Company Filing History:
Years Active: 2010-2013
Title: Paul Norbert Scheidt: Innovator in Component Testing and Clock Domain Management
Introduction
Paul Norbert Scheidt is a notable inventor based in Santa Cruz, CA (US). He has made significant contributions to the field of component testing and clock domain management, holding a total of 3 patents. His work has been instrumental in enhancing communication between components in complex systems.
Latest Patents
Scheidt's latest patents include innovative systems and methods for testing a component by using encapsulation. These systems facilitate communication between two components that utilize different languages in a test environment. The encapsulation process allows for the creation of call messages, event messages, and return messages by encapsulating identifiers of functions and events. Another significant patent focuses on the selection of port adapters for clock crossing boundaries. This invention provides methods and apparatus for efficient clock domain crossing management in programmable chip systems. It enables the analysis of components associated with different clock domains and allows for the automatic selection of clock domain crossing components from a library, enhancing efficiency in system design.
Career Highlights
Paul Norbert Scheidt has been associated with Altera Corporation, where he has contributed to various projects that leverage his expertise in component testing and clock management. His innovative approaches have led to advancements in the functionality and efficiency of programmable chip systems.
Collaborations
Scheidt has collaborated with notable colleagues such as Jeffrey Orion Pritchard and Timothy Allen. Their combined efforts have fostered a creative environment that encourages innovation and the development of cutting-edge technologies.
Conclusion
Paul Norbert Scheidt's contributions to the fields of component testing and clock domain management have established him as a prominent inventor. His patents reflect a commitment to improving communication and efficiency in complex systems.