1108, 2025

Post-Quantum Cryptography Acceleration for Edge Computing 

As quantum computing continues to evolve, existing public-key cryptographic schemes are becoming increasingly vulnerable. To address this, the SMARTY Project is advancing hardware acceleration for Post-Quantum Cryptography (PQC) within edge computing environments.  Led by BSC, the effort focuses on integrating PQC capabilities into the SELENE SoC, a RISC-V-based platform, using High-Level Synthesis (HLS) to accelerate the development of hardware modules that implement two NIST standardization candidates:  Design Highlights  System Integration 

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0608, 2025

W-Band Wireless Prototype: Advancing Quantum-Resistant Communications  

The SMARTY Project is progressing toward a secure, high-speed, short-range wireless link through the development of a W-band prototype (75–110 GHz). This forms a key component of a quantum-resistant transceiver tailored for edge environments where secure communication is required but wired infrastructure is not available.  W-Band Prototype: Current Status  The initial laboratory setup has demonstrated a unidirectional uplink (UL) over a wireless W-band path, while the downlink (DL) remains fiber-based. 

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3107, 2025

Building a Quantum-Resistant Transceiver for High-Speed, Secure Wireless Communication 

The SMARTY Project is advancing secure communications with the development of a quantum-resistant transceiver designed for short-range, high-speed wireless links. This innovation targets edge computing scenarios where fiber connections are unavailable or impractical, and secure, low-latency data exchange is critical.  Technical Overview:  Led by TUE, the prototype transceiver operates in the W-band (75–110 GHz) and is designed for chip-to-chip and short-range node communication. A J-band (220–330 GHz) version is also

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2807, 2025

Power Meets Security: SMARTY’s Ultra-Low Power Processor for PQC & Edge AI  

What if your smart device could learn, protect, and process AI? And all without needing a bulky battery or cloud connection?  That’s exactly what we’re building in SMARTY with our Ultra-Low Power Processor for PQC and Edge-AI which is an innovation that combines next-gen security with AI capability in a compact, energy-efficient chip. As quantum computers advance, traditional encryption becomes more vulnerable. But PQC algorithms are computationally intensive. Because we

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2407, 2025

How SMARTY Is Reinventing Secure Elements for the Quantum Era 

As quantum computing advances, traditional cryptographic systems face growing risks. In response, the SMARTY Project is developing a Quantum-Resistant Secure Element (QR-SE)—engineered to protect data and communication systems from quantum-enabled attacks.  This next-generation SE targets applications where long-term data security is critical, including autonomous vehicles, healthcare, and public sector systems.  Core Technical Focus Areas:  Current Achievements:  What’s Next?  SMARTY’s QR-SE reduces PQC key sizes by over 50% without compromising cryptographic

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