Olivier Franza serves as the Chief Architect and Principal Investigator for the Aurora Supercomputer at Intel Corporation, where he plays a pivotal role in driving advanced technology innovation and research. With a robust background in integrated circuit design and very-large-scale integration (VLSI), Olivier is at...
Olivier Franza serves as the Chief Architect and Principal Investigator for the Aurora Supercomputer at Intel Corporation, where he plays a pivotal role in driving advanced technology innovation and research. With a robust background in integrated circuit design and very-large-scale integration (VLSI), Olivier is at the forefront of developing cutting-edge solutions that push the boundaries of high-performance computing. His expertise in circuit design, static timing analysis, and functional verification enables him to lead complex projects that require meticulous attention to detail and strategic vision.
At Intel, Olivier is instrumental in the integration of diverse technologies that enhance the Aurora Supercomputer's capabilities. This state-of-the-art system is designed to tackle some of the most challenging computational problems in scientific research and artificial intelligence. His work involves not only the technical aspects of logic synthesis and simulations but also the orchestration of multidisciplinary teams that thrive in multicultural environments. Olivier’s ability to communicate effectively across diverse groups ensures that innovative ideas are translated into actionable strategies, fostering collaboration and accelerating project timelines.
As a leader in advanced technology, Olivier is committed to pushing the envelope of what is possible in supercomputing. His role encompasses overseeing the development of new architectures that leverage the latest advancements in FPGA technology and integrated circuit design. By harnessing his extensive skill set, Olivier is not only shaping the future of computing at Intel but also contributing to the broader landscape of technology research and development, making significant strides toward achieving unprecedented computational performance.
