The Importance of MIL-STD-810 Certification for Rugged Computers

In mission-critical environments such as defense, aerospace, and industrial applications, computers must operate reliably under extreme conditions. MIL-STD-810 certification ensures that rugged computers can withstand harsh environmental factors, including intense vibrations, shocks, humidity, and temperature fluctuations. This military-grade standard, developed by the U.S. Department of Defense, involves rigorous testing procedures to validate durability and performance.

Key test methods include Method 514.6 (Vibration), which assesses a system’s ability to endure mechanical vibrations from transportation or operational use, and Method 516.6 (Shock), which evaluates resistance to sudden impacts and drops. Additionally, Method 507.5 (Humidity) tests a system’s performance in high-moisture conditions, while Method 503.5 (Temperature Shock) ensures functionality in environments with rapid temperature fluctuations.

By meeting these MIL-STD-810 standards, rugged computers provide superior resilience, ensuring stable operation in extreme conditions such as battlefield deployments, harsh industrial settings, and unpredictable weather. This certification guarantees not only longevity but also mission success in the most demanding scenarios.

AV800 

• CPU : Intel^® Xeon^® D 2183 IT
• GPU : NVIDIA^® TELSA L4(PCIe)
• MIL-STD-810 Method 514.6

         Vibration
         PSD : 0.00001~0.00025 g²/Hz
         Frequency : 5~200 Hz,
         Acceleration : 1.1 Grms

• MIL-STD-810 Method 516.6

         Shock : 10 g

SR800

• CPU : Intel^® Xeon^® D-1587
• MIL-STD-810 Method 514.6

         Vibration        
         PSD :0.00593~0.0016 g²/Hz
         Frequency : 5~500 Hz
         Acceleration : 2.2 Grms

• MIL-STD-810 Method 516.6

         Shock : 20 g

AV400

• CPU : Ampere^® Altra^® Q64-22
• GPU : NVIDIA^® RTX™ 6000 ADA(PCIe)
• MIL-STD-810 Method 514.6

         Vibration        
         PSD : 0.003 g²/Hz
         Frequency : 500~2000 Hz
         Acceleration : 2.2 Grms

• MIL-STD-810 Method 516.6

         Shock : 20 g

AV600-RH-A45 

• Intel^® Core^® i7-13800HRE
• NVIDIA^® RTX™ A4500 (MXM)
• MIL-STD-810 Method 514.6 Vibration

         Vibration
         PSD : 0.0167 g²/Hz
         Frequency : 500~2000 Hz
         Acceleration :  5.0 Grms

• MIL-STD-810 Method 516.6

         Shock : 40 g

AV600X-TH 

• Intel^® Xeon^® W-11865MRE
• NVIDIA^® Quadro^® RTX^™ A1000
• MIL-STD-810 Method 514.6

         Vibration
         PSD : 0.0167 g²/Hz
         Frequency : 500~2000 Hz
         Acceleration :  5.0 Grms

• MIL-STD-810 Method 516.6

         Shock : 40 g

AV600X-CH

• Intel^® Xeon^® E-2276ME
• NVIDIA^® Quadro^® RTX™ A2000
• MIL-STD-810 Method 514.6

         Vibration
         PSD : 0.0167 g²/Hz
         Frequency : 500~2000 Hz
         Acceleration :  5.0 Grms

• MIL-STD-810 Method 516.6

         Shock : 40 g

HORUS440 

• Intel^® Xeon^® SP Platinum 8558
• NVIDIA^® RTX™ A4500 (PCIe)
• MIL-STD-810 Method 514.6

         Vibration
         PSD : 0.01275 g²/Hz
         Frequency : 500~2000 Hz,
         Acceleration :  5.0 Grms

• MIL-STD-810 Method 516.6

         Shock : 20 g

7SL-5610 

• Intel^® Xeon^® SP Bronze, Silver, Gold
• MIL-STD-810 Method 514.6

         Vibration
         PSD : 0.02157 g²/Hz
         Frequency : 5~2000 Hz,
         Acceleration :  5.0 Grms

• MIL-STD-810 Method 516.6

         Shock : 20 g

 

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SR700-X4

• Intel^® Xeon^® E-2276ME
• NVIDIA^® Quadro^® RTX™ A2000 (MXM)

• MIL-STD-810 Method 514.6

         Vibration
         PSD : 0.0675566 g²/Hz
         Frequency : 20~2000 Hz
         Acceleration :  10 Grms

• MIL-STD-810 Method 516.6

         Shock : 75 g

SR200-X4

• Intel^® Xeon^® E-2276ME
• NVIDIA^® Quadro^® RTX™ A2000 (MXM)
• MIL-STD-810 Method 514.6

         Vibration
         PSD : 0.0168891 g²/Hz
         Frequency : 20~2000 Hz
         Acceleration :  10 Grms

• MIL-STD-810 Method 516.6

         Shock : 75 g