Company Filing History:
Years Active: 2009
Title: Mouna Safi-Harab: Innovator in High-Speed Circuit Analysis
Introduction
Mouna Safi-Harab is a distinguished inventor based in Ville Saint Laurent, Canada. She has made significant contributions to the field of integrated circuit analysis, particularly through her innovative patent that addresses high-speed signal characterization.
Latest Patents
Mouna holds a patent for an "Embedded time domain analyzer for high-speed circuits." This invention provides a method for an on-chip high-speed time domain digital analyzer that characterizes and analyzes signals within integrated circuits. The method processes the signal in the digital domain, regardless of its starting format. It performs voltage-to-time conversion using predetermined voltage thresholds, applies time amplification to the digital time information, measures the amplified time difference between events, and converts this information as needed for characterization and analysis. This approach allows for the capture of very high-speed signals with high resolution, eliminating the need for complex and high-speed electronics. The on-chip analyzer can function as an oscilloscope, pulse width analyzer, rise time analyzer, and logic analyzer. Additionally, it enables the capture and analysis of single and non-repetitive signal events, which is a significant advancement over prior art approaches.
Career Highlights
Mouna is affiliated with McGill University, where she continues to contribute to research and innovation in her field. Her work has garnered attention for its practical applications in high-speed electronics and integrated circuit design.
Collaborations
Mouna has collaborated with notable colleagues, including Gordon W. Roberts and Mourad Oulmane, who have also made significant contributions to the field of electrical engineering.
Conclusion
Mouna Safi-Harab is a pioneering inventor whose work in high-speed circuit analysis has the potential to revolutionize the way signals are characterized and analyzed in integrated circuits. Her innovative patent reflects her commitment to advancing technology in this critical area.