Daniel Stroe currently serves as a Software Architect at GlobalFoundries, where he plays a pivotal role in defining and collaborating on architectural solutions that bridge the gap between hardware and software. With a strong focus on system and component-level architecture, Daniel is adept at employing...
Daniel Stroe currently serves as a Software Architect at GlobalFoundries, where he plays a pivotal role in defining and collaborating on architectural solutions that bridge the gap between hardware and software. With a strong focus on system and component-level architecture, Daniel is adept at employing hardware and software co-design techniques to optimize product performance and efficiency. His expertise extends to the development of Process Design Kits (PDK), where he leverages rule-based systems and machine learning (ML) to create scalable solutions that meet the evolving demands of the semiconductor industry.
In his current role, Daniel is involved in key projects that emphasize the integration of advanced technologies, including large language models (LLM) and machine learning algorithms, to enhance design automation and improve system reliability. His hands-on approach to product and feature definition ensures that the architecture not only meets technical specifications but also aligns with market needs. With a background in embedded real-time systems development and digital design, he possesses a unique blend of skills that allows him to navigate complex challenges in software engineering, ASIC design, and firmware development.
Daniel's proficiency in Python and debugging, combined with his knowledge of system-on-chip (SoC) architectures and USB technologies, positions him as a valuable asset in driving innovation at GlobalFoundries. His commitment to refining software architecture through collaboration and communication fosters a culture of continuous improvement, making him a key contributor to the company’s success in delivering cutting-edge semiconductor solutions.
