From Silicon Design to Aerospace Intelligence
Focused on intelligent silicon architectures for aerospace and space environments, from RTL design to AI-ready hardware systems.
ASIC/FPGA Project Management
Scalable systems for A.I.
Safety-Critical Hardware
Audit/Review/Certification for Aerospace HW Projects
A 10+ year journey is not too long, but we are proud that our dedication and efforts have been recognized along the way.
Where Aerospace Meets Advanced Artificial Intelligence
Redefining aviation and space safety through intelligence. A showcase of advanced ASIC research and hardware architectures for embedded AI. Rigor, Innovation, Certification.
About Us
Hardware Excellence for Aerospace Intelligence.
Welcome to AeroSystemsLab, a technological showcase dedicated to the intersection of cutting-edge microelectronics and Artificial Intelligence. This site serves as a platform to exhibit my research, designs, and deep-dive analyses into ASIC and FPGA development for the most demanding environments.
10+
Years in the industry
40+
projects completed
Our Services
Advanced ASIC & FPGA Research (Exhibition)
I provide deep-dive insights into the design and optimization of hardware accelerators. My work focuses on creating efficient silicon architectures for neural networks, specifically tailored for the power and thermal constraints of aeronautical systems.
ECSS & DO-254 Compliance Frameworks
I offer comprehensive methodologies for certifying complex hardware. This includes strategies for requirements traceability and verification plans that align AI-driven hardware with the strict design assurance levels (DAL A/B) required for flight safety.
Edge AI for Avionics
Research on moving AI from the ground to the cockpit. I explore how “Edge AI” can be implemented directly on-chip (SOC/FPGA) to enable real-time decision-making without compromising the deterministic nature of critical flight systems
High-Performance Hardware Standards
Expertise in modern open-architecture standards for mission computers. I focus on the integration of modular standards to ensure that next-generation AI hardware is modular, scalable, and interoperable
Technical Literature & Training
Through my book “Safety-Critical FPGA Design” and specialized white papers, I provide the aeronautics community with the theoretical and practical tools necessary to master the rigors of the ECSS & DO-254 standard.
Strategy & Roadmaps
Our strategy is built on a core conviction: the autonomy of tomorrow cannot exist without absolute confidence in the underlying hardware. We follow a rigorous path to bridge the gap between breakthrough AI research and aeronautical certification.
What the Industry Says
Bridging the Gap Between Innovation and Regulation.
The aerospace industry is currently at a crossroads. While the demand for autonomous features and advanced data processing is skyrocketing, the path to certifying these technologies remains the primary bottleneck.
“The challenge is not just making AI work, but proving how it works every single time.” My research on ASIC architectures specifically targets this need by creating fixed-path hardware accelerators that eliminate the unpredictability of traditional GPU-based AI.
Eren ALTUN
AeroSystemsLab
Selected Works
Explore a curated selection of my research projects, technical publications, and architectural designs focused on high-reliability hardware for the next generation of aerospace intelligence.
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Target Ecosystem
My research and designs are specifically developed for the rigorous requirements of global aerospace leaders and regulatory bodies.
Bringing Intelligence to the Edge of Aerospace
Where breakthrough innovation meets aerospace-grade reliability. I specialize in designing the silicon ‘brain’ of future aircraft, ensuring that advanced Artificial Intelligence remains predictable, auditable, and ready for flight-critical certification.