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Case Studies
This white paper provides an in-depth analysis of the IV320 and AV710, NV200 and NV300 HPC systems, highlighting their advanced technical…

The proliferation of commercial and military-grade drones presents a growing threat to critical infrastructure, military installations, and sensitive areas. As drone technology advances in autonomy, maneuverability, and payload capabilities, traditional air defense systems struggle to detect, track, and neutralize these small and agile threats. This article outlines a modular and effective Anti-Drone System that leverages four key components: Electro-Optical/Infrared (EO/IR) sensors, GPU-based AI computing, rugged military-grade displays, and a Command & Control (C2) system integrated with fire control. Together, these components enable real-time detection, classification, tracking, and neutralization of drone threats.

C5ISR(Command, Control, Communications, Computers, Cyber, Intelligence, Surveillance, and Reconnaissance) is essential in modern battlefield operations because it enables commanders to make better decisions, improve situational awareness, enhance coordination, and protect against cyber threats, while also enabling faster and more agile responses to changing circumstances.
Achieving C5ISR with HPC ability involves integrating advanced technologies and processes to enable faster and more efficient data acquisition, processing, analytics, communication, cybersecurity, and simulation, while also accounting for the unique challenges of cyber warfare.
Achieving C5ISR with HPC ability involves integrating advanced technologies and processes to enable faster and more efficient data acquisition, processing, analytics, communication, cybersecurity, and simulation, while also accounting for the unique challenges of cyber warfare.

This white paper provides an in-depth analysis of the IV320 and AV710, NV200 and NV300 HPC systems, highlighting their advanced technical capabilities and performance across various demanding applications.
This document examines the core hardware components, performance benchmarks, and potential use cases for these systems. In response to the evolving landscape of AI-driven asymmetric warfare, military integrators are continuously seeking robust computational systems that offer superior multifaceted-computing capabilities and can endure harsh environmental conditions, such as shock, vibration, and extreme temperature variations
This document examines the core hardware components, performance benchmarks, and potential use cases for these systems. In response to the evolving landscape of AI-driven asymmetric warfare, military integrators are continuously seeking robust computational systems that offer superior multifaceted-computing capabilities and can endure harsh environmental conditions, such as shock, vibration, and extreme temperature variations
Anti-Drone Artillery Targeting System
The 7STARLAKE Counter-Drone System leverages advanced EO/IR sensors with AI GPU computing for real-time threat assessment. Designed with rugged, military-grade displays and an integrated Command & Control system featuring fire control capabilities, it provides comprehensive situational awareness to detect, track, classify, and neutralize hostile drones, ensuring reliable defense against evolving aerial threats.