TECHNOLOGY & INNOVATION
Pioneering the Next Generation of Semiconductor Advancements
Semiconductor Materials Innovation: Engineering the Future of Performance
We lead semiconductor innovation with GaN-on-Silicon for improved efficiency and speed, Terahertz GaN-on-Silicon for ultra-fast computing, Wide-Bandgap Semiconductors (SiC and GaN) for EVs and AI, and exploration of 2D & Quantum Materials like graphene for next-gen transistors.
AI & Machine Learning-Driven Chip Design: The Future of Semiconductor Engineering
Our AI-driven semiconductor design optimizes performance, efficiency, and manufacturability through advanced algorithms. Key innovations include AI-assisted circuit optimization, layout design, and predictive failure analysis, enabling faster iterations and improved performance-per-watt.
Next-Gen Semiconductor Fabrication: Precision at the Atomic Level
We use advanced fabrication techniques like EUV Lithography for sub-5nm nodes, 3D Stacked Architectures for better performance, and Chiplet Integration for customization. Our Neuromorphic Computing research drives efficient AI architectures, reducing power leakage and enabling specialized applications.
Terahertz & Quantum Computing Research: Unlocking Unprecedented Computational Power
We’re advancing Terahertz and Quantum Computing with GaN-on-Silicon THz devices for 6G and medical imaging, quantum dot & qubit engineering for scalable quantum processors, and cryogenic research to boost quantum efficiency. This enables faster data transfer, advanced AI, and groundbreaking medical imaging.
Sustainability & Eco-Friendly Semiconductor Manufacturing
Liberal Scientific Technologies prioritizes sustainability with water-free lithography, AI-optimized processes, recyclable packaging, and energy-efficient materials, reducing water use, waste, and carbon footprints. This leads to 30% energy savings, sustainable product life cycles, and less electronic waste.
