The speaker, originally from an AI neural network laboratory, has dedicated 25 years to cybersecurity, specializing in smart cards (Smart Card), secure microcontrollers (Secure MCU), and authentication chips (Authentication Chip), along with international certifications such as ISO 15408, FIPS 140, ARM PSA, and SESIP. Currently, he focus on Data Brushing techniques for AI DL/LLM/LMM and related AI security protection designs.

🔹 WHY

The rise of quantum computing poses unprecedented challenges to existing encryption standards. This talk explores how post-quantum cryptography (PQC) impacts chip security lifecycle planning and how industries can prepare for future quantum threats from both cybersecurity and semiconductor perspectives.

🔹 WHAT

The session will cover PQC’s historical significance in cryptography and analyze the impact of quantum computing on RSA, ECC, and other mainstream encryption methods. It will also examine chip security threats, including invasive and non-invasive attacks, and discuss how secure design, quantum-resistant key management, and encryption algorithms can safeguard chips throughout their lifecycle—from design and mass production to deployment. Additionally, the session will explore how high-performance AI accelerates the development of edge-embedded security chips.

🔹 HOW

With NIST's August 13, 2024 release of the PQC international standards, cybersecurity and semiconductor industries face both challenges and opportunities. Taiwan's critical role in the global semiconductor supply chain positions it for a new wave of security chip advancements. This session will provide insights into industry trends, practical security strategies, and an overview of upcoming government initiatives in security chip ecosystem planning, helping businesses navigate future risks and opportunities.