As regulatory frameworks like the EU Cyber Resilience Act (CRA) tighten cybersecurity requirements for connected products, manufacturers are seeking scalable and standards-compliant solutions. But where do you even start? Even without harmonized standards, a number of core technologies and processes exist already to align with some of the key CRA requirements, like initial device identities, code signing, secure boot, and over-the-air (OTA) updates.  Join STMicro and Keyfactor as we dive into the role of secure boot and code signing in CRA compliance. In this webinar you will learn:

• Where CRA is today and what can be done today
• What components and processes are needed for secure boot
• Why code signing is critical to CRA compliance
• How Keyfactor and STMicro enable secure boot and code signing

About the panelists:

Laurent Sustek defines security features for STM32 MCUs and MPUs targeting both industrial and Automotive applications, ensuring compliance with regulations like the EU Cyber Resilience Act and standards such as SESIP and FIPS. His mission not only fortifies STM32 products against security threats but also speeds up customer certifications, earning the trust of users worldwide. Laurent also chairs the Software Bill of Materials Sub Task Force at GlobalPlatform.

Ray Lillback is Keyfactor’s Senior Director of IoT Strategy. He joined the team in 2022 and is focused on supporting a variety of IoT verticals with PKI, certificate management, and firmware signing technology from the early product design stage through manufacturing, field deployment, and full lifecycle. Ray brings more than 30 years of experience to the role. He is well-versed in the OT, IIoT, embedded systems, and software industry and has expertise in IoT security, manufacturing management, technical support, and mission-critical design.