THOR400-S14
Military Core® i9-13900, 100G NIC GPGPU AI Inference Computer, 3U Half-Rack
- Ultra-High-Performance Intel® Core® i9-13900(5.6GHz, 24 cores, 32 threads)
- NVIDIA RTX A2000(3,328 CUDA, 6/12GB GDDR6)
- 1 x 100GbE Dual-Port QSFP28 Nvidia ConnectX-6(Option)
- Up to 128GB Unbuffered ECC/non-ECC UDIMM, DDR5-4400MHz
- 1 x NVMe M.2 SSD
- MIL-STD-810 Temperature, Shock, Vibration
- MIL-STD-461 EMI/EMC; MIL-STD-1275 electrical systems in military vehicles
- Technical Profile
- Specifications
- Order Information
- Introduction
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In the ever-progressing dom
ain of multidomain operations, the linchpin for triumph is the synthesis of multi-intelligence sensor data within a fusion framework, delivering nuanced and timely situational awareness.Elevating the military Commander's comprehension demands more than technical proficiency; it necessitates strategically placing mission-critical, high-performance servers at the edge. This isn't just a technical requirement; it's a strategic imperative propelling your mission to unprecedented heights.
Crafted with cutting-edge components, including the Intel® Raptor Lake-S 24 Cores i9 Processor, Nvidia RTX A2000(3,328 CUDA), and supporting up to a 100G Fiber Network, the THOR400-S14 transcends intelligence and decision-making thresholds. Setting its sights on harnessing computing power to amplify battlefield strategies, the THOR400-S14 guarantees high-bandwidth capability to handle intensive military edge workloads. It delivers ultra-fast, nearly instantaneous visual analysis for military workstations, encompassing AI-Targeting, target acquisition, and Network Visualization.
- Ultra-High Performance Intel®Core® Processor Raptor Lake-S
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Intel® Core® processor Raptor Lake-S product family offers hardware and software scalability up to sixteen cores, making it the perfect choice for a broad range of high-performing, low-power solutions that will bring intelligence and Intel® Core® reliability, availability, and serviceability (RAS) to the edge.
- Appearance
System |
|
|---|---|
| Processor | Intel® Core® Processor i9-13900 (Frequency 2.0GHz, Turbo Boost Frequency up to 5.6GHz), 24 Core, 32 Thread Support, 36MB Smart Cache ,TDP up to 65W |
| Memory Type | Up to 128GB Unbuffered ECC/non-ECC UDIMM, DDR5-4400MHz |
| Chipset | Intel® R680E |
GPU |
|
| NVIDIA | NVIDIA RTX A2000 |
| Tensor Core | 104 |
| CUDA Cores | 3,328 |
| Memory | 6/12GB GDDR6, 192-bit, 288 GB/s |
Storage |
|
| SSD | 1 x M.2 NVMe SSD |
100G |
|
| NVIDIA | Nvidia ConnectX-6 Dual Port QSFP28 LAN card (Option) |
Front and Side I/O |
|
| X1 | 1x DC-IN, with D38999 connector |
| X2 | 1x MiniDP, with D38999 connector |
| X3 | 1x 10GbE MPO SFP28, with D38999 connector (1 x 100GbE MPO QSFP28 , with D38999 conncetor by option) |
| X4 | 1x USB3.0, with D38999 connector |
| Button | 1x Power Switch with Dedicated LED |
| Dedicated LED | 1x Red/Green LEDs ( SSD) |
Power Requirement |
|
| Power Input | DC-DC 18V~ 36V (300W max) MIL-STD 461 |
| Applications, Operating System | |
| Applications | C4ISR, Commercial and Military Platforms Requiring Compliance to MIL-STD-810 Process Control, where Harsh Temperature, Shock, Vibration, Altitude, Dust and EMI Conditions |
| Operating System | Windows 10 64Bit, Windows Server 2019 64bit, Windows 2016 64bit, Hyper-V Server 2016 R2, Ubuntu16.04.3 LTS/17.10/18.04.1LTS, Fedora 25/26, RedHat Linux EL 6.8/6.9/7.3/7.4/7.6, VMware ESXi 6.5u1 ,Vmware ESXi 6.7U2 |
Physical |
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|---|---|---|
| Dimension | 220 x 450 x 132mm (W x D x H) | |
| Weight | 7.5Kg | |
| Chassis | Aluminum Alloy, Corrosion Resistant | |
| Finish | Anodic aluminum oxide | |
| Cooling | Natural Passive Convection/Conduction Cooling. No Moving Parts Ingress Protection | |
Environmental |
