Dr. Enrico Mezzetti, Established Researcher at the Barcelona Supercomputing Center, will share the innovative infrastructure behind the AI-FSM and XAI methodologies explored in the first two webinars of the SAFEXPLAIN webinar series. Participants will gain insights into the integration of the proposed solutions and how they are designed to enhance the safety, portability and adaptability of AI systems.
Webinar goal
The session will also highlight the methodologies and technologies developed to create a robust, scalable and flexible infrastructure that ensures trustworthy AI solutions. By sharing SAFEXPLAIN solutions, this webinar will underline the adaptability of the solutions for real-world AI deployment. The webinar will emphasize how SAFEXPLAIN infrastructure contributes to trustworthy solutions that emphasize portability, modularity, and adaptability.
Learning goals
Webinar attendees will:
- Obtain an overview of SAFEXPLAIN reference platform, in terms of hardware and software stack
- Learn about SAFEXPLAIN platform-level solutions ranging from hardware configuration to performance characterization to bespoke tools.
- Gain insights into main SAFEXPLAIN technological elements and how they can be effectively deployed within a highly modular software architectural framework that is compliant to AI-FSM principles and requirements by design.
Audience
- System designers
- Industry professionals and engineers interested in integrating AI-FSM and XAI into real-world applications
Resources
- Coming Soon! SAFEXPLAIN technologies converge in an open demo
- Sustained performance and segregation through hardware-level support
- D4.1 Interim Platform Technologies Report
- Webinar 1: Towards functional safety managemet for AI-based critical systems
- Webinar 2: XAI for systems with functional safety requirements
Speaker bio
Dr. Enrico Mezzetti has been an Established Researcher at the Barcelona Supercomputing Center since 2016. He holds a PhD in Computer Science from University of Bologna (Italy) on software timing analysis and industrial development process. He authored more than 60 publications on the verification of critical embedded systems, specializing in timing characterization and analysis of multicore systems, RTOS, and software architectures.