Company Filing History:
Years Active: 2016-2018
Title: Audrey Catherine Kertesz: Innovator in Clock Alignment Technologies
Introduction
Audrey Catherine Kertesz is a renowned inventor based in Toronto, Canada, known for her significant contributions to the field of clock alignment technologies. With a total of two patents to her name, Kertesz has made a notable impact in the electronics sector, particularly through her work at Altera Corporation.
Latest Patents
Kertesz's latest patents focus on advanced systems and methods for clock alignment and phase detection. The first patent outlines a method for detecting phase alignment between first and second clock signals by comparing outputs from a collapsible pipeline and a non-collapsible pipeline. This innovation plays a crucial role in synchronizing clock signals in electronic circuits, enhancing the performance and reliability of systems. The second patent elaborates on a collapsible three-stage pipeline configuration, which includes a first register in the first stage, a second register in the second stage, and a third register in the third stage. Each clock signal is designed to have corresponding edges, thereby facilitating precise clock signal management.
Career Highlights
Throughout her career, Kertesz has established herself as a leading figure in electronics and signal processing. Her innovative approaches to clock alignment have positioned her as a valuable asset at Altera Corporation, where she collaborates closely with her team to push the boundaries of technology and engineering.
Collaborations
In her pursuit of technological advancements, Kertesz has worked alongside talented coworkers such as Dana How and Carl Ebeling. Their collective expertise has fostered a collaborative environment, leading to pioneering developments in clock synchronization technologies.
Conclusion
Audrey Catherine Kertesz continues to influence the realm of electronics with her inventive spirit and dedication to innovation. As the industry evolves, her contributions will undoubtedly remain vital in shaping the future of clock alignment and synchronization technologies.