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Through virtual testing tools, battery intelligence IP, and AI-powered energy optimization, Logiicdev enables faster deployment of renewable solutions—supporting the REPowerEU initiative and the EU’s 40% renewable energy goal.
Our edge-AI platforms and modular control bridges advance the development of energy-optimized, intelligent robotics. We integrate AI and real-time sensor fusion to improve flexibility, autonomy, and industrial productivity—contributing to smarter, more sustainable automation.
In support of the Chips Joint Undertaking, we design secure, energy-efficient hardware—including custom FPGA IPs, AI accelerators, and chiplet-based SoCs—helping to strengthen Europe’s microelectronics ecosystem and reach the 20% global chip production target by 2030.
We also promote interdisciplinary R&D, talent retention, and responsible innovation to support a more sovereign, sustainable, and resilient Europe.
A Commitment towards the research, innovation and economical benefit.
AID4SME is a visionary, European Union–funded initiative designed to empower SMEs to develop integrated AI and data-driven solutions addressing large-scale resource optimisation challenges. The project targets industrial sectors with a significant impact on the European Green Deal objectives. Through two open calls, at least 20 SMEs will be selected to receive FSTP, enabling them to design, test, and deploy innovative solutions. AID4SME’s long-term ambition is to establish a sustainable CoP that continues to foster collaboration, knowledge exchange, and innovation well beyond the project’s lifetime.
Rapid advances in electrification, autonomy, and digital technologies are driving electric-vehicle innovation, but decentralised multi-ECU architectures struggle with rising complexity. The EU and FFG funded Rigoletto project addresses this challenge by laying the foundation for a next-generation automotive hardware platform based on the RISC-V instruction set architecture (ISA). By supporting the transition to centralised electronic/electrical (E/E) architectures—where ECUs converge into Domain or Zonal Control —the project aims to strengthen Europe’s leadership in future automotive electronics.
Recent advances in quantum technologies have enabled major breakthroughs across many sectors, but they also introduce growing cybersecurity risks as quantum computing powers more sophisticated attacks. The EU-funded Q-FENCE project addresses this challenge by developing a robust, energy-efficient hybrid security framework for quantum resilience, combining established cryptographic techniques with novel approaches to deliver a dual-layer model compatible with both legacy and next-generation systems.
SNADE will focus on multi-sensor integration and intelligent information fusion in the context of UAS navigation, in particular in non-permissive environments. This EU EDF funded project address the novel means in environmental navigation, image processing, and spiking neural networks.