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Operating Test MIL-STD-810 |
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Low air pressure |
Method 500.5 |
Operation/Air Carriage 4572m (15.000 ft) |
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Procedure 2 |
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Low Temperature |
Method 502.5 |
-20°C, 4 hours, ±3°C |
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Procedure 2 |
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High Temperature |
Method 501.5 |
+55°C, 4 hours, ±3°C |
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Procedure 2 |
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Humidity |
Method 507.5 |
85%-95% RH without condensation, 24 hours/ cycle, conduct 10 cycle |
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Vibration |
Method514.6 |
5-500Hz, Vertical 7.7Grms, 40mins x 3axis |
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Category 24 |
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Shock |
Method 516.6 |
20 Grms, 11ms, 3 axes |
Non-Operating Test MIL-STD-810 |
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Low Temperature |
Method 502.5 |
-33°C, 4 hours, change rate:≦20°C/ Hour -15°C, 72hours (By request) |
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High Temperature |
Method 501.5 |
+71°C, 4 hours, change rate:≦20°C/ Hour |
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|
Procedure 1 |
+68°C, 240 hours (By request) |
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Vibration |
Method514.6 |
5-500Hz, Vertical 7.7Grms, 40mins x 3axis |
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Shock |
Method 516.6 |
20 Grms, 11ms, 3 axes |
|
Salt Fog |
Method 509.7 |
Salt Spray (50±5)g/L |
MIL-STD 461 |
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Conducted Emissions |
CE102 basic curve |
10kHz – 30MHz |
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Power Leads |
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Conducted Emissions |
RE102-4 |
1.5HMz - 30MHz – 5GHz |
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Electric Field |
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Radiated Susceptibility |
RS103 |
1.5 MHz – 3GHz, 50 V/m equal for all frequencies |
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2MHz – 80MHz, 50 V/m equal for all frequencies |
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Electric Field |
80MHz – 3GHz, 50 V/m equal for all frequencies |
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3GHz – 5GHz, 50 V/m equal for all frequencies |
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Electrostatic Discharge |
EN 61000-4-2 |
Air DISCHARGE: 8 Kv, Contact discharge : 6kV |
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Electromagnetic compatibility |
EN61000-4-4 |
Signal and DC Net: 1 kV |
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Electromagnetic compatibility |
EN61000-4-5 |
Lead vs. ground potential 1Kv, ignal und DC Net: 1 kV |
|
Radio disturbance |
EN55022 |
Class A |
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Electromagnetic compatibility |
EN61000-4-3 |
10V/m |
|
Electromagnetic compatibility |
EN 61000-4-5 |
Lead vs. ground potential 1Kv, ignal und DC Net: 0.5 kV |
MIL-STD-1275 Specifications |
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Steady State |
20V~33V |
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Surge Low |
20V~33V |
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Surge High |
18V/500ms |
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THOR400-S14
Military GPU System GPGPU AI Inference Computer with Intel® Core i9-13900 Processor, NVIDIA RTX A2000 , Up to 128GB Unbuffered ECC/non-ECC UDIMM, DDR5-4400MHz, 1 x M.2 NVMe SSD, 1 x 100GbE Nvidia ConnectX-6 LAN card(Option) ,IP65 rating, MIL-STD-D38999 Connectors, 18~36V DC-IN, Extreme Rugged operating temperature -20~+60°C