
MIL-STD-810 Specifications (Non-Operating)
Method 502.5	Low Temperature -33°C, 4 hours, change rate:≦20°C/ Hour Storage -15°C, 72hours (By request)
Procedure 1
Method 501.5	High Temperature +71°C, 4 hours, change rate:≦20°C/ Hour Storage +63°C, 240 hours (By request)
Procedure 1
Method 514.6	Vibration 5-500Hz, Vertical 2.20Grms, 40mins x 3axis.
Method 516.6	Shock 20 Grms, 11ms, 3 axes.

IV320-RS Ordering Information